Desiderius Erasmus Award
Award for Lifetime Contribution
The Desiderius Erasmus Award is presented to a geoscientist or engineer in recognition of his/her outstanding and lasting achievements in the field of resource exploration and development.
The Desiderius Erasmus Award consists of a medal and a certificate. The Award can optionally include the EAGE Honorary Memberships Award.
The Desiderius Erasmus Award 2020 was presented to:
Tadeusz W. Patzek
Tadeusz (Tad) Patzek is a is a professor and petroleum industry analyst at King Abdullah University of Science and Technology (KAUST) in Saudi Arabia. Previous to this he was Chair of the Department of Petroleum Engineering at the University of Texas at Austin and a Professor at the University of California, Berkeley. He was educated at the University of Minnesota and in his native Poland. Prof. Patzek has a wide range of interests, related to energy, the environment and climate change. He is renowned for his research into the fundamentals of multiphase flow in porous media with application to improved oil recovery, his predictions of productivity from shale gas formations, and his life-cycle analysis of biofuels. He is one of the few people active in the petroleum field, who are also sufficiently confident and expert to comment on environmental issues, fearlessly articulating the grave threats to the planet from climate change, deforestation and other environmental damage, while exposing the fallacies of many of the proposed solutions to these problems. He is an inspiring mentor and educator whose fierce intellectualism and unflinching pursuit of truth has won widespread admiration.
Past Winners of the Desiderius Erasmus Award
|2019||Evgeny Landa||Evgeny Landa is an innovative and original thinker, an inspiring teacher, an exceptionally skilled lecturer and a great scientific project leader. He is a pioneer in his approach to imaging seismic data, which is at the core of the determination of subsurface geological structure from seismic data. His many lucid contributions in velocity model building, model-independent seismic imaging and seismic diffraction have caused other geophysicists to change the way they think about these problems and have led to new research directions by academic and commercial seismologists. He has provided the theoretical basis as well as the practical applications. His approach to seismic imaging without a velocity model has had a big business impact on image-processing projects, reducing both the time and the cost. His approach to imaging diffractions has been applied to illuminate subtle subsurface features critical to reservoir characterisation, including fractures. He has won EAGE’s Loránd Eötvös Award for best paper twice (2007 and 2010). For a lifetime of inspiring contributions to geophysics in both academic and commercial communities, the Erasmus Award is given to Professor Evgeny Landa.|
|2018||No recipient selected|
|2017||Martin Blunt||Martin Blunt has created impact from his prize-winning Cambridge degree, through innovative research at BP and Stanford, to becoming the youngest Professor of Petroleum Engineering at Imperial College in 1999. Exceptional in both teaching and research, Martin has made internationally recognised contributions to reservoir engineering across length-scales and applications. At the reservoir scale, he pioneered streamline-based methods for simulating multiphase flow, moving research tools to robust codes capable of handling realistic reservoir problems. Martin has re-defined the field of pore-scale modelling to understand multiphase flow in geologic materials, creating new methods to extract pore-network models from various data types. His industry consortium developed the first pore-network model of three-phase flow that properly accounts for wettability effects and non-Newtonian fluid rheology. Martin’s unified view of pore-scale imaging and modelling is a pathway to new physics and to engineering solutions for field-scale recovery. His technical vision has guided his group towards novel techniques to measure residual phase trapping and to image fluid distribution at the pore-scale, with applications ranging from hydrocarbon reservoirs to geological carbon storage. Martin’s work has led to two start-up companies and the 10-year, $70m Qatar Carbonates and Carbon Storage Research Centre at Imperial College. Over 15,000 citations from more than 200 publications place Martin at the forefront of research. He has an outstanding record of supervising undergraduates, MSc students and post-graduates, being awarded the President’s Medal for Excellence in Teaching. Editor-in-Chief of Transport in Porous Media, he is generous with both his ideas and his time. Adding to his two medals from SPE and an award from the Society of Core Analysts, EAGE is delighted to confer the Erasmus award onto Prof. Martin Blunt.|
|2016||Anton Ziolkowski||In a lifetime of notable contributions, Prof. Anton Ziolkowski has combined insights into fundamental physics with practical approaches to signal processing, not just in the fields of land and marine seismic acquisition but also in transient electromagnetics. A truly outstanding communicator, Anton’s quiet, modest, patient but authoritative approach to oral presentations and written articles has assisted generations of students and colleagues in understanding his work and its application. Anton has even found time to contribute meaningfully to the scientific method itself with commentary on Popper; following Popper, he would be ready to adapt his ideas when shown to be falsified by experiment but such was his physical intuition and insight that this was rarely required. Anton has made huge practical contributions to the physics of seismic sources at sea and on land, contributing to the source scaling laws for airguns and dynamite and, with Bill Lerwill, to understanding how the dynamics of a vibroseis baseplate and reaction mass impact the source signature. Realising the importance of farfield signature estimation in improving seismic resolution and amplitude analysis, he conceived ways of modelling signatures from measurements at or near the source to the benefit of the industry as a whole. His ideas for transient electromagnetics helped to commercialise controlled source EM methods on both land and sea, resulting in their adoption by PGS but it is probably Anton’s interactions with a hundred or more students and his great contributions to literature that establishes his lasting legacy and this conferral of the Erasmus award.|
|2015||William Symes||Erasmus spanned the cloistered world and secular society; in much the same way, William Symes has bridged the academic cloister and the industrial mêlée over a lifetime of outstanding contributions to exploration seismology. He has addressed theoretical and computational problems in wave propagation and, in particular, his seminal works on migration velocity analysis, differential semblance and full-waveform inversion have brought great insights to both academic and industry practitioners. William's ability to distil the salient points of a geophysical problem and to describe them concisely with a mathematical model has transformed current exploration geophysics. Not content with theoretical model developments, William has explored the applications of his concepts through the channel of The Rice Inversion Project (TRIP), a highly-respected industry consortium that he founded in 1992. TRIP has taken industry data sets and explored both theoretical and parallel computing approaches to render the migration and inversion of these data sets tractable.
William has made significant contributions to reverse time migration and RTM checkpointing, finite-difference and finite-element modelling, sparse-spike deconvolution that has influenced current research into compressive sensing, and wavefield scattering. He has generously shared his discoveries through code, through around 90 peer-reviewed publications as well as more than 100 extended abstracts and reports and, perhaps most importantly, by the mentoring of many now-illustrious students, post-docs and consortium colleagues.
William is Noah Harding Professor of Computational and Applied Mathematics at Rice and has gained esteem from the Society for Industrial and Applied Mathematics, the Institute of Physics and many other universities. For his seminal contributions to methods, analysis, algorithms and software for seismic inversion and wave propagation, and for his exceptional influence as a teacher, mentor and collaborator, we present Professor William Symes with the 2015 Erasmus Award.
|2014||Nigel Anstey||The Erasmus Award is for a lifetime contribution of outstanding and lasting achievements; against such a yardstick, few can match the achievements made by Nigel Anstey over seven decades. Nigel has made lasting contributions to seismic theory, acquisition, data processing and interpretation. As a one-man asset team, Nigel was an early destroyer of the artificial boundaries between geology and geophysics to the benefit of generations of young earth scientists who have read, enjoyed and learned from his books and teaching materials. Nigel has made outstanding contributions to resource exploration and development, ranging from his seminal papers on seismic wavelets; the statistics of thin beds and their effect on the propagating wavelet; the invention with Bill Lerwill of the magnetic correlator which made the emerging Vibroseis method a practical technique; a patent on vertical seismic profiling, and the introduction of coloured overlays of seismic attributes in interpretation. There is practically no area of seismic acquisition, processing or interpretation that has not been touched by Nigel's contributions. Not only has he been a great innovator but Nigel has a gift for writing that demystifies concepts and explains them, to novices and experienced practitioners alike, to reveal fresh insights and understanding. This gift has spurred Nigel to write excellent books on Vibroseis, seismic acquisition and seismic interpretation, as well as materials for the many courses and lectures that he has delivered over the years. Most of today's luminaries studied with Nigel's books and course notes, or had the privilege to hear his lectures in person, and it is an honour for EAGE to present its most prestigious award to such a worthy recipient.|
|2013||Jean Virieux||Professor Jean Virieux’s name is a byword in numerical modelling of seismic wave propagation. He has made huge contributions to the fields of earthquake rupture theory, wavefield simulation, tomography and seismic inversion. His concept of the staggered grid representation of velocity and stress has enabled accurate wavefield modelling with sufficient economy to allow commercial migration and inversion algorithms to run in two and three dimensions, to the great benefit of exploration and earthquake seismology. He continues to study increasingly accurate and flexible seismic models in progressively complex structures with non-planar faults and heterogeneities. Prof. Virieux’s career has been highly productive with his research benefitting the wider community through studies of earthquake mechanisms and risk. His method is used, for example, in the Terashake project of the Southern California Earthquake Center to simulate seismic waves in the Los Angeles basin due to large earthquakes in the Southern San Andreas fault system. Other colleagues in Italy use his models for studying volcanic events from Vesuvius. Prof. Virieux has trained a large number of outstanding students who work in both academia and industry developing innovative methods for imaging and understanding complex crustal structures. He has authored over 60 EAGE publications, served on the Research Committee and contributed to EAGE workshops. We are delighted to present the Erasmus Award for 2013 to Professor Jean Virieux for a lifetime of achievements and practical contributions to academia and industry.|
|2012||André Journel||André Journel is a figure of our industry. In France, he was one of the first three students of famous Professor Matheron, the founder of geostatistics. In 1978, André moved to the Applied Earth Sciences Department at Stanford University, where he has since spent his entire career. He co-authored the book ‘Mining Geostatistics’, which was one of the first textbooks ever written on the subject and is still a reference for the industry. He was also the father, through his students, of the famous GSLIB software, a public-domain code that greatly contributed to the spread of geostatistics worldwide. Through his work, his numerous publications and that of his more than 50 PhD students, André has led the development of geostatistics in the petroleum industry. André Journel has also always been extremely supportive of his students, who now occupy many important positions in the academic and industrial world. Last but not least, he is a very charismatic figure who is always keen to challenge the views of his peers. EAGE is pleased to honour his many pioneering achievements.|
|2011||Jean-Laurent Mallet||In recognition of his groundbreaking research and development work over four decades in applied mathematics and computer sciences related to geology. Nominated Professor at Nancy in 1981, he developed the gOcad project in 1989, dedicated to the 3D modelling and visualisation of the subsurface, based on his earlier research. The output from this research project led to the creation in 1997 of the company Earth Decision Science, which subsequently merged with Paradigm Geophysical in 2006. Although he retired in 2006, Professor Mallet has continued to influence the direction of the gOcad project. Professor Mallet has published extensively, and is author of numerous patents, and has two books on current issue. His pioneering achievements have already been widely recognised by various scientific bodies, including SEG, SPE and the French Academy of Sciences.|
|2010||Enders A. Robinson||In recognition of his fundamental and lifelong contribution to geophysics. His early research laid the groundwork for seismic deconvolution and the widespread use of geophysical digital filters in general. He was one of the first to pioneer and make full use of digital computers in seismic processing, and in 1965 was one of the founders of Digicon Inc. He is the author of a dozen books, the most recent published in 2008, representing nearly six decades of scientific excellence and achievement. Universally recognised as an eminent scientist, Dr Robinson has aptly been described as one of the living legends of exploration geophysics, fully deserving the EAGE Erasmus Award for his outstanding and lasting achievements.|
|2009||Fabio Rocca||So wide a spectrum of major scientific achievements as that seen from Fabio Rocca, is rare in our profession. In the Seventies, he pioneered computer contouring with faults, and multi-channel techniques for multiple suppression and spectral depth estimation of magnetic anomalies; in the Eighties, he focused on FK and residual migration, dip move-out and diffraction tomography; in the Nineties he moved onto seismic-while-drilling, and in the new century satellite interferometry. Fabio is Professor of communications and signal processing at the Politecnico of Milan, where he promotes the interaction between different disciplines. During his term as EAGE President, he pioneered geoscientific integration, a defining aspect of our association today. A professor’s quality may be measured by the achievements of his students and Fabio’s students from both Milan and Stanford, listed in the conference brochure, testify to his inspirational qualities. Fabio was Associate Editor of Geophysical Prospecting from 1981 to 1985. He received SEG Honorary Membership in 1989 and the EAGE Schlumberger Award in 1990.|
|2008||Bjørn Ursin||Bjørn Ursin has been at the forefront of geophysical research, education and geo-industry for more than 30 years. His unique style, and innovative and consistent approaches to geophysics have resulted in new insights and supported technological breakthroughs for seismic acquisition, processing and interpretation. These achievements have not only shaped geophysical technology but more importantly inspired geophysicists to a new way of thinking and to a deeper understanding of geophysics. His background from industry has ensured that his academic activities are well grounded and relevant to exploration geophysics. Bjørn has authored or co-authored over 100 papers in international journals. He has always actively searched for international cooperation and has served EAGE as Editor-in-Chief of Geophysical Prospecting as well as in several committees over the years.|
|2007||Sven Treitel||In recognition of his pioneering work in the field of signal processing and filter theory. He was among the earliest geophysicists to recognise and to make full use of digital computers in seismic data processing. A field where Sven Treitel has played a crucial role is the development of seismic deconvolution techniques, deconvolution being among the most significant and helpful developments in seismic data processing, extending even into such processes as synthetic seismograms and pseudovelocity log generation. His papers in Geophysical Prospecting on digital filtering and inversion are among the most widely referenced in the industry. His works on inverse theory, on wave theory and all its applications to finite difference "wave equation" migration, and on a whole sequence of other seismic issues have greatly influenced the way we conduct our daily work as geoscientists.|
|2006||Augustinus Berkhout||In recognition of his innovative and unified approach to a wide range of seismic issues, resulting in several technological breakthroughs for our industry. As a leading academic and as a pragmatic pioneer in the field of hydrocarbon exploration and production, he has listened and responded to the industry’s needs, thus creating a situation that has introduced new opportunities in both industry and academia – as manifested by the major projects that he has led, such as the Delphi Consortium. His many technical contributions, including those in the field of wave propagation in complex media and as applied to dynamic and static seismic problems have had a distinctly major impact in the industry.|
|2005||Roy White||In recognition of his outstanding achievements that have profoundly influenced both the industry at large and academia. A scientist , his innovative approach to the application of signal theory to seismic data and wavelet estimation together with his statistical concepts have been fundamental in the crucial problem of matching the seismic to the well data, in deconvolution and in other valuable applications in addition to his other works in petrophysics, AVO, reservoir geophysics, accuracy of Q and other disciplines which have been adopted by the industry in various forms. His services to the Association in committees and in editorial capacity have been characterised by his usual efficiency and dedication.|
|2004||Turhan Taner||In recognition of his fundamental and outstanding contributions, particularly in the fields of seismic velocities, seismic attributes, reflection and refraction statics computations, plane wave processing and imaging systems, rock physics and Q estimation methods, contributions that have been characterised by originality and depth of thought and many of which have been totally ground-breaking, pioneering the way for further progress and enabling the industry to build highly successful practices.|
|2003||Peter Hubral||In recognition of his many outstanding contributions to geophysics, including the introduction of image ray concepts, his work on true amplitude, on propagation in layered media and on reflection surfaces in conjunction with structural configurations, all of which have had far reaching consequences on the approach to imaging the earth, and for his services to the Association.|
|2002||Klaus Helbig||For his original and profound contributions to all aspects of geophysics, and in particular to seismic anisotropy, for his highly influential and creative service as editor of Geophysical Prospecting, for his leadership and pioneering achievements in the teaching of geophysics, for his authorship of innovative and outstanding books on geophysics, and for his indomitable spirit and his good sense of humor, all of which place Klaus Helbig high among the immortals of geophysics.|
|2001||M. Al-Chalabi||(with Honorary Membership)
In recognition of his contributions to geophysics with publications on travel time approximation and analysis of seismic velocities which play an outstanding role in modern understanding of kinematics of seismic waves, and for his services to the Association.
|2000||J.F. Claerbout||(with Honorary Membership)
For making Wave Theory work as the cornerstone of modern seismic processing.
For introducing the consortium as a model for collaboration between the Academy and Industry. For his teachings through the spoken, printed, and electronic word for thirty years. For his dedication and integrity that makes him an exemplar to all geophysicists.
For his generosity towards European scholars who are a significant part of the Stanford community.
|1999||D.S. Parasnis||(with Honorary Membership)
In recognition of his excellence in geophysical education and his contributions to geophysics with publications and textbooks, and for his outstanding services to the Association.
Conrad Schlumberger Award
Award for Outstanding Contribution
The Conrad Schlumberger Award is presented to a member of EAGE who has made an outstanding contribution over a period of time to the scientific and technical advancement of the geosciences, particularly geophysics. In exceptional circumstances, a maximum of two (2) Schlumberger Awards may be granted annually.
The Conrad Schlumberger Award consists of a medal and a certificate.
The Conrad Schlumberger Award 2020 was presented to:
Dr Revil’s work focuses on the development of coupled hydraulic-electrical conductivity models in porous media and the fundamental understanding of grain surface electrical conduction phenomena. He is considered a leader both in the field of hydrogeophysics and the most recognized expert in the subject of electrical and electromagnetic properties of saturated rocks. Through experiments and theory, Dr. Revil has redefined the concepts of spontaneous potential and induced polarization as used by formation evaluation specialists and applied exploration geophysicists around the world, thus shaping the way we interpret electrical signatures for quantifying near-surface properties and dynamics. His contributions are both foundational and practical. He provided a mechanistic framework for linking electrical conductivity and permeability in both clean and shaly sands. Importantly, he also found that even totally clay-free rock formations exhibit an appreciable amount of surface conductivity for freshwater aquifers, a point that is often neglected in applications. He and his co-authors also considered seismoelectric sources through a unified, coupled model of hydromechanical and electromagnetic disturbances in porous media. Revil is also an active member of the Geosciences communities who provides excellent service to the professional community — he serves as editor and associate editor for several important refereed journal publications, helped organize a significant number of workshops and technical/scientific conferences on Geosciences frontier topics, and co-edited the text Applied Hydrogeophysics. His originality in experimental design and his infectious scientific curiosity are a source of inspiration to many in the community.
Past Winners of the Conrad Schlumberger Award
|2019||Andrey Bakulin||Andrey Bakulin is an outstanding geophysicist who has worked in many areas of geophysics and has been especially concerned with solving problems that impact data quality and efficiency. Following on from the work his father did to monitor stress in mines, he has applied the same rock physics to oil field problems on a larger scale to estimate 3D stress fields and fractures from seismic data. With Rodney Calvert he invented the Virtual Source concept and pioneered the new field of seismic interferometry. He developed a novel Distributed Acoustic Sensing (DAS) acquisition system using optical fibre in shallow vertical holes that can deliver data quality similar to geophones with an order of magnitude more channels in each well for a fraction of the cost. He has an impressive publication record, he is winner of SEG’s J Clarence Karcher Award (2005) and twice won the award for best paper presented at the SEG annual meeting (2006 and 2008). For his sustained and outstanding contributions to geophysics, the 2019 Conrad Schlumberger Award is given to Dr. Andrey Bakulin.|
|2018||Johan Robertsson||Johan Robertsson is an outstanding scientist who has demonstrated that he can develop ideas and take advanced theory to full industrial implementation at speed and at scale. He has over 80 peerreviewed articles and book chapters, 120 expanded conference papers, and holds close to 80 patents and patent applications (over 50 are granted in the US alone). His contributions have depth and breadth, many starting new directions of research, with some giving birth to new business opportunities for the oil and gas industry. Since 2012 Johan has been Professor of Applied Geophysics at the Swiss Federal Institute of Technology, ETH-Zürich. He obtained an MSc from Uppsala University, 1991, a PhD from Rice University, 1994, followed by two years as a postdoc at ETH-Zürich. In 1996 he joined Schlumberger where he spent 15 years in various R&D and management positions, including Research Director of Geophysics and Scientific Advisor at Schlumberger Gould Research, Cambridge. Part of his research led to Schlumberger’s largest R&D project ever, fundamentally changing the way marine seismic wavefields are sampled.
Johan has contributed key scientific and technological advances in fields ranging from wavefield modelling, signal processing and wavefield analysis, seismic interferometry, sampling theory and modern scientific immersive laboratory experimentation and, most recently, marine simultaneous source technology. In 2016 he launched Seismic Apparition GmbH, offering game-changing seismic data acquisition, processing and imaging solutions. Johan now leads about 30 researchers at ETH, including more than 6 postdocs and 15 PhD students. For his outstanding achievements, the rate of his high quality scientific research and innovation, his mentoring spirit and its evident industrial impact, EAGE is delighted to present Johan Robertsson with the 2018 Conrad Schlumberger Award.
|2018||Philip Christie||Phil Christie is a geophysicist with a rare and impressively broad understanding of both geology and geophysics. His widely-disseminated research has had a lasting impact on sedimentary basin subsidence analysis and reservoir science. Phil has had an outstanding career in Schlumberger since 1972, with a break for PhD and post-doctoral research at Cambridge, 1975-1980, and secondment to BP Exploration, Aberdeen, 1996-97. Since 2000 Phil has been Scientific Advisor at Schlumberger Cambridge Research. Underlying many of his major achievements are his innovations in instrumentation, data acquisition and data processing and his collaboration with academia. Among his numerous achievements we mention three. His 1980 JGR paper with John Sclater on the mid-Cretaceous subsidence of the North Sea become a standard reference for basin modelling studies with almost 2000 citations. Phil jointly coordinated the BP-Shell-Schlumberger time-lapse seismic project in BP’s Foinaven field, which quantified the repeatability of seismic data from both towed streamer and the first working seabed array, demonstrating the ability to monitor fluid flow and pressure changes in the reservoir following production. After the 2004 Sumatra earthquake and tsunami, Phil helped design and implement a deep seismic experiment offshore Sumatra, which for the first time allowed the subducting plate to be imaged down to 50 km depth, leading to 5 PhDs and 15 papers in peer-reviewed international journals. For his outstanding ability to enhance the understanding of earth properties through scientific research and innovative geoscience technologies, his exceptional expertise in geophysics, reservoir science and geology, his advisory and leadership role in the scientific community and his lasting impact on the understanding of petroleum systems, EAGE is delighted to present the 2018 Conrad Schlumberger Award to Phil Christie.|
|2017||Carlos Torres-Verdín||Carlos Torres-Verdín has made outstanding contributions to borehole geophysics, formation evaluation, petrophysics, rock physics and well-logging during a distinguished career in academia, and in both the operator and service sectors of industry. Graduating in geophysical engineering in Mexico in 1983, Carlos won perfect grade-point averages in magnetotellurics at UT Austin for his MSc and at UC Berkeley for his PhD. Following research at Lawrence Berkeley and Schlumberger-Doll Research, and a spell as technology champion for YPF in Buenos Aires, he returned to UTA in 1999 at the Department of Petroleum and Geosystems Engineering, where he holds two named professorships. Transferred to paper, Carlos’ CV and publication list would cover the walls of a small conference room, authoring over 160 peer-reviewed articles and 200 conference papers. He has made fundamental contributions across theoretical and applied electromagnetics, and in the acquisition, modelling, processing, interpretation and inversion of a range of borehole data including electromagnetic, dielectric, nuclear, sonic and magnetic resonance measurements. His work has had significant impact on multi-physics inversion and interpretation of data logged in horizontal wells, including the interpretation of time-lapse and radial variations of borehole geophysical measurements to estimate permeability, capillary pressure and relative permeability of porous rocks. Carlos teaches courses on well logging, formation evaluation, reservoir characterization, nonlinear optimisation, inverse theory and programming. He has supervised 28 PhD and 41 MSc students and directs the UTA Consortium on Formation Evaluation, which he founded in 2000. Carlos has contributed enormously to several associations and journals, and in 2014 became an Associate Editor of EAGE’s Geociencias Aplicadas Latinoamericana. He has published in Geophysical Prospecting, First Break, and at the annual conference. No stranger to honours, EAGE confers one of two Conrad Schlumberger Awards for 2017 to Prof. Carlos Torres-Verdín.|
|2017||José Carcione||José Carcione is Research Director of the Italian National Institute for Oceanography and Applied Geophysics (INOGS) in Trieste, Italy, which testifies to the strength of his research understanding and career achievements in both electromagnetics and elastodynamics. After a first degree in physics from Buenos Aires University in 1978, and doctorates both from Milan (physics) and from Tel Aviv (geophysics), José’s career took him to the Comisión Nacional de Energía Atómica in Buenos Aires and to YPF, Argentina’s national oil company. Following von Humboldt-funded research at Hamburg, he moved to INOGS and has developed research collaborations across the globe.
