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Advanced Petroleum Systems Analysis in the Asia Pacific Region: New Technology and Applications - Call for Abstracts
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Stratigraphic and reservoir challenges with Triassic plays in the North Sea Central Graben - Call for Abstracts
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2nd Edition: Maximizing Asset Value: Integrating Geoscience with Reservoir Management & Technologies Optimization - Call for Papers
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Immersion into Shuaiba Formation to Maximize Production – Call for Posters
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Exploration & Development in Southern Caribbean Frontier Basins - Early Bird Fee
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Using the most advanced technologies combined with a passion for geology leads to an ever-increasing level of understanding of rock properties and reservoirs. Welcome to an interview with Kitty Milliken, who shares her experiences and insights.
The Rocky Mountain Section of AAPG is pleased to announce the winners of its Presentation Awards for the section’s 2019 Annual Conference which was held in Cheyenne, Wyo. The Presentation Awards are given to those who present the best technical papers at the annual meeting. Authors gave more than 125 oral and poster presentations on the geology of the Rocky Mountain region at the Cheyenne meeting. Judging on technical merit and presentation determined the winners.
As basins such as the Permian have crushed the concept of “peak oil” by doubling past production rates using new ideas and technology, their newly dubbed “super basin” status is inspiring operators on practically every continent to do the same.
Today’s world runs on technology and its rapid advances affect every aspect of human life. Science plays a pivotal role in developing technologies that change the way we live, work and play. The field of geosciences is no exception, and each day new technologies like big data, deep learning and robotics are changing geoscientists’ role in society.
When new technology enters the oil and gas scene, talk of layoffs can creep into water-cooler conversations. Will better software and computers replace people, or will they push the industry forward, creating the need for additional staff? These questions are especially pertinent for geophysicists today, as artificial intelligence and machine learning technologies are processing and interpreting seismic data at record speeds, often delivering results that rival, if not surpass, that of humans. With some software companies calling their platforms a “seismic revolution” by offering real-time data interpretation, geophysicists might question how they will fit into this new, seemingly supersonic world.
For the first time in the Middle East region, AAPG is hosting a Geosciences Technology Workshop (GTW) dedicated to the Shuaiba Formation. This exciting and innovative event will take place at the Westin Abu Dhabi Golf Resort & Spa on 6–7 April 2020 and will feature a compelling lineup of technical speakers and poster presenters.
The Unconventional Resources Technology Conference was held this year in Denver, Colo., and once again, it did not disappoint. It was packed with technical presentations and exhibits and it continued to push boundaries and remain as the premier industry event focused on the latest science and technology in exploration and development of unconventional resources.
Producers are feeling the pinch: they’ve got to drill ever more wells to stay ahead of their production declines. Increased production is weighing on crude oil prices – you get the benefit of this supply in resilient markets, but it is shrinking margins and available cashflow to fund this drilling. And at the same time, the financial community is pulling back, restricting access to capital. The industry is reshaping itself yet again in response to new market realities, looking for new ideas and better approaches and operating models.
A seismic acquisition project that would have taken years not too long ago can now be accomplished in months, thanks to “selective hearing” and other recent advances.
Identifying optimal well spacing is one of the key challenges facing unconventional reservoirs. Welcome to an interview with Mouin Almasoodi, Devon Energy, who will be participating and giving a presentation in AAPG’s Success with Difficult Unconventionals workshop, Nov 12-13, in Houston.
Artificial Intelligence for Geoscience equips participants with the theoretical and practical knowledge to apply Machine Learning and Deep Learning concepts to the field of geosciences. Upon completion, course graduates will be able to use algorithms learned both to in their research and their professional careers.
This virtual short course focuses on methods and workflows for identifying, characterizing, and developing tight-shale reservoirs. Participants will learn how to apply mudrock depositional, sedimentological, sequence stratigraphic, and geochemical principles to exploration areas and production assets in shale basins.
Date: 3rd February 2021
Time: 7am – 4pm
Field Trip Leaders: Mohammed Masrahy and Fawaz Al Khaldi, Saudi Aramco
Registration Fee: $95
Registration Deadline: 16th December