José’s research interests lie in acoustic and electromagnetic wave propagation applied to rock acoustics, geophysical exploration, environmental geophysics, seismology, and non-destructive testing of materials. He has published more than 240 journal articles on acoustic and electromagnetic numerical modelling, with applications to oil exploration and environmental geophysics. A major research topic has been attenuation mechanisms in rocks, where he introduced the widely used memory-variable approach of simulating attenuation, and modelled both P- and S-wave attenuations in anisotropic media. He was the first to simulate numerically the Biot slow wave, observed experimentally by Plona in 1980. José has also developed relations between P-wave velocity and electrical conductivity which underpin the joint inversion of seismic and electromagnetic data for characterising transport phenomena in porous media. With new theories for borehole stability and the elastic properties of CO2-saturated rocks, José has impacted geophysics for carbon sequestration, CO2 monitoring and cap rock integrity. Dr Carcione has some 75 publications in Geophysical Prospecting, Near Surface Geophysics, First Break and at annual conferences. He is an EAGE course instructor in Rock Physics and Computational Geophysics and his work has previously been recognised with a Cagniard best poster award, and an Anstey Award for best paper in First Break. EAGE has no hesitation in offering Dr José Carcione one of two Conrad Schlumberger Awards for 2017.
|2016||Stewart Greenhalgh||Stewart Greenhalgh is Emeritus Professor of Physics at the University of Adelaide and Professor at the Institute of Geophysics at ETH. In a career that has spanned three continents and has achieved the unlikely combination of both a DSc for outstanding published research and an explosives certificate from the Railways Institute of New South Wales, Stewart’s research has been distinguished by its innovation, depth, and breadth. He has authored numerous influential papers on theoretical, computational, and applied aspects of environmental, engineering, exploration, and whole-earth geophysics. Recognised by the Mintrop award in 2012, Stewart’s focus is not only on pushing back the frontiers but also on helping young researchers at all levels and on collaborating with others. His collaborations have benefited both cross-disciplinary academic research and a large number of companies with whom he has served in various consulting capacities. Stewart has made significant contributions in numerical modelling of wave propagation in anisotropic media, physical scale modelling, seismic data processing and filtering, multi-component polarisation, tomography, migration, waveform inversion, vertical seismic profiling, in-seam seismology, high-resolution seismic for coal exploration and mine optimisation, microseismic monitoring, crustal and upper mantle studies, earthquake seismology and seismic risk. He has also ventured into electrical resistivity instrumentation, modelling and imaging, ground-penetrating radar, electromagnetic induction, and magnetic resonance imaging. With such an enormous range of scientific contributions, it is difficult to select one topic area as being pre-eminent but it is a sign of his continuing contributions that his current work on poro-elasticity and anisotropy in both seismology and electrical resistivity is considered to be some of his best. For his sustained contributions to geophysics in both academic and industrial communities over a lifetime of research and teaching, the 2016 Conrad Schlumberger Award is given to Professor Stewart Greenhalgh.|
|2015||Alain Tabbagh||Alain Tabbagh is Emeritus Professor of Applied Geophysics at the Université Pierre et Marie Curie, where his distinguished scientific career encompasses both fundamental rigour and practical developments. His research has impacted environmental geophysics and hydrogeophysics, hydrogeology, soil science, archaeology and civil engineering, with significant breakthroughs in surficial geothermal analysis, electrical and electromagnetic (EM) methods. Alain has developed new sensors for in-situ measurement of soil thermal properties and new finite-element models of the thermal response of bodies. He established the heat-exchange conditions at the soil surface favourable for remote thermal surveying and demonstrated the interpretation of near-surface contrasts in thermal inertia. Alain identified the impact of vertical water fluxes on soil temperature profiles and used such observations to interpret meteoric infiltration and recharge. In electromagnetics, Alain noted that the simultaneous estimation of soil conductivity and magnetic susceptibility was enabled by the Slingram antennae configuration. Together with 3D modelling of both conductivity and magnetic susceptibility contrasts from DC to medium- and high-frequency EM, his novel mapping and modelling methods have become pervasive in both archaeology and agriculture. In geoelectrics, Alain has inspired the development of multi-depth resistivity profiling systems and associated 3D interpretation. He proposed the use of non-galvanic, capacitively-coupled arrays and established their optimal parameters. A prototype capacitively-coupled system was field-tested in the streets of Montreal and several commercial systems are now available. Prof. Tabbagh has given selfless service to the near-surface community: he has supervised some 40 PhD students, published over 130 articles and book chapters, and chaired the 2012 Near Surface Geoscience conference in Paris. He has been a director of two laboratories and is an associate editor for several journals. For his sustained contributions to science and the community over a lifetime of active teaching and research, we confer the Conrad Schlumberger Award to Prof. Alain Tabbagh.|
|2014||Valentina Socco||Dr Valentina Socco received her MSc and PhD in Civil and Environmental Geo-Engineering at the Politecnico di Torino, where she now conducts both her research and teaching. As a teacher in the Petroleum Engineering Department, she has supervised 40 masters' and 5 doctoral theses and is now vice-director of the Doctorate School. As a researcher, she is head of the Laboratory of Applied Geophysics, at the Department of Environment, Territory and Infrastructures, where she leads or coordinates national and international projects with world-class research partners. Valentina's research focus is the theory and application of integrated geophysical techniques to characterise the near-surface, addressing problems in resource exploration, geotechnical and environmental engineering, and the preservation of cultural heritage. She has made original contributions to spectral analysis of seismic surface waves, and inversion for near-surface properties by integrating data from surface waves, body waves, resistivity and electromagnetics with a priori information. Valentina is widely recognized, not only from her 32 peer-reviewed papers and 66 other publications on applied geophysics, but also through her invited lectures at many universities, international schools, workshops and conferences. Her conviction that excellence in science is also about sharing is demonstrated by her outstanding commitment to the near-surface community: as a supporter of the EAGE Near Surface Division, as Associate Editor of Geophysics and Near Surface Geophysics, as reviewer for many international journals, as a member of the Research Committee, and as a convenor of EAGE conferences and workshops for more than a decade. This award recognises the outstanding contributions that Valentina has made over more than 20 years to near-surface geophysics, her commitment to serve and share with the near-surface community, and her contributions to the Association.|
|2013||Kees Wapenaar||From 1986 to 1999, Professor Kees Wapenaar was a project leader of the highly renowned Delphi consortium in the Department of Applied Physics at Delft University. In 1999, he became Antoni van Leeuwenhoek Professor in the Department of Geotechnology and has headed the Applied Geophysics and Petrophysics Section from 2002. Since 1986, he has co-supervised 30 PhD and 75 MSc students. Prof. Wapenaar made an outstanding contribution to geophysics by giving seismic interferometry a strong theoretical foundation, enabling research for applications in exploration seismology. This award recognises Prof. Wapenaar’s extensive theoretical work on interferometric methods in multi-dimensional acoustic and elastic imaging, and on the practical implementation of this theory, to retrieve subsurface reflection responses from ambient noise recordings. Successful field tests have been conducted together with Shell. Prof. Wapenaar has actively communicated his interferometry research to the widest possible audience, delivering an EAGE distinguished lecture on the topic. He has been a driving force behind several workshops, sharing ideas and connecting different disciplines. For his extensive contributions to geophysics, his novel ideas, and his mentoring spirit we are pleased to confer upon Professor Kees Wapenaar the Schlumberger Award for 2013.|
|2012||Martin Landrø||In recognition of his extensive contributions to geophysics, his continuous pursuit of novel ideas and his educational and mentoring spirit. Martin Landrø has carried out pioneering work on the subject of 4D seismics with original contributions to time-lapse seismic, rock physics, four-component seismic, marine seismic acquisition, analysis of controlled-source electromagnetic data and novel gravimetric methods for monitoring purposes. He also has contributions in the area of seismic inversion specifically in connecting the theoretical model to observations in practice. In addition, Martin has led an outstanding consortium that produces wonderful science with the support of industry and with the objective of educating future scientists.|
|2011||Sergey Fomel||In recognition of his pioneering work on the subjects of seismic imaging with developments in angle gathers, azimuth moveout correction, velocity independent processing, and velocity continuation. He also contributed to advancements in reservoir description and characterization by developing methods for extracting local attributes from seismic data and characterizing their structural features using plane wave destructors. In addition Sergey has developed open-source seismic processing software, referred to as Madagascar, used currently at many Universities for research and teaching purposes.|
|2010||Lasse Amundsen||In recognition of his very extensive and innovative contributions to geophysics and his endless interest in novel ideas. Lasse Amundsen has carried out major pioneering work on the subjects of data acquisition and signal analysis that included advancements in wavelet estimation and deghosting, multiple attenuation, Sea-bed logging and ocean-bottom-cable (OBC) many of which ended up adopted by leading service companies and contractors. His specific contributions to OBC have helped improve data acquired using this relatively new and growing method. In addition Lasse has coauthored a book on Petroleum Seismology that is widely used as a reference and in the classroom of many Universities.|
|2009||Gerhard Pratt||Gerhard Pratt has made a considerable contribution to full wave-form inversion , producing key reference papers on cross-well tomography and diving wave tomography. A significant characteristic of Gerhard’s work is his combined experience and expertise in both data processing and inversion and his skill in conditioning real data for inversion. This award is given not only for his excellent and impressive results but also because he is partly responsible for the current revival of interest in waveform inversion in the industry.|
|2008||Clive McCann||In recognition of his leadership in the Rock Physics research group at the University of Reading for almost 20 years, focused to explore and understand seismic wave propagation mechanisms in the earth. His laboratory evolved into a unique set of equipment for the measurement of P- and S-wave velocity and attenuation as well as for measuring petrophysical properties, a topic where he may fairly be regarded as the outstanding authority. His fundamental research into seismic wave attenuation is bearing fruit for practical applications in the oil and gas industry, as improved seismic acquisition methods offer new ways to exploit attenuation phenomena for exploration and production monitoring.|
|2007||Colin Macbeth||In recognition of his prolific research and practical contributions in applied seismic anisotropy to determine fracture properties in hydrocarbon reservoirs, and in the analysis of multi-component and mode-converted arrivals in Vertical Seismic Profiling and conventional seismic data both in land and marine environments for reservoir characterization. Colin Macbeth’s recent contributions are related to the application and understanding 4D time-lapse seismic signals and associated rock physics while spearheading the Edinburgh Time-Lapse Project, in which he was able to attract and mentor numerous researchers and students to the benefit of both ETLP and the wider research community.|
|2006||Petar Stavrev||In recognition of his highly innovative and far-reaching contributions in potential field theory over a long period of time and especially in the last ten years. His theoretical work on "Differential Similarity transform" has led to wide practical applications in the interpretation of gravity and magnetic data.|
|2005||Horst Rüter||For his important contributions in applied seismology over a wide range of subjects that included in-seam methodologies, propagation in cyclic layer media, engineering geophysics, acquisition geometries in refraction and reflection methods, geothermal applications of seismics as well as advanced instrumentation for seismic, electromagnetic, core and borehole applications.|
|2004||Eric de Bazelaire||In recognition of his innovative and highly significant work on normal moveout problems through optical principles (which currently provides a very effective basis for applications in high density high resolution velocity analysis, in pre-stack time migrations and in velocity-independent imaging methods), for his important contributions in the subject of propagation 'artefacts' and in the analysis of multiple reflections as well as in several other key seismic issues.|
|2003||Tariq Alkalifah||For his highly significant contributions over the past decade and, particularly, for his elegant insight into details of seismic anisotropy which established well-defined principles in seismic processing and led to a considerable enhancement in data quality, for his originality in thought and for his indomitable spirit.|
|2002||M. Tygel||For his many contributions to unify the theory of seismic true-amplitude reflection imaging.|
|2001*||R. Marschall||For his innovative and ingenious contributions to seismic exploration, his dedication to the development of new methods, including the first saltdome undershooting and 4D seismic, and his outstanding leadership in the geophysical community.
* As from June 2001, all award titles will refer to the year in which they are presented to the winners, and no longer to the year in which the winning poster/paper was presented.
|2000||No recipient selected|
|1999||P. Weidelt||For his fundamental contributions to EM induction phenomena.|
|1998||V. Cerveny||In recognition of his many contributions to asymptotic wave theory and its applications to seismic modelling.|
|1997||J.T. Fokkema||In recognition of his contributions to the applications of mathematics and reciprocity to geophysical problems.|
|1996||M.A. Schoenberg||In recognition of his important contribution to seismic anisotropy, including the investigation of transversely isotropic media. His work leads to a precise determination of faults and fractures, and to a better discrimination of lithology.|
|1995||P. Lailly||In recognition of his important contribution to the processing of seismic data, including prestack inversion and seimic imaging of complex geological structures, and for the elaboration of sythetic data sets such as the Marmousi model, which have been largely used by geophysicists for the test of processing softwares.|
|1994||P. Newman||For his many contributions to 2D and 3D seismic reflection methods, and in recognition of his fundamental and pioneering work on true-amplitude processing and 3D migration of seismic data.|
|1993||B. Ursin||In recognition of his significant and sustained contribution to exploration geophysics, including many papers on seismic acquisition, processing and interpretation, and for his services to the geophysical community.|
|1992||L. Dresen||In recognition of his sustained contributions to theoretical and practical interpretation of geophysical data, and in particular for his work on surface wave and channel wave propagation applied to environmental and mining geophysics.|
|1991||Ö. Yilmaz||In recognition of his sustained contributions to the theory and practice of seismic data processing which, whether in research, tutorial or book, are consistently penetrating and stimulating.|
|1990||F. Rocca||In recognition of his wide-ranging and innovative contributions to geophysical data analysis and signal processing. His research has consistently been at the forefront of advances in signal enhancement, deconvolution and migration.|
|1989||A. Tarantola||In recognition of his significant contributions to the general theory of linear and non-linear inversion and its application to geophysical data.|
|1988||No recipient selected|
|1987||L. Hatton||In recognition of his sustained contributions, which have been both informative and entertaining, on computer sciences for the geophysicist, and his analysis of seismic migration techniques.|
|1986||S. Crampin||In recognition of his sustained research efforts over many years, both in earthquake and exploration geophysics, into shearwave bi-refringence in cracked and anisotropic rocks, resulting in the phenomenon of extensive-dilatancy anisotropy.|
|1985||S.M. Deregowski||In recognition of his contribution to understanding of prestack migration and behaviour of acoustic diffractors.|
|1984||K. Helbig||In recognition of his contribution to geophysics generally, and in particular for his work on seismic wave propagation in anisotropic media.|
|1983||J. Sattlegger||Whilst Dr Sattlegger has been a frequent and always interesting speaker at meetings of our Association, this award is bestowed particularly in recognition of his sustained contribution to our understanding of seismic velocities through modelling and ray tracing, and their effects on 2- and 3-dimensional migration.|
|1982||A. Ziolkowski||Whilst he has been a frequent and always interesting speaker at meetings of our Association, this award is bestowed particularly in recognition of his sustained
contribution to our understanding and control of seismic sources. Dr Ziolkowski's many stimulating publications on this important fundamental subject are well reasoned, clearly presented, and always structured in a truly scientific manner.
|1981||W.E. Lerwill||In recognition of his innovative work in the furtherance of the Vibroseis method of seismic exploration.|
|1980||A.J. Berkhout||In recognition of a series of important contributions to seismic processing theory, particularly with relation to understanding and improving the resolution potential of the seismic reflection method in both time and space. His more recent publications concerning seismic migration are especially meritorious in placing various acoustic imaging methods in context, examining the nature and influence of errors that are involved, and pointing to the spatial resolution limits of existing schemes.|
|1979||Th. Krey||In recognition of his many important publications in Geophysical Prospecting dealing with reflection seismics as well as with refraction seismics.|
|1978||No recipient selected|
|1977||P. Hubral||In recognition of his sustained contributions in furtherance of our understanding of seismic reflection phenomena, notably through ray theory concepts. His many lucid publications in Geophysical Prospecting have always addressed a significant and topical theme and have generally stressed the 3-dimensional nature of seismic objectives, a feature that is currently attracting considerable attention as the means for 3-dimensional field investigations are developed.|
|1976||J.G. Hagedoorn||In recognition of his paper 'A process of Seismic Reflection Interpretation', published in Geophysical Prospecting Vol. II (1954), June. This paper has formed the basis of migration techniques, which have been generally and beneficially employed for many years. It is a standard reference in the geophysical literature, and in its clarity and authority it furnishes a paragon of good scientific communication.|
|1975||M.M. Backus||And co-author R.L. Chen
In recognition of their paper 'Flat Spot Exploration', published in Geophysical Prospecting Vol. XXIII (1975), September. This paper introduces novel and useful concepts in interpretation and display of seismic data with the straightforward aim of direct hydrocarbon detection.
|1974||N. de Voogd||In recognition of his paper 'Wavelet Shaping and Noise Reduction'. This method aims at shaping of the wavelet while at the same time reducing the noise. It may have a powerful impact on future design and use of deconvolution techniques especially in seismic processing.|
|1973||R.E. White||In recognition of his paper 'The Estimation of Signal Spectra and related Quantities by means of the Multiple Coherence Function', published in Geophysical Prospecting Vol. XXI (1973), December, pp. 660/703.|
|1972||P. Bois||In recognition of his paper 'Analyse Sequentielle' published in Geophysical Prospecting Vol. XX (1972), September, pp. 497/513 and also to honour the former high quality contributions of the author.|
|1971||P.N.S. O'Brien||In recognition of his sustained contribution to the science of geophysical exploration. He has written a series of papers based on exact observation and precise reasoning which has advanced our understanding of seismic arrivals.|
|1970||H. Naudy||In appreciation of succession of clearly written papers, mainly devoted to the interpretation of gravimetric and magnetic data.|
|1969||S. Treitel||And co-author E. Robinson
In recognition of their sustained contribution to the science of geophysical exploration, 'Optimum Digital Filters for Signal to Noise Ratio Enhancement', published in Geophysical Prospecting Vol. XVII (1969), September, pp. 248/293.
|1968||H. Linsser||'Investigations of Tectonics by Gravity Detailing', published in Geophysical Prospecting Vol. XV (1967), September, pp. 480/515 and 'Transformation of Magnetometric Data into Tectonic Maps by Digital Template Analysis', published in Vol. XVI (1968), June, pp. 179/207.|
|1967||R. Garotta||And co-author D. Michon
'Continuous Analysis of the Velocity and of the Moveout Corrections', published in Geophysical Prospecting Vol. XV (1967), December, pp. 584/597.
|1966||J. D'Hoeraene||'Filtrage Spatio Temporel des Courbures', published in Geophysical Prospecting Vol. XIV (1966), March, pp. 27/44.|
|1965||O. Koefoed||In appreciation of the outstanding contribution he has made to applied geophysics, both to seismic prospecting and to the electrical resistivity method.|
|1964||N. Anstey||His publications cover a wide range of subjects and include the discussion of problems in operational technique, instrument characteristics and data processing.|
|1963||G. Grau||For his work on computation of synthetic seismograms (1960), seismic trace statistics (1961), geophone-to-ground coupling (1962) and on filtering problems (fan and deconvolution, 1963).|
|1962||No recipient selected|
|1961||G. Kunetz||'Essai d'Analyse de Traces Sismiques', published in Geophysical Prospecting Vol. IX (1961), September, pp. 317/341.|
|1960||R. Bortfeld||'Seismic Waves in Transition Layers' (and two other papers and contributions to two other papers), published in Geophysical Prospecting Vol. VIII (1960), June, pp. 179/217.|
|1959||L. Alfano||'Introduction to the Interpretation of Resistivity Measurements for Complicated Structural Conditions', published in Geophysical Prospecting Vol. VII (1959), September, pp. 311/366.|
|1958||U. Colombo||'Differential Electric Log', published in Geophysical Prospecting Vol. VII (1959), June, pp.91/118.|
|1957||O. Kappelmeyer||'The Use of Near Surface Temperature Measurements for Discovering Anomalies due to Causes at Depth', published in Geophysical Prospecting Vol. V (1957), September, pp.239/258.|
|1956||No recipient selected|
|1955||H. Flathe||'A Practical Method of Calculating Geoelectrical Model Graphs for Horizontally Stratified Media', published in Geophysical Prospecting Vol. III (1955), June, pp. 268/294.|
Arie van Weelden Award
Award for Young Professional
The Arie van Weelden Award is presented to a member of EAGE who has made a highly significant contribution to one or more of the disciplines in our Association and who qualifies as an EAGE Young Professional (a geoscientist or engineer aged 35 or below) at the time of their nomination. The Arie van Weelden Award consists of a medal and a certificate as well as a cash prize equal to 1,000 euro.
The Arie van Weelden Award 2020 was presented to:
Dr. Pejman Tahmasebi is nominated for the 2020 Arie van Weelden Award. Among his many scientific achievements he is recognised for his outstanding work in two major fields: description of large-scale porous media (LSPM), including oil reservoirs, and the problem of reconstruction of a 3D model from a 2D slice. Dr. Tahmasebi developed what is now called cross-correlation based geostatistical simulation. Using a novel cross-correlation function, he showed that his method produces highly accurate realizations of the LSPM that honour the available data and provide predictions for those properties for which no data are used in constructing the model. The computations are very fast and the memory requirements are modest. This work is frequently cited and widely used by the oil industry. Dr. Tahmasebi has also developed a solution to the classical reconstruction problem: Given a single 2D slice image of a 3D porous medium, is it possible to produce a 3D model for the whole medium? He has shown his method works in a wide variety of systems, including brain images, a human lung, a river delta, granular packing of particles and many more. For his excellent work he received the 2017 Andrei Borisovich Vistelius Reserch Award from the International Association of Mathematcal Geosciences. Dr. Tahmasebi is a truly brilliant and creative researcher, whose work has had great impact in the geosciences. He richly deserves the Arie van Weelden Award.
Past Winners of the Arie van Weelden Award
|2019||Zoya Heidari||Dr Zoya Heidari is a world-renowned and award-winning academic who conducts fundamental and applied research on multi-scale formation evaluation, rock physics, and petrophysics to characterise complex formations such as carbonate and unconventional reservoirs. She has published over 120 peer-reviewed and high-impact journal papers and conference papers that demonstrate how integration across geoscience, geophysics, reservoir engineering, and production engineering leads to significantly improved reservoir characterisation, an objective that is central to EAGE. Her publications have received many accolades, including the 2017 SPE Cedric K. Ferguson Medal and the 2017 SPWLA Distinguished Presentation Recognition. Zoya’s ability to conduct research that bridges geoscience, geophysics, and petroleum engineering is brought into her teaching. Through interactive and collaborative teaching, her students learn, discover, and enjoy the beauty of science while understanding that integration across these disciplines is essential for reliable formation evaluation and characterisation. The Society of Petroleum Engineering has already recognised Zoya’s teaching prowess, awarding her the 2015 SPE Innovative Teaching Award. Zoya’s commitment to excellence in science and teaching is reflected in her dedication to inspire and encourage young girls to pursue STEM Fields. Dr. Zoya Heidari is an outstanding Young Professional whom we select for the 2019 Arie van Weelden Award.|
|2018||Lucas Pimienta||Lucas Pimienta is a young professional and an outstanding experimentalist. He is EPFL and Marie Curie Fellow at the experimental rock mechanics laboratory of Ecole Polytechnique Federale de Lausanne (EPFL). After completing his undergraduate studies in fundamental physics-chemistry in 2008, Lucas earned an MSc degree from the University of Bergen in 2010 and both an MSc and an Engineering Diploma from the University of Strasbourg in 2011. In 2015 Lucas completed his PhD from École
Normale Supérieure in Paris under the supervision of Pr. Yves Gueguen and Dr. Jerome Fortin. At the time of writing, he had published 18 peer-reviewed papers, 11 of which he is first author, and 7 of which were written while he was a PhD student. His set of three first-author papers in Geophysics in 2015 and 2016 on the frequency-dependence of elastic moduli of fluid-saturated sandstones are considered to be ground-breaking. His experimental research is founded on rigorous development of experiments, calibration of instruments, and laboratory tool design. He supports his experimental work by theoretical analysis, including seismic dispersion and attenuation in porous rocks, poroelasticity
and nonlinear elasticity. He has found applications for his work in CO2 sequestration and geothermal energy. Among his grants and awards, are Best Oral Presentation Award 2015 at the 31WRP from the International Association of Rock Physics and AGU’s Mineral and Rock Physics Graduate Research Award 2016. Lucas’s achievements have clearly marked him as an exceptional young scientists and EAGE is delighted to present him with the 2018 van Weelden Award.
|2017||Dario Grana||Though a young professional, Dario Grana’s career accomplishments would grace the CV of many a mature researcher. Dario is assistant professor in the Department of Geology and Geophysics, University of Wyoming, after acquiring a BS in mathematics from the University of Pavia, Italy, in 2003, no less than three MS degrees from Pavia (mathematics of dynamic fluid flow), Milano-Bicocca (fault surface and drainage modelling) and Stanford (sequential Gaussian mixture simulation), and a PhD from Stanford in Bayesian methods for reservoir characterisation. Dario has authored and co-authored 15 peer-reviewed publications (13 as first author), a book chapter, and has co-authored a book, Seismic Reflections Of Rock Properties. He has 19 conference papers and 14 invited or keynote talks, with 18 EAGE contributions to First Break or annual meetings. His research topics include reservoir characterization; geophysical inverse problems; seismic history matching; stochastic data assimilation and geostatistics, and rock physics. Such is his capability that he has already won funding as either Principal Investigator, or co-PI, on five research projects, with two other grant applications in review. Dario has amassed significant teaching experience with ten taught courses under his belt and is Assistant Editor of Geophysics, Interpretation and Mathematical Geosciences. He supervises six PhD students and three post-docs, so is not short of things to do. Dario has already received the SEG J. Clarence Karcher award and the Sclocchi award for the best thesis in Geophysics, and he has served on the technical committees for two EAGE workshops on Integrated Reservoir Modelling and Petroleum Geostatistics. He teaches an EAGE short course on Uncertainty Quantification and Modelling. From the best field ever of young professional nominations, giving optimism for the future of geoscience and engineering, EAGE is delighted to offer Dario Grana the 2017 van Weelden award.|
|2016||Joseph Doetsch||A physics graduate from Heidelberg, Joseph Doetsch achieved MSc degrees in physics from Uppsala and ETH, as well as a PhD in geophysics from ETH, where he won the ETH Medal for his outstanding thesis. His thesis research on constrained inversion for improved imaging of aquifer structures and processes has reaped five first-author and seven co-authored articles in the 3.5 years since he graduated. At ETH he is considered a rising star in near-surface characterisation, combining seismic, radar and resistivity using cross-gradients for better imaging and understanding of fluid mobility at shallow depths. Time-lapse monitoring of hydrological processes has been the stimulus for inverting multiple geophysical data types to derive a 3D property model of the complex near-surface. A joint inversion of three remote-sensing data types in 3D has been a challenging topic and Joseph’s result is believed to be the first time it has been achieved, improving the time-lapse imaging of a point source injected plume from a vadose-zone, water-injection experiment in the UK. He also found that by integrating structural boundaries (water-table and gravel/basal clay contact), determined from GPR reflections, in 3D resistivity tomography, a much higher resolution tomogram could be obtained, greatly improving image interpretability. Joseph already has an exceptional list of publications and major contributions in books. Moreover, he has received the EAGE ‘Best of Near Surface 2010’ award and SEG’s ‘Best Paper Honorable Mention’ in Geophysics as well as the Young Scientist's Outstanding Poster award of the European Geosciences Union. He travels extensively to participate in fieldwork, to present at conferences and to convene workshops. He is already gaining a notable reputation as a teacher and collaborator. Joseph has demonstrated academic excellence and his remarkable combination of exceptional fieldwork with first-class physical and numerical understanding promises a long and distinguished career. We have no hesitation in selecting this Young Professional for the 2016 Arie van Weelden Award.|
|2015||Romain Brossier||Dr Romain Brossier is a Young Professional who is already highly regarded as an emerging expert in high-resolution seismic imaging. Having completed a PhD at the university of Nice-Sophia Antipolis, he undertook a two-year post-doc at the Université Joseph Fourier, where he is now assistant professor. A large and rapidly growing publication list of peer-reviewed articles and book chapters testifies to his significant contributions in numerical methods for solving partial differential equations of wave propagation in the context of full-waveform inversion (FWI). Romain has helped to drive large-scale, non-linear optimization techniques, specifically using the low-memory version of the quasi-Newton Broyden-Fletcher-Goldfarb-Shanno algorithm, as well as improvements to truncated Newton methods. He has developed a hierarchical inversion procedure for imaging classes of elastic parameters and demonstrated its impact on synthetic elastic seismograms that include challenging surface waves. Romain has also investigated robust and/or more sophisticated cost functions, such as the L1 norm, as alternatives to the least-squares criterion, which is very sensitive to outliers. Romain's contributions to applications ranging from laboratory-scale experiments, through near-surface FWI and to Valhall reservoir-scale imaging are shared through an impressive publication list, as well as his active participation at international geophysical conferences. His outstanding ability to mentor younger researchers is reflected in the number and quality of publications by the dozen students he has co-supervised or advised. His human qualities include a friendly and accessible attitude; he is always open to discussions and willing to share ideas with other researchers, a trait that has resulted in extensive collaborations in both academia and industry. Dr Brossier's remarkable academic achievements, his growing marks of esteem, and the scientific and human qualities already demonstrated by this Young Professional, amply merit the 2015 Arie van Weelden Award.|
|2014||Mathilde Adelinet||Dr Mathilde Adelinet has performed a comprehensive analysis of elastic properties of basaltic rocks using both seismic data and laboratory measurements. Her PhD thesis from 2010 at the Université du Maine represents a uniquely important step forward in linking laboratory measurements on rock samples to seismic field observations, and exploiting this understanding in the analysis of seismic data. By measuring elastic properties of saturated basalt samples in the lab over a wide range of frequencies she was able to characterize their porous microstructure. In particular, the low-frequency measurements established a firm bridge between laboratory and field scales. Mathilde then developed an innovative method by combining seismic velocity tomography with elastic modelling to characterize porous rock microstructure from field data. She successfully tested the method at two field locations: one in Iceland and the other from the hot dry rock research site at Soultz-sous-Forêt in France. From the Icelandic study she found that crack density decreased with depth, outside the active hydrothermal areas, due to increased overburden stress and secondary pore-filling cement. By contrast, in the hydrothermal areas, she found that crack density may locally increase with depth, due to the presence of a deep reservoir with supercritical fluids under pressure.m At the Soulz geothermal site, Mathilde used shear-wave splitting analysis to monitor meso-scale cracks created in the reservoir by hydraulic stimulation. Mathilde has published several strong papers covering a wide range of geophysics and geomechanics that clearly demonstrate her breadth of understanding and excellent scientific skills. She is also active in supervision and teaching and is a source of inspiration for colleagues.|
|2013||Nina Gegenhuber||Dr Nina Gegenhuber is assistant professor in petrophysics at the Montanuniversität of Leoben where she currently manages the petrophysics laboratory. In 2011 she defended her PhD thesis, 'A petrographic-coded model - Derivation of relationships between thermal and other physical rock properties' with great success. The petrophysical coded model concept - developed to estimate thermal conductivity from seismic wave velocity - gives a powerful instrument to derive relationships between different rock properties using a modular concept. The resulting model, linking petrophysical, log and seismic data, can then be used in thermal modelling and maturation studies, even when no direct measurements of thermal conductivity are available. This research has resulted in an impressive number of conference presentations and peer-reviewed papers. While completing her thesis, Dr Gegenhuber developed her own lecture notes and laboratory exercises to teach the university's Petrophysics I course, in which her enthusiasm for the subject is transferred strongly to her students. For her research achievements and for her stimulation of young geoscientists we are delighted to present Dr Nina Gegenhuber with the van Weelden Award for 2013.|
|2012||Yi Huang||In recognition of his pioneering research work about the use of well data to constrain 4D seismic responses. In a workflow developed by Yi the pressure-driven 4D seismic signature was linearly related to the cumulative injected or produced volumes from wells and thus, allows an optimised monitoring of changes within a reservoir. This workflow was successfully tested in the non-compacting Schiehallion oilfield and also in the compacting Valhall field. Thanks to the excellent results, Yi’s workflow is now in use by companies like BP Norge and Statoil, where BP has quickly implemented his cross-correlation procedures into their own software and workflows.|
|2011||Marius Verscheure||In recognition of his new and very creative approach in the field of history matching for fractured reservoirs. The innovative features in this work entail the way in which fractures are accounted for within the overall simulation workflow. Hence, he proposed a new stochastic simulation procedure to simulate sub-seismic fault networks that could be also modified while preserving the fractal properties. He eventually integrated his methodology into matching workflows and was able to get objective functions (production data mismatch) more readily minimized. This work has been presented at several conferences and should be useful in the more detailed characterization of fractured reservoirs.|
|2010||David Halliday||In recognition of his substantial and ground-breaking research work on the theory and application of seismic interferometry in seismology and seismic exploration. This work includes insights as to the relationship between seismic interferometry and optical theorem, as well as the prediction of seismic surface waves and development of methodology to suppress surface ground roll from seismic data. This practical application of seismic interferometry will improve land seismic acquisition. His progress and advances are all the more impressive in being achieved in a very short space of time within a Ph.D. timeframe and at a relatively young age (currently only 25); his work has thus far resulted in 10 publications, 2 extended abstracts and 2 patent filings.|
|2009||Mariano Floricich||For his highly significant research work and ongoing insights in the quantification and interpretation of time-lapse (4D) seismic data in complex reservoir settings to maximize reservoir performance. His innovative techniques, which include the integration of time-lapse seismic with geological, engineering and production data within a probabilistic framework, have led to improved field and reservoir management.|
|2008||Gilles Hennenfent||For an impressive series of geophysical accomplishments and innovative insights in the fields of seismic data processing using novel transform algorithms, such as the curvelet transform, and sparse optimization methods to address the problems of seismic data regularization and de-noising. This research has made a significant contribution to theoretical exploration seismology and has the potential to challenge the conventional approach to seismic acquisition.|
|2007||Dirk-Jan van Manen||For his work in static correction of multicomponent seabed seismic recordings and his novel concepts for wavefield decomposition of seabed seismic data. His subsequent research work has resulted in fundamental new insights in the relation between reflection and transmission seismic data, with new findings in the areas of seismic interferometry and time-reversed acoustics. These findings offer a new perspective on forward modeling and inversion of wave propagation.|
|2006||Philippe Nivlet||For an impressive series of achievements in the design and validation of original solutions to practical exploration problems, as manifested in his many presentations, publications and patented works. These valuable activities cover a wide range, from the use of pattern recognition in estimating uncertainties in seismic facies to time lapse, facies inversion, quantitative prediction of rock properties and other aspects of reservoir characterisation.|
|2005||Remco Muijs||In recognition of major achievements in the field of multicomponent technology. He has taken the subject of wavefield decomposition, multiple suppression and imaging of 4C data to a new level of insight and potential application and has demonstrated key aspects of multicomponent recordings that cannot be achieved using conventional acquisition technology, thus further highlighting the extensive possibilities of this technology.|
|2004||Antoine Guitton||For an impressive series of geophysical accomplishments and innovations of high quality in the fields of noise attenuation through multi-dimensional noise and signal separation and robust optimisation based on L1 and other norms and in integrating these works to achieve a number of very successful applications.|
|2003||Paul Sexton||For his active presentations at EAGE conferences and his excellent contributions and enhancements in the field of depth imaging all of which stem from a base of scientific rigour, creativity and communication ability and from the energy and enthusiasm that he applies to the problems that confront him.|
|2002||K. Schalkwijk||For her accomplishments in making the theory of elastic decomposition work on real data, as witnessed by her paper 'Decomposition of Multicomponent Ocean-Bottom Data – Experiences in Application', presented at the 63rd Meeting of the EAGE in Amsterdam.|
|2001*||F. Pivot||And co-author Oliver Balz
For their contribution to 'deciphering AVO behaviour using massive seismic elastic modelling' to estimate the relationship between AVO attributes and key reservoir parameters.
* As from June 2001, all award titles will refer to the year in which they are presented to the winners, and no longer to the year in which the winning poster/paper was presented.
|2000||No recipient selected|
|1999||P. Bulant||For his contribution to the calculation of 3D travel times, presented at the 61st EAGE Conference in Helsinki, 7-11 June 1999.|
|1998||P. Bulant||For his oral presentation 'Common Reflection Surface Stack versus NMO/Stack and NMO/DMO/Stack', presented at the 60th EAGE Conference in Leipzig, 8-12 June 1998.|
|1997||No recipient selected|
|1996||No recipient selected|
|1995||N. Ettrich||For his paper 'Efficient Prestack Kirchhoff Migration using Wavefront Construction' co-authored by D. Gajewski. This remarkably presented paper shows an original and efficient way to compute the Green's functions in prestack Kirchhoff migration.|
|1994||S. Tillard||For her paper 'Radar Experiments in Isotropic and Anisotropic Geological Formations (Granite and Schists)' published in Geophysical Prospecting Vol. 42, Number 6. This well documented work investigates isotropic and anisotropic sites using Ground Prospecting Radar and demonstrates that the non-conventional use of radar systems may improve data quality, and may also permit other information besides reflector depth, such as volume scattering and schistosity, to be found.|
|1993||No recipient selected|
|1992||R. Mjelde||For his paper 'Reflection and Polarization of Tube Waves as Seen in VSP Data', published in Geophysical Prospecting Vol. 40, Number 6. This paper investigates tube wave propagation in the borehole, taking into consideration the tool coupling and the polarization of the wave. It clearly shows that tube waves can provide important information about the rock formation.|
|1991||U. Spagnolini||For his paper 'Adaptive Picking of Refracted First Arrivals', published in Geophysical Prospecting Vol. 39, Number 3. This paper moves from a concise statement of theory through a clear exposition of implementation to a convincing illustration of application of an adaptive time picking procedure.|
|1990||L. Zanzi||For his paper 'Inversion of Refracted Arrivals: A Few Problems', published in Geophysical Prospecting, Vol. 38, Number 4. This paper develops an integrated perspective of seismic refraction interpretation through a comprehensive analysis of the errors and problems of inferring near-surface information from refracted arrivals.|
|1989||C. Fournier||For his paper 'Spontaneous Potentials and Resistivity Surveys Applied to Hydrogeology in a Volcanic Area: Case History of the Chaîne des Puys (Puys-de-Dôme, France)' published in Geophysical Prospecting, Vol. 37, Number 6. The paper combines careful thought about a geological problem with an innovative development of theory which is carried through to an excellent case history with clearly reported and practically useful results.|
|1988||J. Douma||For his paper 'The Effect of the Aspect Ratio on Crack-Induced Anisotropy' published in Geophysical Prospecting, Vol. 36, Number 6, and his contribution to further work on elastic wave propagation in fractured media.|
|1987||H. Granser||For his paper 'Gravimetric Apparent Density Mapping and its Relationship to Rock Sample Densities in the Eastern Alps' presented at the 49th Meeting of the EAEG in Belgrade, Yugoslavia, plus two other papers on the gravity method published in Geophysical Prospecting during 1987.|
|1986||V. Richard||For his paper 'High Resolution Stratigraphic Extrapolation: a 1-D Inverse Problem', read at the 48th EAEG Meeting in Ostend, Belgium.|
|1985||O. Holberg||For his paper 'Computational Aspects of the Choice of Operator and Sampling Interval for Numerical Differentiation in Large Scale Simulation of Wave Phenomena', read at the 47th EAEG Meeting in Budapest, Hungary.|
|1984||A.T. Walden||For his June 1984 presentation of the paper 'An Investigation of Spectral Properties of Primary Reflection Coefficients'.|
|1983||A.T. Basokur||For his paper 'Transformation of Resistivity Sounding Measurements Obtained in One Electrode Configuration to Another Configuration by Means of Digital Linear Filtering', published in Geophysical Prospecting, Vol. XXXI (1983).|
|1982||L. Martineau-Nicoletis||For her substantial contribution to the paper 'Measured Anisotropy in Pierre Shale', co-authored by Dr J.E. White and Carol Monash and presented by Dr Martineau-Nicoletis at the 44th EAEG Meeting in Cannes, France.|
|1981||E. Loinger||In recognition of his paper 'A linear Model for Velocity Anomalies', presented at the 43rd Meeting of the EAEG in Venice, Italy.|
|1980||No recipient selected|
|1979||O.E. Naess||In recognition of his paper 'Superstack', presented at the 39th Meeting of the EAEG in Zagreb, Yugoslavia.|
|1978||B.L.N. Kennett||In recognition of his paper 'The Suppression of Surface Multiples on Seismic Records' presented at the 40th Meeting of the EAEG in Dublin, Ireland.|
|1977||P. Hood||In recognition of his paper 'Finite Difference and Wavenumber Migration', presented at the 39th Meeting of the EAEG in Zagreb. Dr Hood's presentation sets an excellent example for our Society when measured by any standard. His treatment of a difficult and topical subject reflected the original research effort that he personally has applied in this field. He is to be congratulated for a 'first' presentation at an EAEG meeting that was well conceived, supported by proper scientific reasoning and executed with considerable poise and persuasion.|
|1976||No recipient selected|
|1975||T. Lee||In recognition of his two papers 'Transient Electromagnetic Response of a Sphere in a Layered Medium' and 'Sign Reversals in the Transient Method of Electrical Prospecting (one-loop version)', published in Geophysical Prospecting, Vol XXIII (1975), September and December. Mr Lee's approach is considered unique, and may open new perspectives.|
|1974||D. Patella||'On the Transformation of Dipole to Schlumberger Sounding Curves', published in Geophysical Prospecting, Vol. XXII (1974), June, pp. 315/329, and previous work on the interpretation of induced polarization vertical soundings reported in the September 1972 and June 1973 issues of the same journal.|
|1973||No recipient selected|
|1972||R.G. Geyer||'Transient Electromagnetic Response near a Faultzone', published in Geophysical Prospecting Vol. XX (1972), December, pp. 828/846.|
|1971||S.K. Gupta||'Onde Amortie de type Raleigh à l'Interface de Deux Milieux Solides à Fort Contrast de Densités et de Vitesses'.|
|1970||S.M. Deregowski||'Optimum Digital Filtering and Inverse Filtering in the Frequency Domain', presented at the 32nd Meeting of the Association in Edinburgh, Scotland.|
|1969||R.J. Phillips||And co-authors H.F. Morrison and D.P. O'brien
'Quantitative Interpretation of Transient Electromagnetic Fields over a Layered Half Space', published in Geophysical Prospecting, Vol. XVII (1969), March, pp. 82/101.
|1968||J.A. Hileman||And co-authors P. Embree and J.C. Pfluger
'Automatic Static Corrections', published in Geophysical Prospecting, Vol. XVI (1968), September, pp. 326/358.
|1967||G.E. Watkins||And co-author G.M. Habberjam
'The Reduction of Lateral Effects in Resistivity Probing', published in Geophysical Prospecting, Vol. XV (1967), June, pp. 221/235.
|1966||R.A. Wiggins||'ω-k Filter Design', published in Geophysical Prospecting Vol. XIV (1966), December, pp. 427/440.|
|1965||S. Jain||'A Simple Method of Magnetotelluric Interpretation', published in Geophysical Prospecting, Vol. XIV (1966), June, pp. 143/148.|
|1964||S. Guha||'Model Seismic Investigations on Refracted Waves', published in Geophysical Prospecting Vol. XIII (1965), December, pp. 659/664.|
|1963||H. Burckhardt||'Some Physical Aspects of Seismic Scaling Laws for Underwater Explosions', published in Geophysical Prospecting Vol. XII (1964), June, pp. 192/214.|
|1962||D. Denham||'The Use of Geophone Groups to improve the Signal-to-Noise Ratio of the First Arrival in refraction Shooting', published in Geophysical Prospecting Vol. XI (1963), December, pp.389/408.|
|1961||No recipient selected|
|1960||No recipient selected|
|1959||M. Lavergne||And co-authors P. Bois, J. Chauveau and G. Grau
'Some Methods of obtaining Synthetic Seismograms' and 'Possibilities and Limitations of Synthetic Seismograms', published in Geophysical Prospecting Vol. VIII (1960), March, pp. 260/314 (in French).
|1958||No recipient selected|
|1957||V.L.S. Bhimasankaram||And co-author B.S.R. Rao
'Manganese Ore in South India and its Magnetic Properties', published in Geophysical Prospecting Vol. VI (1958), March, pp. 11/24.
|1956||W. Lode||'Die Darstellung von Tiefenlinienplänen beliebig gekrümmter Reflexionshorizonte unter Einschlusz der Strahlenbrechung im Raume', published in Geophysical Prospecting Vol. V (1957), June, pp. 135/141 (in English).|
|1955||E.W. Carpenter||'Some Notes concerning the Wenner Configurat', published in Geophysical Prospecting Vol. III (1955), December, pp. 388/402.|
Honorary Memberships Award
Honorary Memberships Award is conferred upon a member of EAGE who has made a highly significant and distinguished technical and/or non-technical contribution to the geoscience community at large or to EAGE in particular.
The EAGE Honorary Memberships Award 2020 was conferred upon:
Gladys Gonzalez is nominated for Honorary Membership of EAGE for her outstanding achievements as a geoscientist and for her even more impressive and important leadership achievements in EAGE, particularly as President-Elect and President, 2012-2014. Gladys was the first female President of EAGE. As President, she took some bold but necessary decisions, creating a much-improved relationship between the EAGE Board and the EAGE office. She started a reorganization that resulted in a clearer description of the roles of both the Board of EAGE and the Board of Directors running the EAGE office. It was a huge task, requiring great courage, which she accomplished with tremendous compassion, professionalism, dedication and strength. In addition, her vision for the Association resulted in initiatives like Vision 2020, the Women in Geoscience community and the Young Professionals community. Because of her professional achievements and great accomplishments during her presidency, Gladys Gonzalez deserves to EAGE’s recognition with the 2020 Honorary Membership Award.
Past Winners of the EAGE Honorary Membership Award
|2013||Roger Arthur Clark|
|2012||Paul F. Worthington|
|2011||Tijmen Jan Moser|
|2004||Donald H. Griffiths|
|1998||E. van der Gaag|
|1958||A. van Weelden|
Alfred Wegener Award
Award for Outstanding Contribution
The Alfred Wegener Award is presented to a member of EAGE who has made an outstanding contribution over a period of time to the scientific and technical advancement of one or more of the disciplines in our Association, particularly petroleum geoscience and engineering.
The Wegener Award consists of a medal and a certificate.
Past Winners of the Alfred Wegener Award
|2020||No recipient selected|
|2019||No recipient selected|
|2018||Tiziana Vanorio||Assistant Professor in the Geophysics Department at Stanford University, Tiziana Vanorio is recognized internationally for her expertise on the quantitative link between geophysical measurements and rock properties. Her highly innovative and cutting-edge research focuses on the geophysical characterization of the effect of rock-fluid interactions on rock properties, integrating laboratory measurements with imaging techniques. She conceived an original laboratory approach to track experimentally the dynamic coupling between rock properties and reactive transport, complementing simultaneous measurements of physical and chemical quantities with time-lapse, multi-scale imaging techniques. This approach has already been used for applications such as CO2 injection, diagenesis and catagenesis, providing very valuable data. More recently, Tiziana started to use 3D-printing to link digital and experimental rock physics.
Tiziana has published 39 peer-reviewed articles including one in Science, 10 book chapters and 60 conference papers. She was the recipient of a European Marie Curie Fellowship in 2002 and received a NSF Career Award in 2015. Tiziana is also strongly dedicated to science education, teaching courses and supervising students. In particular, she created a virtual rock physics laboratory to help students become familiar with the operation of laboratory set-ups outside teaching hours. This virtual laboratory provides interactive and 3D-animated renderings of the instruments and their operation for rock properties measurement. For this innovative teaching, Tiziana is the recipient of the 2014 SPE Innovative Teaching award. For her innovative scientific and technical contributions EAGE is delighted to present Tiziana Vanorio with the 2018 Alfred Wegener Award.
|2017||Sebastian Geiger||Sebastian Geiger’s background from Freiburg (geology), Oregon State University (hydrogeology), Australia National University (mathematics) and ETH Zürich (computational geology) brings huge experience, so it is not surprising that he already heads the Carbonate Reservoir Group at Heriot-Watt University, Scotland, co-directs the International Centre for Carbonate Reservoirs in Edinburgh, and is Computer Modelling Group Foundation Chair in Carbonate Reservoir Simulation. Sebastian is an outstanding contributor to petroleum and reservoir engineering in both academia and industry. He has advanced fundamental understanding of multi-phase, multi-rate processes in hydrocarbon and hydrothermal reservoirs, and of methods to represent them efficiently in reservoir simulations. A major achievement, with Stephan Matthai, has been the development of Complex Systems Modelling Platform code that uses an unstructured mesh to model realistic media, especially fracture systems, to simulate fluid flow and reactive chemical transport, and impact oil recovery from Middle East fractured carbonates. His 2004 paper in Geofluids represents a tour-de-force for its numerical sophistication and geological insight, defining characteristics of Sebastian’s research. Known for his open, accessible teaching and supervision (25 current PhD students and post-docs, and 44 MSc students in the past 5 years), Sebastian excels in both teaching and research. Active in EAGE, SPE and Interpore, he is Associate Editor for Transport in Porous Media and Co-Editor of Petroleum Geoscience. To date, he has published 62 peer-reviewed articles and 55 conference papers, including 33 publications in Petroleum Geoscience, First Break and EAGE conferences. He is a member of the EAGE Oil and Gas Divisional and Reserves committees. His scientific leadership is reinforced by core values that set the highest ethical standards for young geoscientists and engineers. For his ground-breaking contributions Sebastian Geiger fully merits the 2017 Wegener award.|
|2016||Kenneth Peters||Kenneth Peters has had a long career in petroleum geochemistry, having worked in academia, government labs and both the oil company and service company sides of industry. He is one of the pre-eminent contributors to his discipline and is an established expert in source rock characterisation and analytical pyrolysis. With colleagues, he has published The Biomarker Guide, a classic reference work that defines the role that biomarkers play both in petroleum exploration and in understanding geological history and processes. Biomarkers help to genetically correlate petroleum samples and to interpret thermal maturity and the extent of biodegradation, and the guide documents most of the world's known petroleum systems. Dr. Peters was one of the first, in 1999, to publish a study that integrated sequence stratigraphy with petroleum chemistry, a discipline that, at the time, was not fully embraced by geologists. As asserted in a letter of support, Ken Peters’ research “contributed greatly to transforming organic geochemistry from a ‘nichescience’ into a leading field in the geosciences.” More recently, he has been involved in the numerical modelling of sedimentary basins and their petroleum systems in collaboration with Stanford University. Dr. Peters has published extensively, co-authoring two Nature articles and has received best paper awards as well as the Alfred Treibs Medal of the Geochemical Society and the AAPG Honorary Member Award. Ken is an Honorary Teaching Fellow at the University of Aberdeen, one of Schlumberger’s NeXT instructors, a Fellow of the Geochemical Society, a member of EAGE, AAPG, GSA and ACS and a Consulting Professor at Stanford University, where he co-leads the Basin and Petroleum System Modeling Industrial Affiliates Program. For his groundbreaking contributions to petroleum geochemistry Dr Peters receives the 2016 Wegener Award.|
|2015||Johannes Wendebourg||Alfred Wegener proposed continental drift before the age of 50 and Dr Johannes Wendebourg has made a similar, early impact on modelling sedimentary processes, petroleum systems and basins, in both academia and industry. In his PhD research at Stanford, he was a significant contributor to John Harbaugh's team developing simulation codes for dynamic, quasi-3D, geological process modelling of sediment transport, deposition and fluid migration. Joining IFP as a geological engineer, he used basin modelling to estimate reserves in the Paris Basin for the French government and collaborated with industry in basins world-wide. As manager for basin modelling he partnered with Total, Statoil and BP in developing basin modelling algorithms, workflows and uncertainty analyses. With Shell in Rijswijk, Dr Wendebourg managed non-seismic research, covering geochemistry, basin modelling, petrophysics and potential methods including controlled-source EM. After assignments in Rijswijk and Houston, he moved to Total as head of petroleum evaluation where his expertise impacts on research planning, training, and petroleum systems evaluation throughout the Total group. Johannes has contributed fundamentally new workflows for petroleum prediction and risk assessment on real data, with important achievements in understanding parameter sensitivity and uncertainty in modelling petroleum systems, hydrocarbon exploration and reserves estimation. Despite his managerial duties, Dr Wendebourg lectures both for Total and as external professor for the IFP school, ENSPM. He frequently shares his deep insights with papers at AAPG Hedberg Conferences, SPE, PESGB and, of course, the EAGE annual meeting. Johannes is an associate editor of Marine Petroleum Geology and a member of the German GeoforschungsZentrum scientific committee. He also serves as an external examiner on PhD thesis committees. For service to both the science and practice of basin modelling and for his extra-curricular support to universities, journals and professional societies, EAGE grants the Alfred Wegener Award to Dr Johannes Wendebourg.|
|2014||John R. Underhill||Professor John Underhill fully deserves the Alfred Wegener Award for his outstanding contribution to the development of seismic interpretation methods that help us to understand how sedimentary basins form and evolve, and their application to the search for hydrocarbons. As a geologist with enormous expertise in structural and stratigraphical analysis, and in sedimentology, John has built a deserved reputation for innovative basin analysis, and finding new solutions to established problems. Of particular note are his contributions to revealing the development of the Triassic basin in the northern North Sea, with its potential as a new hydrocarbon play, and his compelling argument for salt withdrawal as the origin of the Sole Pit crater in the southern North Sea, previously thought to be an impact structure. Another area of John’s interdisciplinary geo-research that has received widespread attention has been an assessment of the geological, geomorphological and geophysical evidence for relocating Odysseus' homeland, ancient Ithaca. His communication skills are renowned, whether with the media (as with the ancient Ithaca narrative) or with industry, or with academia. John has been recognised as a distinguished lecturer by the AAPG, the Geological Society of London and, not least, the European Association of Petroleum Geoscientists. He has also provided outstanding service to a broad geological community, including the UK Parliamentary Group for Earth Sciences, and as President of EAGE in 2011-12. John was recently appointed to the newly created Shell Chair of Exploration Geoscience at Heriot-Watt University in Edinburgh, where he is also a Fellow of the Royal Society of Edinburgh. He continues to serve both EAGE and GSL as a co-editor of the journal Petroleum Geoscience which, due in no small measure to his unstinting efforts, enjoys record impact factor, record subscriptions and global readership.|
|2013||No recipient selected|
|2012||Wojciech Górecki||In recognition of his outstanding achievements over four decades of academic research and organisational activity in the field of petroleum geology and exploration in Poland and his innovations in renewable geothermal energy. Professor Gorecki’s long and distinguished career has been characterised by diversity and multidisciplinarity. This has embraced hydrocarbon exploration in different challenging settings in Poland, including tight Rotliegendes gas and Lower Palaeozoic shale gas, as well as in the exploitation of geothermal aquifers. While much of this research has centred on Poland, he has also worked overseas, including Libya and China, where he has fostered interdisciplinary research teamwork and professional cooperation within the petroleum industry. In addition to mentoring and teaching successive generations of research students he has published very extensively and has contributed to more than 150 papers, books and monographs, along with six geothermal atlases; his work has been recognised by awards both at home and abroad. His approach and ideas have done much to aid the introduction of modern geoscientific methods and practices in Poland and he has been involved in creating strong and friendly links with many petroleum and geoscientific institutions worldwide. He has also played a key role in the Polish Geosynoptics Society (GEOS), an organisation affiliated to EAGE and has encouraged Polish participation in EAGE events. EAGE is pleased to be able to honour such an innovative geoscientist.|
|2011||Henning Omre||In recognition of his exceptional achievements in the field of geostatistics, and his involvement in the application of innovative geostatistical techniques to the progression and development of petroleum reservoir modelling. Early in his career, Henning was involved with the development and spread of object-based reservoir modelling, in particular for fluviodeltaic reservoirs, such as the Brent Formation in the North Sea. He went on to make a highly significant contribution to the quantification of uncertainty associated with reservoir modelling, using a Bayesian approach to kriging. Latterly, he has been extensively involved in the application of stochastic inversion techniques to lithofacies modelling. His work has been published extensively and recognised internationally.
Currently Professor of Statistics at Norwegian University of Science and Technology (NTNU) in Trondheim, Norway, he has worked in many places worldwide from Australia and the USA to China. He has been involved with Joint Industry projects with major oil companies; and his enthusiastic and charismatic approach has been integral in the education of his many research students.
|2010||Francois Roure||In recognition of his outstanding contribution to the understanding of thrust belts and foreland basins, and to the effects of tectonism on fluid movement. His work has been an excellent example of EAGE's goal of a multidisciplinary approach to the study of rocks and their fluids.
From his early highly original and innovative work based on deep seismic imaging of the deep structure of the Alps, the Apennines and the circum-Mediterranean, he has extended his field of interest and expertise to most other major structural provinces worldwide. In addition he has developed a particular interest in the relationship between tectonics, basin development and fluid movement. He has published very extensively.
He has forged strong bonds throughout both academia and industry over the past 30 years, and has served very extensively indeed on numerous technical committees and consortia, both in France and internationally, funded variously by governments or oil companies. He has served as an AAPG Distinguished Lecturer.
|2009||Carlo Doglioni||Carlo Doglioni specialises in structural geology, plate tectonics, crustal structure, subduction and volcanism, focusing on the circum-Mediterranean region. He has had a distinguished career in academia and research since 1981, at several universities in Italy, as well as being a visiting researcher at Basel, Oxford and Rice Universities. In addition to winning awards in Italy, his widely published research has been recognised internationally. In 1994 & 2005 he was AAPG Distinguished Lecturer and in 2004 he received the Spendiarov Award from the Russian Academy of Sciences.|
|2008||No recipient selected|
|2007||Jonny Hesthammer||In recognition of his achievements as an educator in rekindling student enthusiasm for the geological, geophysical and reservoir technology aspects of oil and gas operations, and as a researcher focusing on the use of electromagnetic and seismic data for hydrocarbon detection.|
|2006||No recipient selected|
|2005||Patrick Corbett||In recognition of his fundamental role in integrating the various geoscience and geo-engineering disciplines, particularly sedimentology, reservoir geology, well testing, petrophysics and reservoir engineering and for his very significant contributions in the study of depositional environments, flow patterns and permeabilities and the use of statistical methods in reservoir studies and characterisation.|
|2004||Andrew Hurst||For his valuable and prolific contributions in the fields of sedimentology and petroleum geology, particularly in sediment distribution in deep-water basins, allocyclic and autocyclic controls on sedimentation, mineral stability as a provenance indicator, heavy minerals in sandstones and their use in lithostratigraphy, risk analysis and economic evaluations, sensitivity of engineering parameters to geological characteristics and related fields.|
|2003||Emiliano Mutti||For his worldwide contribution to sedimentary dynamics of turbidites and their reservoir characterization during the last half century. His pioneering work has had a significant impact on petroleum geosciences. His broad international outlook and his attachment to the human values and “natural” geology are highly appreciated by all communities who have worked jointly with him.|
|2002||No recipient selected|
|2001*||K.J. Weber||In recognition of his numerous and outstanding contributions in his various roles at Shell, as a Professor at Delft and Associate Professor at ENSPM (IFP), at Heriot Watt and Imperial College, at TNO (Delft) and ITC. His efforts in bringing different disciplines together with practical solutions to very complex problems (e.g. the layer cake/ jigsaw/labyrinth classification for reservoirs) have been extremely valuable.
* As from June 2001, all award titles will refer to the year in which they are presented to the winners, and no longer to the year in which the winning poster/paper was presented.
|2000||No recipient selected|
|1999||K. Glennie||For lifetime achievements in closely integrating Sedimentology and Petroleum Geology and indirectly spurring the welfare of the UK and Scotland.|
|1998||B.M. Durand||In recognition of his contribution to the integration of Organic Geochemistry as an essential tool in Basin Assessment, and of his contribution to the integration of Petroleum Geosciences and Engineering for Reservoir Characterization.|
Nigel Anstey Award
Award for Best Paper in First Break
From 2012, the Nigel Anstey Award is to be presented to the author(s) of the best paper published in First Break in the calendar year preceding the award. The Nigel Anstey Award consists of a certificate and a specially bound copy of the issue in which the pertinent paper appears. This reallocation of the Nigel Anstey Award to a published paper continues the requirement that the contribution has a distinctly valuable and tangible bearing on one or more of the disciplines in our Association. Up until 2011, the Nigel Anstey Award was presented to a member of the Association who has made a contribution of distinctly valuable and tangible bearing on one or more of the disciplines in our Association, without being linked to a specific publication.
The Nigel Anstey Award 2020 was presented to:
Ian F. Jones
For the paper “Tutorial: the mechanics of waveform inversion“, First Break, Volume 37, No 5, May 2019 pp. 31 – 43.
Past Winners of the Nigel Anstey Award
|2019||Anders Draege||For the paper 'A new concept – fluid substitution by integrating rock physics and machine learning', published in First Break, Vol 36, No 4, April 2018.
This paper presents a new and patented concept for fluid substitution that can be integrated with machine learning to provide robust and simple fluid substitution with accuracy approximately equal to or better than Gassmann theory. The method is called ‘Rock physics Fluid Substitution’ (ROFS); a stepwise workflow is provided. For high porosity rocks, where the Gassmann assumptions are met, ROFS gives very similar results. For intermediate to low porosity rocks, ROFS gives more realistic fluid effects. The method can be applied to both siliciclastic rocks and carbonates. By using a rock physics model for carbonates, the new method can account for the effect of microstructure variations such as pore shape variations and cracks when performing fluid substitution.
|2018||Kim Senger||And co-authors John Millett, Sverre Planke, Kei Ogata, Christian Haug Eide, Marte Festoy, Olivier Galland and Dougal A. Jerram
For their paper 'Effects of igneous intrusions on the petroleum system: a review' published in First Break, vol 35, issue 6, June 2017, pp. 47 – 56.
In their excellent review paper, Senger and his co-authors give a global overview of the many types ofigneous intrusions, their geophysical signatures, and the numerous ways in which they can influence the entire petroleum system, including charge, migration, reservoir compartmentalization, trapping and sealing. All the individual petroleum system elements may be affected, positively or negatively, by igneous activity, as highlighted by case studies from different volcanic basins, conveniently brought together in a single table. The authors use both geological and geophysical concepts and provide a very well explained and well referenced overview to a general audience.
|2017||Ahmed Ouenes||And co-authors Y. Kiche, L. Ouhib, R. Smaoui, M. Paryani, S. Poludasu, A. Bachir and D. Balogh
For their paper 'Efficient development of unconventional reservoirs using 3G workflows – Breaking the silos to achieve true integration with multi-disciplinary software', published in First Break, volume 34, issue 5, May 2016, pp. 109-116.
Unconventional reservoirs challenge conventional workflows for characterisation and target selection since a sweetspot must not only have high hydrocarbon content but it must also enable high producibility. Producibility is enhanced by hydraulic fracture, so the third ‘g’ of geomechanics joins the existing two of geology and geophysics. Ahmed Ouenes and co-authors persuasively assert that their multi-disciplinary, integrated workflows can deliver significant savings over geometrically drilled completions. The authors demonstrate their approach on real case studies that bring together geology, geophysics and geomechanics, where stress and fracture modelling are integrated with seismic inversion-derived elastic properties and facies, to address the heterogeneity that challenges the economic development of unconventional reservoirs. The paper provides an excellent set of case-study examples and promotes practical aspects of geoscience applied to complex characterization and development projects.
|2016||Andrew J. Cavanagh||And co-authors R. Stuart Haszeldine and Bamshad Nazarian
For their paper 'The Sleipner CO2 storage site: using a basin model to understand reservoir simulations of plume dynamics', published in First Break, volume 33, issue 6, June 2015, pp. 61–68
The Sleipner carbon capture and storage project has two decades of data and experience of geological carbon storage (GCS). This important paper integrates geophysics, geology, petrophysics and flow simulation to obtain a new insight into the controls on CO2 movement in the subsurface and the best approach to model it. Under gravity-dominated drainage, Cavanagh et al. show that Darcy flow modelling, applied for the first decade of Sleipner monitoring, gives a poor match to the fluid distribution inferred from 4D seismic. Instead, they propose a capillary percolation model, better suited to the drainage displacement of the wetting brine by injected CO2, under near hydrostatic conditions. With this
model, a significantly better match is obtained to the interpreted plume dynamics. Furthermore, the new approach is better able to address CO2 dissolution and suggests that, within decades, dissolution will make a significant contribution to storage. This significant paper generates a new flow simulation benchmark and will guide our thinking on GCS for years to come.
|2015||Gwilym J. Lynn||And co-authors A. Christian Ellis, Jonathan Brain, Richard Parker, Gerd-Jan Lörtzer and Sophie Michelet
For their paper 'Gannet F field – Unexpected fluid flow between reservoirs identified from time-lapse seismic data', published in First Break, volume 32, issue 4, April 2014, pp. 53-59
In this comprehensive, well presented case study, the authors have integrated time-lapse (4D) seismic data with high-resolution inversions, well data and geological modelling to constrain both static and dynamic flow models in the Gannet F field. The 4D data have revealed unexpected fluid flow between reservoir units, and have observed sweep in units without well penetrations, thereby constraining fluid distributions in space at discrete snapshots in time. The integrated interpretation has improved predictions of sand extent and reservoir quality and has identified undeveloped crestal volumes in southern reservoir units as future targets.
|2014||Mai Westphal Stephensen||And co-authors Michael Larsen, Gregers Dam and Tomas Hansen
For their paper 'The Glenlivet gas discovery – an integrated exploration history', published in First Break, volume 31, issue 7, July 2013, pp. 51-63.
The authors present a comprehensive case study showing the importance of careful integration of geological, petrophysical and geophysical data to de-risk an amplitude-supported stratigraphic play on the Glenlivet Prospect. The initial prospect definition was based on regional seismic mapping and evaluation of existing data from offset wells. The detailed analysis included petrophysical interpretation, porosity modelling, fluid substitution, and AVO modelling. The results were compared with seismic and attribute maps of the Vaila Formation in the Glenlivet area. Based on the integrated evaluation, a combined geological and geophysical risking of the identified prospect was performed, leading to the successful exploration well in 2009. The authors reviewed the prognosed and post-well results and investigated reasons for the observed deviations. The successful case study is important in that it may lead to further development of the West of Shetland gas basin.
|2013||Caroline E. Gill||And co-authors Alberto Miotto, Mariano Floricich, Richard Rogers, R. David Potter, Josef Harwijanto and Peter Townsley
For their paper 'The Nelson full field model: using iterative quantitative improvements from the initial framework to the final history match', published in First Break, volume 30, issue 9, September 2012, pp. 43–53.
The authors present a powerful methodology for building and updating constrained reservoir models. Their method incorporates various datatypes, including well data, 4D seismic surveys and production history, into reservoir models by updating structural framework, macrofacies and petrophysical properties, while managing all datatypes within an integrated workflow. The authors demonstrate their technique with a complex, channelized reservoir in the Nelson field in the UK North Sea, with implications for production optimization in many other depleting NW European fields.
|2012||Kurtis Wikel||For his paper 'Geomechanics: Bridging the Gap from Geophysics to Engineering in Unconventional Reservoirs', published in First Break, volume 29, issue 10, October 2011, pp. 71–81.
This paper argues that a geomechanics approach to tracking the stresses in the subsurface caused by drilling and hydraulic fracture operations in the production of unconventional tight gas and oil and gas shale reservoirs pays major dividends and should be more seriously considered in the geosciences community. The paper presents many topics of interest. Firstly, it is a very clear presentation of geomechanical concepts. This is excellent in the frame of a journal such as First Break, which will be read by people from very different technical horizons. Secondly, it discusses the impact of a geomechanical approach in the optimization of hydraulic fracturing in non-conventional reservoirs, which is also a very timely topic. And thirdly, it promotes a multidisciplinary approach, which is very topical for an EAGE publication. In all, a very good paper to introduce this recently redefined EAGE award.
|2011||Ashley Francis||In recognition of his very substantial, original and diverse contribution to seismic inversion and geostatistics, and to the quantifying of uncertainty and risk. He has been a major influence for the widespread adoption of stochastic inversion technology in practical reservoir characterisation work. His extensive publications - especially his two papers in First Break - and lectures have helped considerably to publicise and also to demystify stochastic modelling, and to move it into the realm of an everyday tool in geological modelling. Thanks to the successful launch of his company Earthworks, he has successfully developed high speed stochastic inversion software to allow the rapid commercial application of the technique. Ashley Francis's other technical contributions, and his active participation in conferences define him as a geoscientist who has made a very major contribution to geoscience over more than two decades.|
|2010||Panos Kelamis||In recognition of his research in the complex area of land multiple estimation and removal, which has resulted in an impressive series of model-based and data-driven algorithms currently widely applied within the E&P industry. His extensive knowledge of both the theoretical and practical aspects of geophysics, and his high-quality contributions to the geophysical community in terms of more than one hundred journal publications, conference papers and workshop presentations, has made him one of the authoritive experts in this field. In the specific spirit of the Anstey Award, Dr Kelamis has always given special attention in the integration of data acquisition, processing and interpretation, linking together geophysical data of different nature (seismic, well logs, upholes etc.).|
|2009||No recipient selected|
|2008||Halina Jedrzejowska-Tyczkowska||For her valuable contribution to the science of seismology during her distinguished academic career. She has been responsible for tangible advances in the fields of full-field elastic wave propagation; seismic data processing and inversion; statistics in seismic interpretation; seismic anisotropy; spectral analysis; seismic stratigraphy and hydrocarbon reservoir characterisation. Her enthusiasm in teaching and research, together with her ability to combine theory with practice, has inspired geophysicists in Poland and throughout the world.|
|2007||José Carcione||In recognition of his contributions in research for seismic response of complex rheologies, resulting in his authorship of a landmark book in this subject area. As a proof of his broad and in-depth expertise José Carcione has also made significant contributions in modeling of georadar and aquifer responses.|
|2006||Eric Duveneck||In recognition of the importance and originality of his work in the tomographic determination of high-resolution seismic velocity models, using kinematic wavefield attributes extracted from pre-stack data. His approach has led to significant improvements in the efficiency and accuracy of three-dimensional migration and inversion.|
|2005||David Whitcombe||In recognition of his significant contributions which have led to the development of practical and effective methods to solve everyday problems faced by seismic interpreters, including his innovative approaches to fast and accurate subsurface model building as well as his work in the use of seismic data for lithology and fluid prediction.|
|2004||Thomas Armstrong||For his significant and active contributions in a variety of seismic issues, such as migration aperture and VSP and particularly for providing an effective and long-awaited solution to the problem of overburden velocity anomalies. This latter work has filled a critical gap in seismic interpretation and in time to depth conversion, the worldwide application of the principles and methodology of which being already very much in evidence.|
|2003||Ian F. Jones||For his numerous and excellent contributions to many disciplines in seismic processing and, especially, for his innovative approach to methodologies in depth imaging and related processes, an approach that is often reflected in his publications and in his creative and stimulating presentations.|
Loránd Eötvös Award
Award for Best Paper in Geophysical Prospecting
The Loránd Eötvös Award is presented to the author(s) of the best paper published in Geophysical Prospecting in the calendar year preceding the award. The paper should be of high scientific standard and should represent a significant contribution or an outstanding tutorial in one or more of the disciplines in our Association.
The Loránd Eötvös Award 2020 was presented to:
Tor Arne Johansen
And co-authors Bent Ole Ruud, Ronny Tømmerbakke, and Kristian Jensen
For their paper “Seismic on floating ice: data acquisition versus flexural wave noise“, published in Geophysical Prospecting, Vol. 67, Mar 2019.
Past Winners of the Loránd Eötvös Award
|2019||Jiri Mls||And co-author Tomas Fischer
For their paper 'A new mathematical model of asymmetric hydraulic fracture growth', published in Geophysical Prospecting, Vol 66, 2018.
The paper presents a mathematical model of asymmetric hydrofracture growth based on relations between the solid-phase stress and the fracture hydraulics. For a single fracture and single injection point, the model has three parameters: the hydraulic conductivities of the two fracture wings and the normalised stress gradient. It predicts the positions of the fracture tips as functions of time. The model is applied to a set of microseismic event locations that occurred during and after an injection process at the Canyon Sands gas field in West Texas. Two methods are proposed to delineate the fracture tips from the set of microseismic events, making it possible to determine the model parameters and check the agreement between the model prediction and the measured data. Comparison of the measured and modelled growth of fracture wings supports both the assumption of non-zero stress gradient and the existence of post-injection unilateral growth.
|2018||Ehsan Zabini Naeini||And co-authors James Gunning and Roy White
For their paper 'Well tie for broadband seismic data', published in Geophysical Prospecting, volume 65, issue 2, March 2017, pp 503-522.
Broadband seismic data present a fundamental problem for wavelet estimation from well logs: the well logs are too short to allow accurate estimation of the long-period content of the data. In this very clear paper, Naeini and his co-authors present a robust solution to the wavelet estimation problem for well tie to broadband seismic data using three distinctive techniques: parametric constant phase, frequency-domain least squares with multi-tapering, and Bayesian time domain with broadband priors. Using a case study from the North West Shelf, Australia, they demonstrate the performance of the three techniques and propose cross-validation as a powerful consistency test of the estimated wavelet across a survey at different well locations.
|2017||Nicolas Hummel||And co-author S. A. Shapiro
For their paper 'Back front of seismicity induced by non-linear pore pressure diffusion', published in Geophysical Prospecting, volume 64, issue 1, January 2016, pp. 170-191.
Diffusion of a pore-pressure perturbation from a borehole fluid-injection source triggers microseismic events whose spatio-temporal evolution is interpretable in terms of the diffusivity and hence permeability of the rock mass. The seismicity continues after injection ceases and there is a ‘back front’ corresponding to the distance from the injection point that seismicity terminates at a given time after fluid injection ceases. In the case of hydraulic fracturing, permeability becomes strongly pressure dependent and anisotropic, and the diffusion is no longer linear. Hummel and Shapiro extend our understanding of the effect of fluid injection, including hydraulic fracturing and geothermal injection, on the distribution of induced seismicity in space and time. Comparing simulations with measured data, the authors show that the spatio-temporal characteristics of the event clouds can reveal a non-linear dependence of permeability on pressure, allowing the diffusivity tensor to be estimated, with economic benefit. The back front is a particularly strong diagnostic of non-linear diffusion in the rock mass.
|2016||Joost van der Neut||And co-author Kees Wapenaar
For their paper 'Point-spread functions for interferometric imaging', published in Geophysical Prospecting, volume 63, issue 5, October 2015, pp. 1033–1049.
Joost van der Neut and Kees Wapenaar propose an original, quantitative analysis of point-spread functions in interferometric redatuming, in which acquisition (sources and/or receivers) are moved to a deeper level by building virtual reflection data. The authors show how this could be achieved by cross-correlation or multidimensional deconvolution. Other possible strategies, based on Marchenko redatuming, could also be chosen. This article presents theory and examples to estimate the spreading feature when examining redatumed data, which may suffer from distortions in the image domain, due to internal multiple reflections in the overburden. The point-spread functions can be utilised for diagnostic purposes in the image domain and, potentially, for the removal of multiplerelated artefacts. The approach can also be applied to other acquisition designs. The paper represents a major step towards the application of interferometric imaging by providing quantitative tools to evaluate and improve the quality of images from virtual reflection data.
|2015||Laurence J. North||And co-author Angus I. Best
For their paper 'Anomalous electrical resistivity anisotropy in clean reservoir sandstones', published in Geophysical Prospecting, volume 62, issue 6, November 2014, pp. 1315-1326.
This paper makes a significant contribution to the understanding of resistivity anisotropy in real rocks, noted by Conrad Schlumberger in 1920, through an elegant combination of laboratory measurements and numerical modelling. The authors report novel laboratory measurements of the full electrical resistivity tensor in reservoir-analogue, quartzose sandstones with clay contents less than 1.5%. The findings suggest that resistivity anisotropy is the norm, even in clean sandstones that are often considered isotropic. The laboratory results are supported by grain compaction modelling. The authors suggest that such anisotropy may be related to deposition and compaction processes in clastic rocks, which could also affect fluid flow, and they discuss the potential impact on formation evaluation from log data, as well as the interpretation of remote sensing methods such as controlled source electromagnetics.
|2014||Klaus Helbig||For his paper 'Review paper: What Kelvin might have written about Elasticity', published in Geophysical Prospecting, volume 61, issue 1, January 2013, pp. 1-20.
Helbig succeeds in using a review paper to generate fresh insights, new clarity and innovative ideas, worthy of the Eötvös award, thanks to his analysis of a fascinating piece of scientific history. He recounts the main points of the ground-breaking analysis of the elastic tensor, made by William Thomson (later Baron Kelvin of Largs) in 1856, in his "XXI, Elements of a Mathematical Theory of Elasticity, Part 1, on Stresses and Strains," and analyses why the paper elicited no reaction for 125 years. Helbig speculates on what might have been in Kelvin's mind for a second part, and how the theory of elasticity might then have developed, accepting Kelvin's eigensystem. Helbig's paper provides a clear glossary for interpreting Kelvin's tensor notation in the light of classical elasticity as we know it, and suggests the main points that could be still of great benefit in separating material properties from geometry, and especially in describing anisotropic symmetries. Helbig uses Kelvin's formalism to link tensor structure to symmetry class and to identify a new symmetry class, the diclinic, fitting logically between monoclinic and triclinic classes, as earlier proposed by Muir and then by Helbig himself. This review is an outstanding contribution to Geophysical Prospecting and to elastodynamics in general.
|2013||Michael S. King||And co-authors William S. Pettitt, Jonathan R. Haycox and R. Paul Young
For their paper 'Acoustic emissions associated with the formation of fracture sets in sandstone under polyaxial stress conditions', published in Geophysical Prospecting, volume 60, issue 1, January 2012, pp. 93–102.
The authors report results of laboratory experiments to measure the acoustic emission and ultrasonic response of a rock volume subjected to controlled stress and damage conditions. Their achievement in developing a technique for creating true triaxial conditions on rock samples and monitoring fracture growth from acoustic transmissions and emissions is highly commendable. Using moment tensor analysis, the authors interpret the mechanisms governing onset and development of microcracks as they coalesce into a fracture propagating deep into the sample. The methodology has potential for understanding and monitoring field-scale rock failure processes in petroleum, geothermal and CO2 reservoirs and around critical engineered structures within mines and underground nuclear-waste facilities.
|2012||Leiv-J. Gelius||And co-author Endrias Asgedom
For their paper 'Diffraction-limited imaging and beyond – the concept of super resolution', published in Geophysical Prospecting, 2011, volume 59, no. 3, May 2011, pp. 400–421.
This paper provides a framework for understanding and analysing both diffraction-limited imaging as well as super resolution. The authors demonstrate that point-diffracted data can apparently be super resolved by making use of null-space solutions. Moreover, two scatterers with strong interaction could still be super resolved. The authors also analyse the effect of noise and the signal frequency bandwidth on the resolving power, putting in evidence the limits and the advantages of this technique. While mentioning that the super resolution technique is not able to form complete and reliable images of the subsurface, the authors assert that separating diffractions from reflections and identifying a local target region (for example, diffractions associated with local faults), may have the potential to add more details to the big picture. The authors bring the reader to understand clearly difficult concepts while maintaining a high level of a paper, which is not only scientifically correct but that finally indicates the road ahead for seismic exploration.
|2011||J.B. Joubert||And co-author V. Maïtan
For their paper 'Borehole image logs for turbidite facies identification: core calibration and outcrop analogues', published in First Break, 2010, issue 6, pp. 55-66.
In exploration, appraisal, and development of hydrocarbon fields, the understanding of the sedimentary model requires increasingly sophisticated techniques and analysis to interpret the geometry, facies, and petrophysical properties of the reservoirs. The objective is to understand the reservoir flow properties for making optimum decisions during field development. For this purpose, the use of high resolution image logs provided by service companies has become essential in sedimentary interpretation. When they are correctly calibrated against known facies, image logs can replace coring operations, which are time-consuming, expensive, and limited in the depth interval sampled. Recent examples of application have proved highly successful for exploration wells. Now mature fields can be reinterpreted in the light of the new understanding gained, enabling development plans to be revised with enhanced recovery methods. As a result of the success of this approach, image-based facies interpretation is now included in the standard procedure for evaluation of data from exploration, appraisal, and development wells.
|2010||Federico Cella||And co-authors Maurizio Fedi and Giovanni Florio
For their paper 'Toward a full multiscale approach to interpret potential fields', published in Geophysical Prospecting, 2010, p. 543-557.
A multi-scale analysis can highlight the edges of buried bodies by the derivatives of their potential field and, based on these constraints, improve the estimation of their depth and shape. A major advantage of this method is its ability to decouple the components due to shallow or local bodies from those regional or deeper ones. The validation by synthetic data highlights the application of this new method to field data from Southern Italy.
|2010||Vladimir Glogovsky||And co-authors Evgeny Landa, Sergey Langman and Tijmen Jan Moser
For their paper 'Validating the velocity model: the Hamburg score', published in First Break, 2009, issue 3, p. 77-85.
Rarely does a paper address critically what does not work, especially for methods that are widely accepted or even standard for the industry. Glogovsky et al. have critically reviewed basic concepts of seismic imaging and highlighted major limits in velocity model building and in the subsequent depth imaging. The clarity and classy humour of their style made it a brilliant example of scientific communication of advanced topics to non-specialist geoscientists.
|2009||Pierre Gouedard||And co-authors L. Stehly, F. Brenguier, M. Campillo, Y. Colin de Verdière, E. Larose, L. Margerin, P. Roux, F.J. Sánchez-Sesma, N.M. Shapiro and R.L. Weaver
For their paper 'Cross-correlation of random fields: mathematical approach and applications', published in Geophysical Prospecting, Vol. 56.
This paper reviews three methods for imaging multiples, including model based and interferometric methods. The paper is easy to read, is very instructive, and stimulates the reader to consider how to make better use of multiples and seismic data from wells for imaging complex structures.
|2008||Zhiyong Jiang||And co-authors Jianming Sheng, Jianhua Yu, Gerard Schuster and Brian Hornby
For their paper 'Migration methods for imaging different-order multiples', published in Geophysical Prospecting, Vol. 55, No 1.
This paper reviews three methods for imaging multiples, including model based and interferometric methods. The paper is easy to read, is very instructive, and stimulates the reader to consider how to make better use of multiples and well seismic data for imaging complex structures.
|2007||Evgeny Landa||And co-authors Sergey Fomel and Tijmen Jan Moser
For their paper 'Path-Integral Seismic Imaging', published in Geophysical Prospecting, Vol. 54, No. 5. The paper presents a new approach for prestack seismic imaging in a macromodel independent context. The optimum migration is found as a weighted stack of images obtained for a range of velocity models. The paper provides an original analysis of stationary phase construction in the velocity model domain and opens the door to a new family of automatic pre-stack time imaging procedures.
|2006||Eusebio Stucchi||And co-authors Alfredo Mazzotti and Simonetta Ciuffi
For their paper 'Seismic preprocessing and amplitude cross-calibration for a time-lapse amplitude study on seismic data from the Oseberg reservoir', published in Geophysical Prospecting, Vol. 53, No. 2. The paper presents an outstanding work on the analysis and reliability of time lapse pre-stack seismic amplitudes, a topic of prime importance for reservoir monitoring. The analysis encompasses careful true-amplitude processing of each vintage, original procedures for amplitude cross-calibration and robust estimation of AVO attributes. The paper provides many useful figures for the representation and analysis of pre-stack amplitudes.
|2005||Claudio Bagaini||And co-author Everhard Muijzert
For their paper 'Calibration of cross-line components for sea-bed 4C acquisition systems', published in Geophysical Prospecting, Vol. 52, No. 4, p 341-349 This is a very original piece of work on a topic of critical importance at a time when new seismic acquisition technologies are crucial to improving our understanding of the subsurface for better recovery of hydrocarbon reserves. The paper is very clearly written, provides a comprehensive analysis of coupling issues in multicomponent recording and offers solutions that are successfully applied to a real case.
|2004||Solomon Assefa||And co-authors Clive McCann and Jeremy Sothcott
For their paper entitled 'Velocities of compressional and shear waves in limestones', published in Geophysical Prospecting, Vol. 51, No. 1.
This is an original piece of work in petrophysics and gives a new insight into our understanding of the elastic properties of limestones. The study is very relevant as it comes at a time when the industry is applying increasingly more amplitude-based seismic studies to carbonate reservoirs and when considering that carbonate reservoirs contain at least half of the reserves of hydrocarbons in the world.
|2003||Kaushik Das||And co-authors Alex Becker and Ki Ha Lee
For their paper entitled 'Experimental validation of the wavefield transform of electromagnetic fields', published in Geophysical Prospecting, volume 50, Number 5. This paper reports an experimental demonstration that the wavefield transform technique for EM signals is valid. It forms an essential basis for future work on solving problems associated with Time Domain EM. It shows that these problems can be successfully scaled down to the laboratory and this gives valuable insights into which parts of the theory are adequate and which are not.
|2002||Y. Zhang||And co-authors Steffen Bergler and Peter Hubral
For their paper 'Common-reflection-surface (CRS) stack for common offset', published in Geophysical Prospecting, Vol. 49, No. 6. The authors present a data-driven macro-model-independent technique that transforms 2D Prestack data into an accurate approximation for common offset section.
|2001*||I. Lecomte||And co-authors Håvar Gjøystdal, Anders Dahle and Ole Christian Pedersen
For their paper 'Improving modelling and inversion in refraction seismics with a first-order Eikonal solver', published in Geophysical Prospecting Volume 48, Number 3. The authors present an elegant and stable ray-and wavefront-based interactive modelling and inversion tool for refracted waves in complex earth models.
* As from June 2001, all award titles will refer to the year in which they are presented to the winners, and no longer to the year in which the winning poster/paper was presented.
|2000||No recipient selected|
|1999||J.H.H.M. Potters||And co-authors H.J.J. Groenendaal, S.J. Oates, J.H. Hake and A.B. Kalden
For their paper 'The 3D Shear Experiment over the Natih Field in Oman – Reservoir Geology, Data Acquisition and Anisotropy Analysis', published in Geophysical Prospecting Volume 47, Number 5. This excellently illustrated paper reviews the design considerations, implementation and interpretation of a 3D shear wave survey over a fractured carbonate reservoir. It is an exemplary case study of the application of multi component seismology to reservoir characterisation.
|1998||S. Grion||And co-authors A. Mazzotti and U. Spagnolini
For their paper 'Joint estimation of AVO and kinematic parameters', published in Geophysical Prospecting Volume 46, Number 4. By means of a neat parametrisation, the authors implement an efficient method of estimating the variation of reflection amplitude with offset that minimises distortions from interfering events and from errors in normal moveout correction. They go on to demonstrate its practicality by application to marine seismic data that exhibit non-hyperbolic moveout and sea-bottom multiples.
|1997||Martijn Andrea||And co-authors M. Andrea, M.S. Sams, M.H. Worthington and M.S. King
For their paper 'Predicting horizontal velocities from well data', published in Geophysical Prospecting, Volume 45, Number 4. The authors developed a scheme to model the anisotropy due to sedimentary layering and intrinsic anisotropy in mudstones. By fitting a model to ultrasonic data, the authors successfully predict the sonic log and the direct arrival times from a cross hole survey.
|1996||Einar Iversen||And co-author Håvar Gjøystdal
For their paper 'Event-oriented Velocity Estimation based on Prestack Data in Time or Depth Domain', published in Geophysical Prospecting, Volume 44, Number 4. This paper develops a new technique of seismic velocity determination allowing for a better depth conversion. Using ray theory, it is applicable to complex structural geometry and gives a quantitative estimation of the uncertainty.
|1995||Gary Hampson||And co-author Helmut Jakubowicz
For their paper 'The Effect of Source and Receiver Motion on Seismic Data', published in Geophysical Prospecting, Volume 43, Number 2. This paper proposes an elegant solution to neutralize the distortions introduced into seismic data by source and receiver motion. It is particularly important for surveys using marine sources with long signatures.
|1994||P. Nielsen||And co-authors F. If, P. Berg and O. Skovgaard
For their paper 'Using the Pseudospectral Technique on Curved grids for 2D Acoustic Forward Modelling', published in Geophysical Prospecting, Volume 42, Number 4. This paper shows that the use of curved grids for acoustic modelling of geological interfaces can give more accuracy with fewer grid points than Cartesian grids, thus allowing the possibility to compute larger models and 3D configurations.
|1993||D.J. Monk||For his papers 'Wave equation multiple suppression using constrained gross equalization', published in Geophysical Prospecting, Vol. 41, Number 6, August 1993 and 'An approach to optimum slant stack; its applications as seismic noise attenuator', published in First Break, Vol. 11, Number 12, December 1993 (co-authors H. Crook and P. Cowan). These two papers describe efficient new techniques of noise attenuation in seismic imaging.|
|1992||H.L.J.G. Hoetz||And co-author D.G. Watters
For their paper 'Seismic Horizon Attribute Mapping for the Annerveen Gasfield, The Netherlands', published in First Break, Vol. 10, Number 2. This paper is a remarkable illustration of the interpretation of 3D seismic surveys on workstations. It shows how the application of new techniques such as automatic tracking and horizon attribute processing can improve very significantly the quality of seismic interpretation.
|1991||A.H. Balch||And co-authors H. Chang, G.S. Hofland, K.A. Ranzinger and C. Erdemir
For their paper 'The Use of Forward- and Back-Scattered P-, S- and Converted Waves in Cross-Borehole Imaging', published in Geophysical Prospecting, Vol. 39, No. 7. This paper demonstrates how a range of advanced techniques can be combined into an effective processing sequence for unravelling the wavemodes recorded in cross-hole imaging and converting them into a meaningful image.
|1990||H. Jakubowicz||For his paper 'A Simple Efficient Method of Dip-Moveout Correction', published in Geophysical Prospecting, Vol. 38, Number 3. The paper shows how a particular insight Into dip-moveout and stacking can be turned to advantage in order to derive a dip-moveout process that is both accurate and efficient.|
|1989||R.M. Dalley||And co-authors E.C.A. Gevers, G.M. Stampfli, D.J. Davies, C.N. Gastaldi, P.A. Ruijtenberg and G.J.O. Vermeer
For their paper 'Dip and Azimuth Displays for 3-D Seismic Interpretation' published in First Break, Vol. 7, Number 3. This paper demonstrates how a wealth of finely resolved geological detail can be released from 3-D seismic data through careful processing and imaginative modes of display.
|1988||L. Ongkiehong||For his papers 'Towards the Universal Seismic Acquisition Technique' (with H.J. Askin) and 'A Changing Philosophy in Seismic Data Acquisition' published in First Break, Vol. 6, Numbers 2 and 9, respectively. These two papers promoted widespread interest and stimulated a reassessment of the fundamentals of seismic data acquisition.|
Norman Falcon Award
Award for Best Paper in Petroleum Geoscience
The Norman Falcon Award is presented to the author(s) of the best paper published in Petroleum Geoscience in the calendar year preceding the award. The paper should be of high scientific standard and should represent a significant contribution to one or more of the disciplines in our Association.
The Norman Falcon Award 2020 was presented to:
And co-author Rahul Prabhakaran, Francisco Hilario Bezerra, and Giovanni Bertotti
For their paper “Linking natural fractures to karst cave development: a case study combining drone imagery, a natural cave network and numerical modelling“, published in Petroleum Geoscience, Vol 25, April 2019.
Past Winners of the Norman Falcon Award
The Norman Falcon Award was originally established in 1993 (and continued till 2002) as the Best Poster Award of the Petroleum Division. The Best Paper Award of the Petroleum Division (1999-2002) was called Petroleum Geoscience Award.
|2019||Simon A. Stewart||For his paper 'Hormuz salt distribution and influence on structural style in Northeast Saudi Arabia', published in Petroleum Geoscience, Vol 24, No 2, May 2018.
This study uses previously unpublished reflection seismic data and wells to map part of the western margin of the Hormuz salt basin for the first time. It links Hormuz facies distribution to the evolution of major structures in NE Saudi Arabia. Most of these major structures host giant or supergiant oil fields in Mesozoic reservoirs. This study is based on seismic interpretation of structural style because the Hormuz occurs at up to 10 km or more depth and much deeper than the limit of drilled wells over the study area. The main result is a significant refinement of previous regional maps of Hormuz Group distribution. The paper is well written, potentially of wide interest, and could be set as recommended or essential reading in coursework. It is, 'the kind of paper you would love to see in a text book on the topic and to use in courses for students and professionals.'
|2018||Erick Alvarez||And co-authors Colin MacBeth and Jonathan Brain
For their paper 'Quantifying remaining oil saturation using time-lapse seismic amplitude changes at fluid contacts', published in Petroleum Geoscience, Volume 23, issue 2, May 2017, pp. 238 – 250.
Evaluation of the saturation of the oil left behind in a hydrocarbon reservoir after some oil is displaced by water in production is vital for planning secondary and enhanced oil recovery strategies. In this excellent paper Alvarez and his co-authors show that time-lapse changes in the amplitude of the seismic reflection at an oil-water contact (OWC) can be used to estimate directly the displacement efficiency of water displacing oil, without the need for a rock and fluid physics model. A prerequisite for the proposed approach is that a discrete OWC be interpreted on either the 3D or 4D seismic data sets. The potential of this practical method is successfully established on both synthetic and real data examples.
|2017||Marco Roveri||And co-authors R. Gennari, S. Lugli, V. Manzi, N. Minelli, M. Reghizzi, A. Riva, M. E. Rossi and B. C. Schreiber
For their paper 'The Messinian salinity crisis: open problems and possible implications for Mediterranean petroleum systems', published in Petroleum Geoscience, volume 22, issue 4, November 2016, pp. 283-290.
Marco Roveri and co-authors review the Messinian salinity crisis (MSC) and discuss unsolved problems and possible implications for Mediterranean petroleum systems. The paper explains and then challenges the accepted paradigm of a ‘shallow-water deep-basin’ model, which implies high-amplitude oscillations (greater than 1500 m) in the Mediterranean sea-level up to the point of its desiccation. By combining chronostratigraphic observations with global sea level curves and solar insolation data, the authors show that an alternative, deep-water, non-desiccated scenario of the MSC is not only possible but, in fact, a more credible model. This in turn has strong implications for the assessment of petroleum systems in the Mediterranean and adjoining areas (e.g. the Black Sea Basin), which are developed by the authors as an improved petroleum systems model for Messinian source rocks and hydrocarbon accumulations.
|2016||Alex M.P. Cicchino||And co-authors Colin Sargent, Neil R. Goulty and Agus M. Ramdhan
For their paper 'Regional variation in Cretaceous mudstone compaction trends across Haltenbanken, offshore mid-Norway', published in Petroleum Geoscience, volume 21, issue 1, February 2015, pp. 17–34.
Sediment compaction underpins basin modelling and pre-drill pore pressure prediction. Clay compaction is complex in that both mechanical and chemical compaction are driven by mineralogy, grain size, pore fluid chemistry, temperature, stress, rates of burial and possible exhumation. In a comprehensive study, Cicchino et al. systematically examine possible reasons for a regional variation in porosity by a factor of two in Cretaceous mudstones below 2700 m depth, offshore Norway. By integrating seismic data, well-logs, cuttings analyses, pressure measurements and temperature profiles the authors conclude that the porosity variation is caused by regional variations, over the past 3 Ma, in the ability of porewater to escape from mechanically compact mudstones undergoing chemical compaction and lithification. Since chemical compaction is arrested if porewater cannot escape, porosity is retained with a minor increase in pore pressure. This significant paper offers new insights into regional porosity variations and cautions against relying uniquely on porosity retention as a pore-pressure indicator.
|2015||Peter J.R. Fitch||And co-authors Matthew D. Jackson, Gary J. Hampson and Cédric M. John
For their paper 'Interaction of stratigraphic and sedimentological heterogeneities with flow in carbonate ramp reservoirs: impact of fluid properties and production strategy', published in Petroleum Geoscience, volume 20, issue 1, February 2014, pp. 7-24.
The authors develop a suite of static models that capture the range of plausible stratigraphic architectures and rock and fluid properties associated with carbonate ramps. They then use these models with experimental design techniques to explore, by flow simulation, the influence of stratigraphic and sedimentary heterogeneities, well placement and completion strategies, fluid properties, and rock types on flow during water-flooding in each model. In their simulations, the modelled geology was found to be more important than the fluid properties or the specific production scenario. Rock properties affected original oil in place more than recovery factor, and reservoir architecture exerted primary controls on recovery regardless of production strategy, although well spacing impacted sensitivity to factors controlling vertical flow. This excellent academic analysis brings insights that will assist both flow simulation and production strategy in real-world field developments.
|2014||Darrin Burton||And co-author Lesli J. Wood
For their paper 'Geologically-based permeability anisotropy estimates for tidally-influenced reservoirs using quantitative shale data', published in Petroleum Geoscience, volume 19, issue 1, February 2013, pp. 3-20.
Burton & Wood present a well-researched, argued and illustrated description of a workflow to relate permeability anisotropy at the reservoir scale to shale geometry, shale fraction and the vertical frequency of shale beds. Using data from well logs, cores and lidar scans at outcrops in Canada, New Mexico and Utah, they show how the unique shale character of each unit results in a different distribution of permeability anisotropy according to whether the geological environment is an estuarine point bar, a tidal sand ridge, or a tidal bar. Shales have been known to act as flow baffles for decades but this type of application has previously been limited by the lack of published shale-body distributions in tidally influenced reservoirs. The workflow presented here has wide-reaching application in other similar depositional environments.
|2013||Alastair H.F. Robertson||And co-authors Osman Parlak and Timur Ustaömer
For their paper entitled 'Overview of the Palaeozoic-Neogene evolution of Neotethys in the Eastern Mediterranean region (southern Turkey, Cyprus, Syria)', published in Petroleum Geoscience, volume 18, issue 4, November 2012, pp. 381–404.
This paper presents an integrated synthesis of the geological and tectonic development of the easternmost Mediterranean basin from late Palaeozoic to Mid-Miocene times. The results of fieldwork in remote onshore locations, in collaboration with local research and knowledge, are combined with recently published studies to produce a series of regional palaeogeographic and palaeotectonic reconstructions. These highlight the timings of basin development and ocean closure, along with associated ophiolite emplacement, which the authors use to support an alternative model for the timing and tectonics of the Eastern Mediterranean basin.
|2012||Brit Thyberg||And co-author Jens Jahren
For their paper entitled 'Quartz cementation in mudstones: sheet-like quartz cement from clay mineral reactions during burial', published in Petroleum Geoscience, volume 17, no. 1, February 2011, pp. 53–63.
This paper presents new findings resulting from detailed and high-resolution petrographic examination of deeply buried mudstones from the Vøring Basin, offshore Norway. The authors demonstrate that authigenic, sheet-like or platelet-shaped quartz cement parallel to bedding is developed as a result of clay mineral transformations during burial and compaction. These cements may act as mudrock stiffening agents and vertical permeability barriers and as such may contribute to shale anisotropy and overpressure development. These innovative observations may significantly affect our understanding of shale diagenesis, with the potential for wider implications in hydrocarbon exploration.
|2011||Michael R. Lentini||And co-authors Scot I. Fraser, H. Scott Sumner and Richard J. Davies
For their paper entitled 'Geodynamics of the central South Atlantic conjugate margins: implications for hydrocarbon potential', published in Petroleum Geoscience, Vol. 16, nr 3, pp. 217-229.
This geographically wide-ranging and excellent multi-disciplinary contribution examines rifting and complex extension behaviour in the South Atlantic area and presents a new model for restoration of this province. The study presents an innovative approach to the synthesis of gravity and magnetic data with regional seismic interpretation and mapping; this, coupled with facies modelling and palaeoclimatology studies, has allowed the geological history of the margin to be explored. Inherited basement structural trends appear to partition crustal strain, such that both pure shear and simple shear end-member mechanisms are recorded by the syn-rift subsidence patterns. The implications for source and reservoir rock distribution and hydrocarbon exploration potential have been addressed in the light of the results.
|2010||Behrooz Esrafili-Dizaji||And co-author Hossain Rahimpour-Bonab
For their paper entitled 'Effects of depositional and diagenetic characterstics on carbonate reservoir quality: a case study from the South Pars gas field in the Persian Gulf', published in Petroleum Geoscience vol.15, nr4, pp 325-344
A comprehensive and detailed geological study of the Persian Gulf's Permo-Triassic Upper Dalan-Kangan carbonate-evaporite interval, which hosts the largest reserve of non-associated gas in the world. The authors undertake a comprehensive and detailed facies analysis in the South Pars Field to establish within individual units the original depositional fabric and geometry, which is inherited from position within a homoclinal carbonate depositional ramp. While this forms the basis for rock typing, superimposed on this depositional fabric is a variable diagenetic imprint, resulting from differential burial and exposure.An excellent study, and a very well written paper, recording the very detailed petrographic and supporting work on an important heterogenous carbonate reservoir in a relatively unpublished area.
|2009||Alexis Carrillat||And co-authors Tanwi Basu, Raul Ysaccis, Jonathan Hall, Amiruddin Mansor and Martin Brewer
For their paper 'Integrated geological and geophysical analysis by hierarchical classification: combining seismic stratigraphy and AVO attributes', published in Petroleum Geoscience Vol.14.
The authors demonstrate the value of an innovative method combining seismic geomorphology, seismic stratigraphy, and fluid response from AVO, calibrated with existing geological and hydrocarbon data. Their method enables the identification of exploration leads in a consistent manner, reconciling the geological framework with seismic texture attributes and with AVO attributes for hydrocarbon mapping. The integrated workflow facilitates final interpretation of the sequence stratigraphic framework, depositional environment and ranking of the best prospects.
|2008||Joseph M. Hovadik||And co-author David K. Larue
For their paper 'Static characterisations of reservoirs: refining the concepts of connectivity', published in Petroleum Geoscience, Vol.13 No. 3.
This landmark paper illustrates the interaction between static 3d reservoir models and their dynamic fluid flow simulation, with particular emphasis on permeability variation and the concepts of connectivity and continuity. Key factors controlling reservoir connectivity are addressed, and new techniques are introduced to allow detailed characterisation of spatial variation of permeability within the reservoir. These innovative concepts integrate into the simulation model, and have associated implications for sweep efficiency and reservoir performance.
|2007||Anders Draege||And co-authors Tor Arne Johansen, Ivar Brevik and Camilla Draege
For their paper 'A Strategy for Modelling the Diagenetic Evolution of Seismic Properties in Sandstones', published in Petroleum Geoscience, Vol. 12, No. 4.
The authors have presented innovative ways of incorporating geological and geochemical processes and implementing mineralogical reactions in rock physics modeling. The approach consists of a new interdisciplinary workflow: advanced geological modeling of mineralogy and porosity evaluation, followed by rock physics modeling of seismic properties that have been affected by diagenesis. The strategy presented can be treated as a new tool for exploration purposes, particularly for subsurface saturation, lithology and porosity prediction.
|2006||Andreas Bosold||And co-authors Werner Schwarzhans, Ali Ashgar Julapour, Ali Reza Ashrafzadeh and Mohammed Hossein Ehsani
For their paper 'The Structural Geology of the High Central Zagros revisited (Iran)', published in Petroleum Geoscience, Vol. 11 No.3. This is a multi-disciplinary study in classically thorough exploration style that examines the complex structure, geology and petroleum potential of this under explored area. Surface geological mapping is integrated with the limited well and seismic data available and is combined with recent satellite data, aeromagnetic, gravimetric and magnetotelluric data to generate useful petroleum play concepts. The work is of a particularly high standard and represents a valuable pioneering step in assessing the petroleum possibilities in this challenging area. Totally aside from its excellence as an achievement, the work is also a tribute to Norman Falcon for whom the Zagros Mountains region had claimed the biggest share of his geological activity and technical focus.
|2005||Ane E. Lothe||And co-authors H. Borge and Roy H. Gabrielsen
For their paper 'Modelling of hydraulic leakage by pressure and stress simulations and implications for Biot’s constant: an example from the Halten Terrace, offshore Mid-Norway', published in Petroleum Geoscience Vol.10, No.3, 2004. This is an integrated study that focuses on geomechanical modelling methodology. By means of a combination of simulation and subsequent verification against real pressure data within an overpressured petroleum basin, the authors have ably and effectively dealt with the complicated problem of predicting hydraulic fracturing and leakage over a geological time scale.
|2004||Livio Ruvo||And co-authors Andrea Aldegheri, Roberto Galimberti, Elena Nembrini, Lucia Rossi and Roberto Ruspi
For their paper entitled 'Multi-disciplinary study of the heavy-oil reservoirs in the Armatella Field, Sicily', published in Petroleum Geoscience, Vol. 9, No. 3. This highly integrated reservoir study - based on laboratory fluid characterisation and being geologically constrained according to the structural evolution of SE Sicily - allowed a correct assessment of the reservoir geometry and of the field production behaviour. Using state-of-the-art methods for analysing the reservoir fracture network and properly designed modules for simulating non-conventional completions in a 3D dynamic model, it resulted into optimised drilling for draining undeveloped reserves.
|2003||Wayne R. Bailey||And co-authors Tom Manzocchi, John J. Walsh, K. Keogh D. Hodgetts, J. Rippon, Phillips A.R. Nell, S. Flint and Julian Strand
For their paper entitled 'The effects of faults on the 3D connectivity of reservoir bodies : a case study from the East Pennine Coalfield, UK', published in Petroleum Geoscience, Volume 8, Number 3. On the basis of an exceptionally well-documented 3D block of the delta/fluvial reservoirs, the authors demonstrate the dependence of connectivity on the resolution of the fault pattern and how small faults can significantly increase connectivity.
|2002||C. Bates||And co-authors D.R. Phillips, R. Grimm and H. Lynn
For their paper entitled 'The Seismic Evaluation of a Naturally Fractured Tight Gas Sand Reservoir in the Wind River Basin, Wyoming', published in Petroleum Geoscience volume 7, number 1 (February 2001).
|2001*||O.V. Vejbk||And co-author L. Kristensen
For their paper 'Downflank Hydrocarbon Potential Identified Using Seismic Inversion and Geostatistics: Upper Maastrichtian Reservoir Unit, Dan field, Danish Central Graben', published in Petroleum Geoscience in February 2000.
* As from June 2001, all award titles will refer to the year in which they are presented to the winners, and no longer to the year in which the winning poster/paper was presented or published.
|2000||No recipient selected|
|1999||M. Landrø||And co-authors O.A. Solheim, E. Hilde, B.O. Ekren and L.K. Strønen
For their paper 'The Gullfaks 4D Seismic Study', published in issue 5 of Petroleum Geoscience in 1999.
Ludger Mintrop Award
Award for Best Paper in Near Surface Geophysics
The Ludger Mintrop Award is presented to the author(s) of the best paper published in Near Surface Geophysics in the calendar year preceding the award. The paper should be of high scientific standard and should represent a significant contribution to one or more of the disciplines in our Association.
Between 1997 and 2002, the Ludger Mintrop Award referred to the Best Oral Presentation Award of the Geophysical Division.
The Ludger Mintrop Award 2020 was presented to:
And co-authors Esther van Baaren, Willem Dabekaussen, Joost Delsman, Wim Dubelaar, and Marios Karaoulis, Annika Steuer
For their paper “Automatic identification of fresh-saline groundwater interfaces from airborne electromagnetic data in Zeeland, the Netherlands“, published in Near Surface Geophysics, Vol 17, February 2019.
Past Winners of the Ludger Mintrop Award
|2019||Gianluca Fiandaca||And co-authors Line Meldgaard Madsen and Pradip Kumar Maurya
For their paper 'Re-parametrizations of the Cole-Cole Model for improved spectral inversion of induced polarization data', published in Near Surface Geophysics, Vol 16, No.4, August 2018.
This work involves a solid theoretical development, proposing three ways of re-parameterising the classic Cole–Cole model used in the inversion of induced polarization (IP) data for subsurface electrical conductivities. The effects of the three re-parameterisations are tested on synthetic time-domain and frequency-domain data using a Markov chain Monte Carlo inversion method, which allows for easy quantification of parameter uncertainty, and on field data using 2D gradient-based inversion. In all three re-parameterisations, the model parameters are less correlated with each other and consequently better resolved than with the classic Cole-Cole model, especially where the data have low signal-to-noise ratio, both for time-domain and frequency-domain IP data. In general, this leads to a significantly greater depth of investigation than the classic Cole-Cole, parameterisation, as shown with the field example. Overall, the proposed method can contribute to narrow the gap among IP theory, laboratory findings, and field applications.
|2018||Matthias Bucker||And co-authors Adrian Flores Orozco, Andreas Hordt and Andreas Kemna
For their paper 'An analytical membrane-polarization model to predict the complex conductivity signature of immiscible liquid hydrocarbon contaminants', published in Near Surface Geophysics, Volume 15, issue 6, December 2017, pp 547 - 562.
Induced polarization measurements are often made to detect contaminating hydrocarbons in soils. This excellent paper presents a method for modelling the effect of liquid hydrocarbon in sediment pore space on membrane polarization, and the consequent effect on frequency-dependent induced polarization measurements. An analytical model of the pore fluids as a sequence of electrically polarized cylinders of different lengths and radii is extended by adding an additional cylinder torepresent the contaminating hydrocarbons. The results predict that conductivity magnitude and conductivity phase generally decrease with hydrocarbon saturation. The model suggests that the explanation for an observed slight increase in complex conductivity at intermediate hydrocarbon concentrations may be that the potential at the surface of non-wetting hydrocarbon droplets is larger than that at the pore wall.
|2017||Sven Nordsiek||And co-authors E. Diamantopoulos, A. Hordt and W. Durner
For their paper 'Relationships between soil hydraulic parameters and induced polarization spectra', published in Near Surface Geophysics, volume 14, issue 1, February 2016, pp. 23-37.
Few geophysical methods have a clear relationship with near-surface hydraulic properties but spectral induced polarization (SIP) is increasingly used to characterize fluid flow and transport with applications in groundwater and environmental studies. This paper reports excellent SIP laboratory work to develop theoretically founded empirical relations between hydraulic properties and frequency-dependent complex impedance. These relationships are vital to interpret SIP data in hydrogeological studies and a key aspect of the present work is a sample-holder that retains the structure of unconsolidated samples in both SIP and hydraulic measurements. Thirteen samples of eight sediments with varying salinities were analysed over a frequency range from 10 mHz to 100 Hz and the results, with corresponding uncertainties, were clearly discussed. While future studies at higher frequencies often used in field measurements would be welcomed, this paper has significant impact in this important area of SIP research.
|2016||Derecke Palmer||For his paper 'Is accuracy more important than precision in near-surface refraction seismology?', published in Near Surface Geophysics, volume 13, issue 1, February 2015, pp. 1–18.
Derecke Palmer identifies the very real issue in near-surface refraction seismology of confusing model validity (accuracy) with traveltime misfit (precision), which is critically important in tomographic methods with their attendant risk of focusing purely on traveltime misfit. Furthermore, the ubiquity of non-uniqueness in refraction seismology underscores the importance of validating the starting model and not relying on a 1D velocity gradient coupled with the computing power of automated tomographic updates. As the creator of the generalised reciprocal method, Palmer provides an authoritative and insightful analysis, in which he presents a strategy to estimate model validity and the end-members of the family of data-consistent velocity models, and offers detailed examples with clear demonstrations.
|2015||Meng Heng Loke||And co-authors Torleif Dahlin and Dale F. Rucker
For their paper 'Smoothness-constrained time-lapse inversion of data from 3D resistivity surveys', published in Near Surface Geophysics, volume 12, issue 1, February 2014, pp. 5–24.
Rainwater infiltration through landfill sites presents a situation in which the distribution of groundwater fluids and pollutants are changing in both space and time. Time-lapse 3D (4D) geoelectric surveys are increasingly being used to monitor such sites and this paper describes both theory and an inversion workflow that simultaneously inverts the 4D data using a least squares (L2) approach. Roughness filters, using both L1 and L2 norms, are incorporated to smooth the modelled resistivity distributions in both spatial and temporal domains. The filters and the workflow are tested first on synthetic data to analyse the trade-off between noise robustness and resolution, and then on two real data sets with outstanding results. The authors provide solid guidance to practising geophysicists on 4D geoelectrical inversion processing in the presence of noise, which is likely to have a significant impact on near-surface monitoring in heterogeneous environments.
|2014||Carlotta Ferrara||And co-authors V. Di Tullio, Pier Matteo Barone, Elisabetta Mattei, Sebastian Emanuel Lauro, N. Proietti, D. Capitani and Elena Pettinelli
For their paper 'Comparison of GPR and unilateral NMR for water content measurements in a laboratory scale experiment', published in Near Surface Geophysics, volume 11, issue 2, April 2013, pp. 143-153.
The coupling of ground probing radar (GPR) is affected strongly by water saturation in the near surface; a property that itself is of interest in geotechnical investigations. In this experimental account, the authors use the early-time GPR signal, which carries information from both air wave and direct body wave, to map the spatial variation of water saturation in a concrete slab through its effect on dielectric properties in the top few centimetres of the slab. The controlled variation of saturation was monitored by using a portable unilateral nuclear magnetic resonance (NMR) sensor with a similar depth of investigation. The results show a very high degree of linear correlation between the GPR and NMR signals, which is proportional to proton density, i.e., to the water content. This elegant experiment supports the novel concept of a fast, high-resolution tool for mapping relative changes in water content in a porous material at shallow depth, and suggests an independent calibration procedure to obtain absolute saturations.
|2013||Stewart Greenhalgh||And co-authors Xu Liu and Bing Zhou
For their paper entitled 'Velocity and attenuation dispersion relations for the effective Biot model: total-field formulation', published in Near Surface Geophysics, volume 10, issue 3, June 2012, pp. 197–206.
In this paper, two approaches – the host phase fields and the total fields – were applied to formulate effective Biot governing equations from an original double-porosity dual-permeability model. The previously published host-phase formulation assumes that the macroscopic fluid flux of the included phase is zero, so that this term can be ignored in the equation governing conservation of momentum. The total-field formulation developed here has no such limiting assumption and gives rise to new and more general governing equations that cover the host-field approach as a special case. By computing the phase velocity and attenuation-dispersion curves of sample rocks, the authors show that the two sets of governing equations are consistent at very low frequency but for larger volume fractions of the included phase, there is a significantly increasing discrepancy in the slow P-wave as frequency increases. The slow P-wave, whilst difficult to observe, does exist and must be considered when computing the frequency-dependent reflection coefficients at an interface with a porous medium.
|2012||La Hamimu||And co-authors Jamhir Safani and Mohd Nawawi
For their paper entitled 'Improving the accurate assessment of a shear-wave velocity reversal profile using joint inversion of the effective Rayleigh wave and multimode Love wave dispersion curves', published in Near Surface Geophysics, volume 9, no. 1, February 2011, pp. 1–14.
This paper presents newly developed joint inversion codes of the effective Rayleigh wave and multimode Love wave dispersion curves based on modified genetic algorithms. To assess the accuracy of each inversion approach, differences between the true and the inverted shear-wave velocity profile are quantified in terms of shear-wave velocity errors. The field example shown underlines the usefulness of the approach with an added benefit for exploration in terms of improved certainty.
|2011||Franz Königer||And co-authors G. Schmitt, R. Schuhmann and C. Kottmeier
For their paper entitled 'Free Line Sensing, a new method for soil moisture measurements using high-voltage power lines', published in Near Surface Geophysics, Vol. 8, pp. 151-161.
The new 'Free Line Sensing' technology uses existing high-voltage power lines to detect variations in soil moisture. Measurement data demonstrate the capability of the method to monitor the integrated soil moisture of the subsurface. The resulting signal of the 'Free Line Sensor' strongly responds to precipitation events and the following drying of the soil. The method is of outstanding originality and shows new ways in using widespread electromagnetic fields, which are noise for other conventional methods. They are used for mapping soil moisture and are likely to be used widely.
|2010||Alexandre Bolève||And co-authors Andre Revil, J. Janod, Jean Luc Mattiuzzo and J.-J. Fry
For their paper 'Preferential fluid flow pathways in embankment dams imaged by self-potential tomography', published in Near Surface Geophysics, 7, pp. 447-462.
The new method presented can handle the non-unique solutions inherent to SP-tomography and can incorporate additional constraints. It overcomes the limitations of qualitative interpretation usual encountered. Sophisticated quantitative modelling jointly with other geo-electrical methods opens up the high potential of a simple tool, neglected for a long time in the geophysical community.
|2009||Nigel Cassidy||For his paper 'Frequency-dependent attenuation and velocity characteristics of nano-to-micro scale, lossy, magnetite-rich materials', published in Near Surface Geophysics, Vol. 6.
The paper reports the investigation of apparent complex permittivity, attenuation and propagation characteristics of a range of nano-to-micro scale quartz/magnetite mixtures, with the aim of determining how lossy magnetic minerals affect the propagation of ground-penetrating radar waves in the near-surface environment. This paper improves our understanding and use of georadar in exploration by recognising the distributions and using them to derive additional information.
|2008||Rita Deiana||And co-authors Giorgio Cassiani, Andreas Kemna, Alberto Villa, Vittorio Bruno and Andrea Bagliani
For their paper 'An experiment of non-invasive characterization of the vadose zone via water injection and cross-hole timelapse geophysical monitoring', published in Near Surface Geophysics, Vol. 5, No 3.
An important objective of near surface geophysics is the quantitative description of (substantial) processes taking place in the subsurface. The combination of recurring high-resolution geophysical measurements and numeric modelling realized in this paper is a large step towards this goal. The presented results allow better understanding of the migration of fluids in the vadose zone.
|2007||Gilles Grandjean||For his paper 'Imaging subsurface by seismic P-wave tomography: numerical and experimental validations', published in Near Surface Geophysics, Vol. 4, No 5. The paper presents a method of P-wave seismic imaging based on traveltime tomography and Kirchoff migration. The method uses Fresnel wave-paths, appropriate migration and filtering to improve the imaging quality in high-contrast media. The paper shows these techniques in action on synthetic data and with a specifically designed experiment. The new approach significantly improves seismic imaging, particularly in the near surface.|
|2006||Roger Wisén||And co-authors Esben Auken and Torleif Dahlin
For their paper 'Combination of 1D laterally constrained inversion and 2D smooth inversion of resistivity data with a priori data from boreholes', published in Near Surface Geophysics, Vol. 3, No. 2. The authors show that the combination of 1D laterally constrained inversion and 2D smooth inversion with the use of a priori information from borehole data adds significant value to the interpretation of continuous vertical electrical sounding data. The approach to the inversion of merged data represents an especially significant achievement that should also prove valuable for the inversion of geophysical data in general.
|2005||Odile Abraham||And co-authors Rabih Chammas, Philippe Cote, Helle Pedersen and Jean-François Semblat
For their paper 'Mechanical characterisation of heterogeneous soils with surface waves: experimental validation on reduced scale physical models', published in Near Surface Geophysics, Vol. 2, No. 4, 249-258. The paper demonstrates very convincingly that seismic surface waves can be used to investigate strongly heterogeneous media in geo-engineering applications. It shows that the mechanical characteristics obtained from numerical propagation of surface waves in a heterogeneous medium coincide well with those predicted by a multiple scattering homogenisation technique, a conclusion validated experimentally on models. For that, the paper represents an important contribution to our further understanding of seismic surface waves and to improved application of the corresponding techniques.
|2004||Colette Gregoire||And her co-authors Lucien Halleux and Volker Lukas
For their paper entitled 'GPR abilities for the detection and characterisation of open fractures in a salt mine', published in Near Surface Geophysics, Vol. 1, No. 3. The paper provides the first reliable quantification of fracture assessment with Ground Penetrating Radar. Studies with in situ measurements, including borehole verification, are combined with synthetic data to allow the determination of fracture geometry, an inversion scheme yielding direct estimates of the openings. The work provides valuable insight into the capabilities and limitations of georadar for fracture detection and is highly relevant to the study of rock stability and tightness.
Robert Mitchum Award
Award for Best Paper in Basin Research
The Robert Mitchum Award is to be presented to the author(s) of the best paper published in Basin Research in the calendar year preceding the award. The paper must be of high scientific standard and should represent a significant contribution to one or more of the disciplines represented by that journal. The Robert Mitchum Award will consist of a certificate and a specially bound copy of the issue in which the pertinent paper appears.
The Robert Mitchum Award 2020 was presented to:
And co-authors Peter M. Burgess, Didier Granjeon, and Ronald Steel
For their paper “Can sediment supply variations create sequences? Insights from stratigraphic forward modelling“, published in Basin Research, Vol 31, April 2019.
Past Winners of the Robert Mitchum Award
|2019||Christopher Kirkham||And co-authors Joseph Cartwright, Christian Hermanrud and Christopher Jebsen
For their paper 'The genesis of mud volcano conduits through thick evaporite sequences', published in Basin Research, Vol 30, No 2, April 2018.
This novel study used high-resolution 3D seismic response and subsurface geometries for apparent mud volcano conduits (MVCs) in offshore Egypt to substantiate the potential for migration of fluids through thick sequences of otherwise impermeable evaporites. Interpretation of MVCs is complex because of imaging artefacts and abrupt lateral velocity changes. The traditional explanation for migration of sub-salt fluids into the post-salt section requires 'windows' in the salt layer caused by salt mobility. The authors carefully screened seismic data for 386 mud volcanoes in the study area to define 93 cases of data acceptable for interpretation. The data show that MVCs can be reliably identified and are likely rooted within the Pre-Salt sequence. The authors propose a detailed model for MVC formation, which includes rapid loading during evaporite deposition, undercompaction, and significant overpressure development in the Pre-Salt. The results (1) demonstrate the potential for petroleum and other fluids to penetrate >1-km-thick sealing evaporites, (2) are broadly applicable to many other salt basins worldwide, and (3) have far-reaching implications for petroleum exploration, sequestration of carbon dioxide, and disposal of nuclear waste.
|2018||Paul Green||And co-authors Ian R. Duddy, Peter Japsen, Johan M. Bonow and Jean A. Malan
For their paper 'Post-breakup burial and exhumation of the southern margin of Africa' published in Basin Research, volume 29, issue 1, pp 96–127.
This excellent paper presents the use of apatite fission track analysis and vitrinite reflectance data from outcrop samples to document five major cooling episodes that affected the southern margin of Africa, all of which are interpreted as dominantly reflecting exhumation. Erosion time in the hinterland is synchronous with canyon incisions and thick deposition of sediments offshore. The Late Cretaceous exhumation and regional cooling is a major event. Such phenomena are described at the same period in other locations (West African margin - Equatorial Guinea, Namibia, Atlantic margin of Brazil), suggesting plate scale processes and the need to rethink models of post-rift development of continental margins. The paper is extensively documented, with many references and rigorous analysis of data. Hypotheses and uncertainties are clearly stated. The presentation is excellent.
|2017||Francisco Pángaro||And co-authors V. A. Ramos and P. J. Pazos
For their paper 'The Hesperides basin: a continental-scale upper Palaeozoic to Triassic basin in southern Gondwana', published in Basin Research, volume 28, issue 3, October 2016, pp. 685-711.
Francisco Pángaro and co-authors present a very comprehensive integration of 2D regional seismic lines, well-logs, cores, cuttings and biostratigraphic data, together with previously published interpretations covering neighbouring basins and structures in South America and southern Africa, to identify a new basin, the Hesperides, and to place it in the spatio-temporal evolution of SW Gondwana. The basin fills a gap of some 250,000 sq.km. in the previously uninterpreted Argentinian continental shelf and enables the integration of upper Palaeozoic to lower Triassic basins of SW Gondwana. Even though only two wells penetrate substantial thickness of Palaeozoic rocks, the remarkable continuity of the Palaeozoic record confers high confidence in the interpretation. The paper is outstanding in its scope and detail and forms a fundamental addition to the Gondwana story, with potentially long-term implications for both academic and industry geoscientists.
|2016||Cari L. Johnson||And co-authors Kurt C. Constenius, Stephan A. Graham, Glen Mackey, Tess Menotti, Andrew Payton and Justin Tully
For their paper 'Subsurface evidence for late Mesozoic extension in western Mongolia: tectonic and petroleum systems implications', published in Basin Research, volume 27, issue 3, June 2015, pp. 272–294.
Based on a synthesis of new 2D seismic reflection and refraction data, extensive whole core analysis and recent outcrop studies, Johnson et al. infer a westward continuation of the late Mesozoic extensional province of eastern Mongolia and China into the Gobi-Altai region of western Mongolia. They identify two phases of sinistral strike-slip faulting in the Tugrug basin: a Late Jurassic transtensional phase created accommodation space for a sequence of mainly lacustrine deposits that remain largely preserved despite a Neogene transpressional phase that resulted in structural inversion of parts of the basin. In this wide-ranging study that includes zircon dating, fluid inclusion and source rock analysis, the authors conclude that there is an active petroleum system within the Tugrug basin with the potential to hold hydrocarbons in conventional or unconventional reservoirs. This thorough and comprehensive analysis sheds new light on the prospectivity of Mesozoic basins in western Mongolia.
|2015||James Pindell||And co-authors Rodney Graham and Brian Horn
For their paper 'Rapid outer marginal collapse at the rift to drift transition of passive margin evolution, with a Gulf of Mexico case study', published in Basin Research, volume 26, issue 6, December 2014, pp. 701–725.
From seismic analysis of many magmatic and non-magmatic passive margins around the globe, Pindell et al. recognise a phase of rapid outer margin collapse and basinward rotation as an additional stage between the rift and drift stages of margin formation. Outer marginal collapse accords with the exhumation stage of other authors; it encompasses all the processes that form continent-ocean transition zones and probably takes place within 3 Ma. This paper describes the impact of such collapse, with varying styles of magma supply and salt, on accommodation space and subsequent sedimentary deposition. The authors then apply their observations to a case study from the eastern margin of the Gulf of Mexico. The paper uses excellent seismic data to support the authors' interpretations, which provide further insights into the styles of development of passive marginal basins, with potential benefit to both academia and industry.
|2014||István Csató||And co-authors Didier Granjeon, Octavian Catuneanu and Gerald R. Baum
For their paper 'A three-dimensional stratigraphic model for the Messinian crisis in the Pannonian Basin, eastern Hungary', published in Basin Research, volume 25, issue 2, April 2013, pp. 121-148.
This paper combines high quality seismic data and excellent stratigraphic forward modelling to simulate the basin-fill history of the Pannonian Basin. Using the seismic data as constraints, the authors test possible tectonic scenarios by quantifying vertical movements, sediment supply, lake-level changes and transport mechanisms for each scenario. They conclude that the Messinian unconformity in the Pannonian Basin was caused by an absolute drop in water level, probably linked to the desiccation of the Mediterranean, followed by subsidence and regression in the basin centre with tectonic inversion and uplift along the basin margins. The authors discuss the important implications for hydrocarbon exploration by identifying turbidite facies in the bottomsets of the lowstand systems tracts.
|2013||François Guillocheau||And co-authors Delphine Rouby, Cécile Robin, Catherine Helm, Nicolas Rolland, Christian Le Carier de Veslud and Jean Braun
For their paper entitled 'Quantification and causes of the terrigenous sediment budget at the scale of a continental margin: a new method applied to the Namibia-South Africa margin', published in Basin Research, volume 24, issue 1, February 2012, pp. 3–30.
A new method is presented by the authors for estimating, in three dimensions with uncertainties, the history and volume of sediment accumulation at the entire basin scale, from upstream continental onlap to the most distal deep marine deposits. Having developed the method based on regional 2D cross-sections, available in most basins worldwide, the authors apply the technique to quantify the sediment accumulation volume history along the Namibia-South Africa margin. They identify a number of significant variations in accumulation volumes and rates and relate these to changes in relief, deformation and climate. By linking the spatio-temporal evolution of porosity with regional thermochronology, the new method can help to identify prospective areas of hydrocarbon maturity. Because the approach is relatively easy to implement in a variety of basin settings, it is very likely to benefit the practising explorationist.
|2012||Sverre Henriksen||And co-authors William Helland-Hansen and Scott Bullimore
For their paper entitled 'Relationships between shelf-edge trajectories and sediment dispersal along depositional dip and strike: a different approach to sequence stratigraphy', published in Basin Research, volume 23, issue 1, February 2011, pp. 3–21.
The authors use an extensive set of high quality seismic data over progradational successions at several locations along the Atlantic margin to develop and illustrate the concept of shelf-edge trajectory (i.e., the locus of the palaeo shelf break and how it migrates with time) and its impact on sedimentation patterns. The authors use plentiful examples from interpreted seismic data to support their assertion of a systematic and predictive relationship between shelf-edge trajectories and the occurrence of sand-rich environments at specific locations along the depositional profile. They show how the trajectory can rise, fall or remain flat, depending on sediment input, accommodation space and water depth.
While the concept of trajectories is not original, the authors apply it in a number of different geological cases and take the idea to a new level. It is also appropriate that the first paper to receive the EAGE Mitchum award should deal with seismic sequence stratigraphy, of which Robert Mitchum was one of the earliest exponents and whose 1977 paper with Vail and Thompson is the first citation therein.
Guido Bonarelli Award
Award for Best Oral Presentation
The Guido Bonarelli Award is presented in recognition of the best oral presentation at the EAGE Annual Conference in the calendar year preceding the Award. The paper presented should be of high scientific standard and should represent a significant contribution to one or more of the disciplines in our Association. The nomination should also take account of the skills of the presenter and the clarity of the audio/visual aids of the presenter. The Award incorporates the Distinguishes Lecturer Award established in 1989. The name Guido Bonarelli Award was established in 1999 and, between 1999 and 2002, referred to the Best Oral Presentation Award of the Petroleum Division only.
The Guido Bonarelli Award 2020 was presented to:
Erik F. M. Koene
And co-authors Jens Wittsten, Johan O. A. Robertsson, and Fredrik Andersson
For the oral paper “Eliminating Time Dispersion from Visco-Elastic Simulations with Memory Variables“, presented at the 81st EAGE Conference & Exhibition, London 2019.
Past Winners of the Guido Bonarelli Award
|2019||Volker Oye||And co-authors Sergei Stanchits, Nicholas Seprodi, Pierre Cerasi, Anna Magdalena Stroisz and Robert Bauer
For the oral paper 'Dynamics of stick-slip sliding induced by fluid injection in large sandstone block', presented at the 80th EAGE Conference & Exhibition, Copenhagen 2018.
Injection of waste water underground can induce slip on critically-stressed faults, releasing stress built-up over many years and causing earthquakes. A similar problem might occur with the underground sequestration of carbon dioxide. In research supported by the U.S. Department of Energy, the authors designed a laboratory experiment to investigate this phenomenon, in which fluid injections close to an artificial interface of about 1 m length in a sandstone block were observed to induce sliding. Their presentation of the experimental setup and analysis of the resulting acoustic emission (AE) data is very clear. Analysis of the spatial distribution of the AE energy revealed the dynamics of stick-slip, indicating a nucleation phase of the sliding, then propagation of the rupture through the whole interface with an average rupture velocity of a few m/s. The speed and energy radiated during this event were approximately six orders of magnitude larger than observed during quasi-static sliding preceding the stick-slip. They conclude that the observed stick-slip motion is a laboratory analogue to earthquakes, and its occurrence can be related to the injection of fluids.
|2018||Maksym Kryvohuz||For the oral paper 'Source-side Up-down Wavefield Separation Using Dual NFHs', presented at the 79th EAGE Conference and Exhibition 2017, Paris, 12-15 June, Extended Abstracts, Tu A4 06.
The authors of this very clear paper present a method to eliminate sea-surface reflections from nearfield hydrophone measurements using additional near-field hydrophones. The far-field signature of an airgun array may then be calculated on a shot-by-shot basis from the near-field hydrophone measurements without corruption from sea-surface reflections. The method was demonstrated on synthetic and real data. Elimination of the source-side sea-surface reflections extends the bandwidth of the seismic reflection data, which is especially important at low frequencies.
|2017||Michele De Stefano||For his oral paper 'Simulating geophysical models through fractal algorithms', presented at the 78th EAGE Conference & Exhibition, Vienna, 30 May - 2 June 2016, Extended Abstract We SBT4 12.
From the computer-graphics industry De Stefano borrows the diamond-square algorithm, which has its roots in fractional Brownian motion, and which can be used for efficient, low-cost generation of randomised realisations of 2D and 3D geophysical models. The realisations are produced by iterated interpolation steps, alternating between nested square and diamond meshes and using additive white Gaussian noise and an appropriate Hurst exponent, to generate random values at an appropriate scale. The output realisations respect the original starting seed values. While this paper presents work in progress, it is both innovative and promising in its potential benefits to uncertainty simulation, and to interpolation and upscaling within modelling and inversion algorithms.
|2016||Joe Zhou||And co-authors Peter Chia, Jingyu Li, Henry Ng, Sergey Birdus, Keat Huat Teng, Ying Peng Phan, Jason Sun and He Yi
For their oral paper 'Unlocking the full potential of broadband data with advanced processing technology, a case study from NWS Australia', presented at the 77th EAGE Conference & Exhibition, Madrid, 1-4 June 2015, Extended Abstract We N103 13.
In this high-impact oral paper, Zhou et al. describe a broadband seismic case study from the Australian Northwest Shelf in which a combination of a twindepth airgun source array and twelve, 6-km slanted-depth cables were used to acquire a data set in which both the source and receiver ghost notches were substantially removed. The paper compares the performance of three methods of source signature estimation as well as two approaches to receiver deghosting. De-signature from near-field hydrophones proved most effective, while a method using sparse inversion in the 3D-Radon transform domain gave good 3D deghosting at the receivers. With a 3D attenuation-tomography method to estimate and compensate for Q, the authors show broad-band data that are almost flat to 160 Hz in the shallow section and that display excellent visual resolution in the deeper section.
|2015||Mike Warner||And co-author Lluis Guasch
For their oral paper 'Adaptive waveform inversion – FWI without cycle skipping – theory', presented at the 76th EAGE Conference & Exhibition, Amsterdam, 16-19 June 2014.
In this first of two, innovative, companion papers, Warner and Guasch reformulate the conventional full-waveform inversion (FWI) algorithm so that it adapts predicted data to observed data using Wiener filters and then iterates the model by forcing the Wiener filters towards zero-lag delta functions. The authors show their adaptive FWI scheme to be immune to cycle skipping, a key issue in waveform inversion, and to invert, successfully, data for which conventional FWI fails entirely. Being robust to cycle-skipping, the new method does not require iteration from low-frequency components in the data or a highly accurate starting model. Adaptive FWI has some features in common with wave-equation migration velocity analysis (WEMVA) but it is applicable to all arrivals, including multiples and refractions, and does not incur the high-computational costs of 3D WEMVA.
|2014||Kanglin Wang||And co-authors Paul J. Hatchell, Carsten Udengaard, Ken Craft and Shaun Dunn
For their oral paper 'Water velocity and tide measurement in marine seismic acquisition', presented at the 75th EAGE Annual Conference & Exhibition, London, 10-13 June 2013.
Spatial and temporal variations in water velocity and tides significantly impact the non-repeatability of marine time-lapse seismic data, and adversely affect the quality of 4D data processing. To reduce such variations the authors have developed a seafloor device called Pressure Inverted Echo Sounder (PIES) that provides direct measurements of water velocity and tides during seismic data acquisition. Placing PIES units at multiple locations enables determination of lateral and vertical water velocity profiles. A recent field trial conducted during a 4-month ocean bottom nodes survey demonstrated that PIES provides continuous measurements of average water velocities and tides, which are consistent with temperature-pressure-conductivity measurements and oceanographic data from nearby stations.
|2013||Lars Wensaas||And co-authors Marita Gading and Helge Løseth
For their oral paper entitled 'Exploratory Approach to Fractured Reservoir – A Case Study in a Brazilian Field', presented at the 73rd EAGE Annual Conference, Vienna, 23–26 May 2011.
This fracture analysis of non-conventional reservoirs was conducted during the exploration phase of a fractured Albian carbonate oilfield, located in the Campos Basin, in the eastern Brazilian continental margin, using a limited number of wells. The study aimed at understanding the lithological, diagenetic and mechanical controls of fracture distribution and their relationship with faults and salt domes mapped on seismic data. Geometric and kinematic analyses, in addition to structural evolution work carried on during this study, were fundamental to establishing the correlation between fracturing and regional deformation. The importance of a conceptual structural geologic model, especially in cases where it is not possible to perform a 3D numerical model of fractures is highlighted in this work.
|2012||Raphael S. Hatushika||And co-author Cláudia Lima de Queiroz
For their oral paper entitled 'Exploratory Approach to Fractured Reservoir – A Case Study in a Brazilian Field', presented at the 73rd EAGE Annual Conference, Vienna, 23–26 May 2011.
This fracture analysis of non-conventional reservoirs was conducted during the exploration phase of a fractured Albian carbonate oilfield, located in the Campos Basin, in the eastern Brazilian continental margin, using a limited number of wells. The study aimed at understanding the lithological, diagenetic and mechanical controls of fracture distribution and their relationship with faults and salt domes mapped on seismic data. Geometric and kinematic analyses, in addition to structural evolution work carried on during this study, were fundamental to establishing the correlation between fracturing and regional deformation. The importance of a conceptual structural geologic model, especially in cases where it is not possible to perform a 3D numerical model of fractures is highlighted in this work.
|2011||D.E. Bird||And co-author S.A. Hall
For their oral paper entitled 'South Atlantic Kinematics and The Evolution of Tristan da Cuhna Hotspot Tracks', presented at the 72nd EAGE Annual Conference, Barcelona, June 2010.
The authors documented the relationship between the formation of the Tristan da Cuhna hotspot tracks and the opening of the South Atlantic Ocean basin, particularly as continental extension ended
and oceanic crust began to form. The presentation could help us understand the role of magma sources and crustal evolution. The authors examined seafloor spreading magnetic anomaly profiles and
calculated new reconstruction poles for the South American and African plates and then used the results of a basin-scale 3D density inversion to compare the evolution of the Rio Grande Rise and Walvis Ridge hotspot tracks from ~130 Ma to 10 Ma.
|2010||Laurent Sirgue||And co-authors Olav I. Barkved, Jean-Paul van Gestel, Ole Joran Askim and Jan Henrik Kommedal
For their oral paper entitled '3D Waveform Inversion on Valhall Wide-azimuth OBC', presented at the 71st EAGE Annual Conference, Amsterdam, June 2009
The authors used full waveform inversion of wide azimuth field data from the Valhall Field and were able to extract much higher resolution velocity models than was previously possible. This greatly improves the quality of depth migration, and is itself a valuable interpretation attribute. The paper was judged to be a break-through.
|2009||Michael Warner||And co-authors Ivan Stekl and Adrian Umpleby
For their oral paper entitled 'Efficient and Effective 3D Wavefield Tomography', presented at the 70th EAGE Annual Conference, Rome, June 2008. The authors demonstrate 3D wavefield tomography applied to surface-streamer seismic data and obtain a result which appears to remove the distorting effects of shallow high-velocity channels. The methodology is of wide general applicability and the paper was judged to be a break-through.
|2008||Erik Monsen||And co-authors Hilde Borgos, Pierre Le Guern and Lars Sonneland
For their oral presentation entitled 'Geological Process Controlled Interpretation Based on 3D Wheeler Diagram Generation', presented at the 69th EAGE Conference & Exhibition in London, UK, 11 to 14 June 2007.
The authors describe the automatic generation of interactive 3D Wheeler diagrams to capture the geological context and integrate it into 3D seismic interpretation. The work has been judged to represent a major breakthrough.
|2007||Yu Zhang||And co-authors Sheng Xu and Guanquan Zhang
For their oral presentation entitled 'Imaging Complex Salt Bodies with Turning-Wave One-Way Wave Equation Migration', presented at the 68th EAGE Conference & Exhibition in Vienna, Austria, 12 to 15 June 2006. The authors presented a modified version of the one-way wave equation migration that can propagate wavefields to any possible direction, with true amplitude corrections. This enabled properly imaging of turning waves and hence the imaging of complex salt structures. The work has been judged to represent a major breakthrough.
|2006||Karel Maron||And co-authors Stephen Bourne, Krijn Wit and Peter McGillivray
For their oral presentation entitled 'Integrated reservoir surveillance of a heavy oil field in Peace River, Canada', presented at the 67th EAGE Conference in Madrid, Spain, 13 to 16 June 2005. Through an extensive reservoir-surveillance programme involving seismic time-lapse, continuous microseismic and surface tilt meter data acquired over several years, the authors were able to advance the understanding of dynamic behaviour of a heavy oil reservoir produced by cyclic steam stimulation. The work led to significant production improvements and has been judged to represent a major breakthrough.
|2005||Yanghuah Wang||And co-author Michael Warner
For their oral presentation entitled 'Fully data-driven and robust techniques for seismic multiple attenuation', presented at the 66th EAGE Conference in Paris, France, 7 to 10 June 2004. The authors develop a data-driven concept for predicting multiples without explicit knowledge of surface and sub-surface structure or of the source signature, and a second robust concept for attenuating the predicted multiples without affecting the primaries.The combination of the two innovative concepts is demonstrated to work effectively, promising considerable potential for attenuation of multiple energy in both marine and land environments.The work has been judged to represent a major breakthrough.
|2004||Paul Hague||And co-authors Rob Staples, Toon Weisenborn and Peter Ashton
For their paper entitled '4D seismic for oil rim monitoring', presented at the 65th EAGE Conference in Stavanger, Norway, 2 to 5 June 2003. The authors use time-lapse seismic modelling and real data to unravel the complex and un intuitive response of a moving oil-gas-water triplet, enabling a significant addition to a field's recoverable reserves. This work has been judged to represent a major breakthrough.
|2003||C.K. Clausen||And co-authors Pascal R. Gauer, James E. Sylte and Laurent Boissé
For their paper entitled 'Building a geological model for a compacting reservoir', presented at the 64th EAGE Conference in Florence, Italy, 27 to 30 May 2002.
|2002||M. Bentley||And co-author M. Hartung
For their paper entitled 'A 4D Seismic Surprise at Gannet B and a Way Forward through Seismically-Constrained, Scenario Based Reservoir Modelling'.
|2002||E.K. Biegert||And co-authors Manik Talwani and Dirk Smit
For his presentation on 'Gravity gradients for de-risking prestack depth migration' at the 63rd EAGE Meeting in Amsterdam, 11-15 June 2001.
|2001*||R.L. Laws||And co-author E. Kragh
For their paper 'Rough seas and time-lapse seismic', presented at the 62nd EAGE Conference in Glasgow, Scotland, 29 May - 2 June 2000.
|2001*||J. Ashbridge||And co-authors C. Pryce, F. Coutel, M. Welch and M. Ashton
For their paper 'Fault and Fracture Prediction from Coherence Data Analysis, a Case Study – The Magnus Field, UKCS', presented at the 62nd EAGE Conference in Glasgow, Scotland, 29 May - 2 June 2000.
* As from June 2001, all award titles will refer to the year in which they are presented to the winners, and no longer to the year in which the winning poster/paper was presented.
|2000||No recipient selected|
|1999||H. Rognø||And co-authors K. Duffaut, A.-K. Furre and L.B. Kvamme
'Calibration of Time-lapse Seismic to Well and Production Data – Examples from the Statfjord Field'
|1999||K.A. Berteussen||And co-authors J. Langhammer, K. Andreassen, H.I. Sognness and K. Henneberg
For their paper 'Multi-component Sea-bottom Data in Gas Hydrate Exploration', presented at the 61st Conference in Helsinki, Finland, 7-11 June 1999.
|1998||G. Cambois||In recognition of his excellent presentation 'AVO Attributes and Noise-Pitfalls of Crossplotting', presented at the 6oth EAGE Conference in Leipzig, Germany, 8-12 June 1998.|
|1997||L.A. Thomsen||And co-authors O. I. Barkved, B. Haggard, J.H. Kommedal and B. Rosland
For their paper 'Converted-Wave Imaging of Valhall Reservoir', presented at the 59th EAGE Conference in Geneva, 27-30 May 1997.
|1997||J. Hesthammer||And co-author Haakon Fossen
'Scaling of Deformation Bands and Consequences for Fluid Flow in Sandstone Reservoirs'
|1996||M. Bentley||And co-authors D. Bertram, B. van de Leemput and R. Gelling
'Quantitative Management of Subsurface Uncertainty using Scenarios'
|1995||Ian R. Sharp||'The control of growth folds and transfer zones on syn-rift sequences: Implications of the Sinai Case History for North Sea structural geometries'.|
|1994||F. Schmidt||And co-author L. Tufan Erdogan
'Paleohydrodynamics in Exploration'.
|1993||K. Tyler||And co-authors T Svanes, J.B. Jepsen and S. Omdal
'Use of sequence stratigraphy interpretation and facies architecture in modelling heterogeneities in the Ness Formation of a North Sea Field'.
|1992||J.R. Underhill||And co-author M. Partington
'Implications of a Regional Tectonic Control on the Intera-Aalenian ('Mid-Cimmerian') Sequence Boundary for North Sea Basin Development, Reservoir Prospectivity and Exxon's Sea-Level Chart'.
|1991||J. Espitalié||And co-authors S. Drouet and F. Marquis
'Experimental determination of the quantities of gas (C1-C5) and gasoline (C6-C15) generated during burial by primary cracking of kerogens - application to the validation of a compositional model in the Brent Formation (North Sea)'.
|1990||J. Rueckheim||And co-authors D. Leythäuser and K. Bjørlykke
'Petroleum generation and accumulation in the Northern Rhine Graben and their relationship to reservoir diagenesis'.
|1989||J.R. Underhill||And co-author M.A. Alberts
'The effect of Tertiary structuration on Permain gas prospectivity, Cleaver Bank Area, UK Southern North Sea'.
Louis Cagniard Award
Award for Best Poster Presentation
The Louis Cagniard Award is presented in recognition of the best poster presentation at the EAGE Annual Conference in the calendar year preceding the Award. The poster presented should be of high scientific standard and should represent a significant contribution to one or more of the disciplines in our Association. The nomination should also take account of the visual impact and the quality of the presentation. Between 1997 and 2002, the Louis Cagniard Award referred to the Best Poster Presentation Award of the Geophysical Division only. The list below incorporates the best poster presentation award recipients of the Norman Falcon Award between 1993 and 2002.
The Louis Cagniard Award 2020 was presented to:
And co-author Ipsita Gupta
For the poster “Orientation of Hydraulic Fracture Initiation in Poroelastic Media: An Analytical Criterion for Perforated Wellbores“, presented at the 81st EAGE Conference & Exhibition, London 2019.
Past Winners of the Louis Cagniard Award
|2019||Anton Egorov||And co-authors Andrej Bona, Roman Pevzner, Stanislav Glubokovskikh and Vladimir Puzyrev
For their poster 'A feasibility study of time-lapse FWI on DAS VSP data acquired with permanent sources', presented at the 80th EAGE Conference & Exhibition, Copenhagen 2018.
The authors tackle the problem of detection and monitoring of carbon dioxide storage in the subsurface. In a feasibility study using synthetic data, they show that it is possible to conduct permanent monitoring of injected carbon dioxide using a Distributed Acoustic Sensing (DAS) cable in the injection well and a small number of permanently-installed sources. Applying full waveform inversion (FWI) to the time-lapse data allows the movement of the carbon dioxide plume to be tracked, making quantitative interpretation possible within a few hours of data acquisition. They show the applicability of their idea on a full model of the Otway site in Australia. The work is innovative and has enormous potential to help ensure safe carbon dioxide storage.
|2018||Bamshad Nazarian||And co-author Philip Ringrose
For their poster 'Risk Associated with Legacy Wells in CCS and CO2 EOR Projects; a Simulation Study', presented at the 79th EAGE Conference and Exhibition 2017, Paris, 12-15 June, Extended Abstracts Th P7 05.
The authors of this excellent poster presentation use numerical reservoir simulation from realistic models of saline aquifers & depleted hydrocarbon reservoirs to determine the conditions under which legacy wells will create a risk leakage in large scale CO2 storage and CO2 EOR projects. The simulation study concluded that if Plug and Abandonment (P&A) is carried out on legacy wells the risk of CO2 leakage is negligible. Further, leakage would happen in abandoned wells when the average pressure has increased considerably during CO2 injection. Finally, they found that for infinite-acting reservoirs where the pressure build-up in the reservoir is negligible, CO2 intrusion through existing pass ways provided by legacy wells is limited.
|2017||Ophélie Faÿ-Gomord||And co-authors F. Descamps, B. Caline, S. Vandycke and R. Swennen
For their poster 'Tight chalks - how does microtexture affect petrophysical and geomechanical properties?', presented at the 78th EAGE Conference & Exhibition, Vienna, 30 May - 2 June 2016, Extended Abstract We P5 01.
The authors of this excellent poster presentation use detailed petrographical, poroperm and mechanical property analyses to characterise thirty-five outcrop samples of low-permeability, non-reservoir North Sea chalks representing a broad spectrum in porosity, pore-throat diameter and rock strength. Such chalks may be under-explored reservoirs or may play important roles in hydrocarbon migration and so their microtextures are important to understand. Controlling factors are the non-carbonate content, related to deposition or diagenesis, and the degree of cementation, established from scanning electron-microscope (SEM) observations. These impact pore throat and body size, in turn affecting poroperm properties and rock strength. The analysis suggests that nuclear magnetic resonance (NMR) well logging, especially if combined with SEM observations on rock-cuttings, should allow an accurate prediction of the petrographical, petrophysical and possibly geomechanical characteristics of tight chalks penetrated by the drillbit.
|2016||Mojtaba Rajabi||And co-authors Mark Tingay, Oliver Heidbach and Rosalind King
For their poster 'The role of faults and fractures in local and regional perturbation of present-day horizontal stresses – an example from the Clarence-Moreton Basin, Eastern Australia', presented at the 77th EAGE Conference & Exhibition, Madrid, 1-4 June 2015, Extended Abstract Th P1 12.
Stress fields impact borehole stability and hydrofrac design. The Australian plate exhibits an anomalous stress field that is not aligned to the plate motion vector and so Rajabi et al. embarked on an integrated study of acoustic imaging logs, borehole breakouts and drilling-induced fractures from 27 coal-seam gas wells in the Clarence-Moreton basin. While they found a mean direction for the maximum horizontal stress of N68°E, there are significant local variations, both laterally and in depth, which they attribute to the presence of faults, fractures and contrasts in lithology linked to the local geology. The results are significant because they are the first basin-scale stress-map data from this region and the mean direction found is almost orthogonal from that predicted by numerical plate-scale models. Since hydrofrac stimulation is the most common coalseam gas completion, the results will have a major impact on well design and completion in the basin.
|2015||David Connolly||And co-author Julia Kemper and Ian Thomas
For their poster 'Using gas chimney detection to assess hydrocarbon charge and top seal effectiveness – offshore, Namibia', presented at the 76th EAGE Conference & Exhibition, Amsterdam, 16-19 June 2014.
Seismic data with shallow gas anomalies often display degraded imaging below, posing the question as to whether the deeper section constitutes an active migration pathway or simply poor imaging due to local velocity anomalies. The authors describe a study in deep water, offshore Namibia, in which the goal was to improve understanding of the petroleum system and to identify drilling prospects. Gas chimneys were detected on 3D seismic data using directional seismic attributes and neural networks trained by an interpreter. Interpreted chimneys were tracked to the corresponding gas sources, identifying the source rocks and helping to interpret migration pathways, potential reservoir charging and top seal integrity. The analysis suggests that, in a typical slope-canyon prospect, Middle Cretaceous source rock is providing a hydrocarbon charge to prospective Upper Cretaceous reservoir targets. Up-dip, an overlying gas cloud indicates hydrocarbon saturation in the reservoirs, from where the lighter components are leaking. If the migrating hydrocarbons are a mixed phase, the target reservoirs may be oil prone, an interpretation yet to be tested by a bit. Such a well presented, refutable hypothesis, presented clearly before drilling, is a scientific method at its best and judged well worthy of the Cagniard award.
|2014||Maurizio Ferla||And co-authors Jeroen Jocker, Ferdinanda Pampuri and Erik Wielemaker
For their poster 'Seismic anisotropy characterization in heterogeneous formations using borehole sonic data', presented at the 75th EAGE Annual Conference & Exhibition, London, 10-13 June 2013.
The authors present a new inversion workflow that they successfully applied to determine the transversely isotropic elastic properties of heterogeneous sand-shale sequences using sonic log data, from two wells of differing deviations that were binned according to their petrophysical properties. The results of the workflow have significant practical implications. Synthetics based on the anisotropy-corrected deviated well logs should yield a significantly improved time-vertical depth relation and better well-tie correlations. Additional applications include the use of the inverted anisotropic parameters as inputs into anisotropic seismic velocity models and AVO analysis.
|2013||Sergei Stanchits||And co-authors Aniket Surdi and Roberto Suarez-Rivera
For their poster entitled 'Hydraulic Fracturing of Tight Shale Monitored by Acoustic Emission and Ultrasonic Transmission', presented at the 74th EAGE Annual Conference, Copenhagen, 4–7 June 2012.
The authors study the effect of fluid viscosity on hydraulic fracture initiation and near-wellbore propagation on block samples of tight shales subjected to representative in-situ effective stress conditions. Firstly, they develop an understanding of the hydraulic fracturing conditions under controlled laboratory experiments and then extend this understanding to field processes. Their results provide a reference for practitioners in this important area to relate the viscosity of an injected fluid to the characteristics of dynamic fracture propagation and geometry.
|2012||Catherine Wasse||And co-authors Philippe Heldens and Joost van der Burgh
For their poster entitled 'NL-onshore – Donkersloot Prospect Example', presented at the 73rd EAGE Annual Conference, Vienna, 23–26 May 2011.
The poster presents a classic exploration workflow from the Netherlands onshore area. Prospectivity is defined and analysed by systematic and integrated structural mapping, petroleum system analysis and basin modelling, along with reservoir mapping and seismic anomaly modelling. This workflow is a clear and positive example of exploration methodology and prospect de-risking and represents the type of day-to-day activities that many industry based geoscientists would be involved in. As such, it illustrates how knowledge and technology are used to bring exploration prospects forward. The poster and presentation were judged to be of exceptionally high quality and standard.
|2011||J.I. Mars||And co-authors A.A. Khan, V. Vrabie, A. Girard and G. D’Urso
For their poster entitled 'Water Leakage Detection in Dikes by Fiber Optic', presented at the 72nd EAGE Annual Conference, Barcelona, June 2010.
A method is proposed for the identification of leakages in dikes using the temperature data obtained through fiber optic distributed temperature sensors. The authors showed how it was possible to treat leakage identification as a source separation problem. The sources were considered as defining the response of the ground, the known structures in the path of the fibre sensors (drains), the seasonal variations, precipitation and, of course, the leakages, the last ones were being their desired signals. They showed that with the help of techniques based on data decomposition and source separation (by PCA and ICA techniques), the leakages could be identified.
|2010||Daniel Barker||And co-author Martin Landrø
For their poster entitled 'Controlled source strength variation by changing the firing pressure - A sensitivity study for 4D calibration', presented at the 71st EAGE Annual Conference, Amsterdam, June 2009.
The authors conducted a modelling study to test a method for calibration of 4D seismic signals by varying the firing pressure of the air gun source. They also showed that the resulting bubble time period should not affect the result.
|2009||Benoit Paternoster||And co-authors Danil Knyazev and Thierry DesVallieres
For their poster entitled 'Robust use of AVO to Geohazard Assessment – South-east Asia Gas Field Case Study', presented at the 70th EAGE Annual Conference, Rome June 2008. The authors used an innovative AVO approach incorporating automatic screening of the volume to assess geohazards associated with shallow gas. It cross-validated the AutoGasRisk methodology with geological interpretation.
|2008||Brian Hornby||And co-authors Olav Barkved, Ole Askim, Francis X. Bostick III and Brock Williams
Fortheir poster presentation entitled 'Permanent Fiber-Optic Borehole Seismic Installation and Imaging at Valhall', presented at the 69th EAGE Conference & Exhibition in London, UK, 11 to 14 June 2007.
The authors describe the first successful installation of a permanent borehole seismic system in an offshore production well. It employs fibre-optic communications and is being used for both active and passive surveys, giving high resolution images up to 400m from the borehole and offering the possibility of time-lapse monitoring of fluid fronts. This work has been judged to represent a major breakthrough.
|2007||Isabel Varela||And co-authors Mosab Nasser, Mark Chapman and Enru Liu
For their poster presentation entitled 'Anisotropic Azimuthal Attenuation as an Indicator of Fracture Properties, a Case Study on Time-Lapse Walkaround VSP Data', presented at the 68th EAGE Conference & Exhibition in Vienna, Austria, 12 to 15 June 2006.
The authors characterized fractures by analyzing a time lapse walkaround, multilevel VSP data set from a carbonate field in Oman with a long history of steam injection and production. They compared changes in traveltime and attenuation in response to fracture orientation. This work has been judged to represent a major breakthrough.
|2006||Stéphane Operto||And co-authors Jean-Xavier Dessa and Jean Virieux
For their poster presentation entitled 'Crustal seismic imaging from ocean bottom seismometer data by full waveform tomography', presented at the 67th EAGE Conference in Madrid, Spain, 13 to 16 June 2005.
The authors presented the first 2D full waveform inversion of dense real OBS data to generate deep images of a subduction system. Using parallel direct factorization for solving the frequency-domain visco-acoustic wave equation, they were able to image major thrusts at depths between 5 km and 15 km. The methodology offered impressive efficiency gains and has been judged to represent a major breakthrough.
|2005||Brad Artman||And co-authors Deyan Draganov, Kees Wapenaar and Biondo Biondi
For their poster presentation entitled 'Direct migration of passive seismic data', presented at the 66th EAGE Conference in Paris, France, 7 to 10 June 2004.
Through a formulation that relates transmission response to the reflection response for passive seismic data in a general 3D heterogeneous medium, the authors develop a methodology for calculating the reflection response and are then able to apply many of the conventional reflection techniques and to carry out various processes for preparing and enhancing the data and performing efficient migration for imaging the subsurface.This work opens the possibility of the development of more advanced imaging conditions and has been judged to represent a major breakthrough.
|2004||Alexander Goetz||And co-authors Christof Müller, Stefan Buske and Stefan Lueth
For their poster entitled 'Fresnel-volume multicomponent migration', presented at the 65th EAGE Conference in Stavanger, Norway, 2 to 5 June 2003.
The authors introduce a new and efficient method of Kirchhoff depth migration of multicomponent seismic data based on the polarisation angle. The formulation also enables the method to resolve spatial ambiguity in cases of restricted recording geometry.
This work has been judged to represent a major breakthrough.
|2003||A.J. Buckingham||And co-authors Michael C. Dentith and Ron L
For their poster entitled 'Texture and shape measures for magnetic image retrieval', presented at the 64th EAGE Conference in Florence, Italy, 27 to 30 May 2002.
|2002||P. Herrmann||And co-author Guillaume Cambois
For their poster 'Statistically Correlated AVO Attributes', presented at the 63rd EAGE Conference in Amsterdam, June 2001.
|2002||L. Pikulski||And co-authors Tadeusz Wolnowski and Jolanta Zielinska-Pikulska
For their poster entitled 'Study in the development of main dolomite (Ca2) in Western Poland in the aspect of hydrocarbons search', presented at the 63rd EAGE Conference, Amsterdam, Jun 2001.
|2001*||B.A. Smith||And co-authors N.J. Ventzel, L. Berg and O. Sandvin
For their poster '3D VSP Imaging - Filling in the Ekofisk ‘Gas Hole’', presented at the 62nd EAGE Conference in Glasgow, Scotland, 29 May - 2 June 2000.
|2001*||J. Marsky||And co-authors J.P. Barde, P. Chamberlain, P. Gralla, J. Harwijanto and T. Schröter
For their poster 'Explaining a Complex HC System in the Permotriassic of the Pericaspian Basins by integrating of independent models', presented at the 62nd EAGE Conference in Glasgow, Scotland, 29 May - 2 June 2000.
|2001*||J. Wonham||Special Mention of the Falcon Award
And co-authors François Lafont and Frederic Walgenwitz
For their core display and poster 'The Franklin Field', presented at the 62nd EAGE Conference in Glasgow, Scotland, 29 May - 2 June 2000.
* As from June 2001, all award titles will refer to the year in which they are presented to the winners, and no longer to the year in which the winning poster/paper was presented.
|2000||No recipient selected|
|1999||E. Causse||And co-authors G. Haugen and B. Rommel
For their poster 'Large Offset Approximation to Seismic Reflection Travel Times', presented at the 61st EAGE Conference in Helsinki, Finland, 7-11 June 1999.
|And co-authors B. Doligez, I. Clement, G. Desaubliaux, R. Eschard, D. Granjeon and F. Lafont
'Geostatistical Modelling of Eolian and Fluvial Reservoirs (Cutler Fm., Permian, Utah)'
|1998||J. Carcione||And co-author U. Tinivella
For their poster 'Acoustic Properties and AVO of Bottom Simulating Reflectors Associated with Gas-Hydrates', presented at the 60th EAGE Conference in Leipzig, Germany, 8-12 June 1998.
|1998||I. Csató||And co-author T. Földes
'Halokinetic Structures and Hydrocarbon Plays – Examples from the Middle East'
|1997||J. Carcione||And co-author G. Seriani
For their poster 'Seismic Velocities in Permafrost', presented at the 59th EAGE Conference in Geneva, 27-30 May 1997.
|1997||H. El Euchi||And co-authors A. Gaaya, F. Hamouda and F. Mejri
'Northern Tunisia – A Promising Petroleum Province Despite Its Early Stage of Exploration, Structural Styles and Hydrocarbon Habitat'
|1996||P. Dunlop||And co-author P. Corbett
'Well Test Modelling in a Multistorey Fluvial Channel'
|1995||P. Gralla||And co-author C. Visser
'Evaporites - The key to chronostratigraphic subdivision of the Southern Rotleigend Basin'
|1994||R. Young||And co-author E. Kvadsheim
'Basin Modelling across the Froya High, Mid Norway'
|1993||N.M. Mcclure||And co-authors D.W. Wilkinson, D.P. Frost and G.W. Geehan
'Geotechnical planning of extended reach wells - Wytch Farm Dorset'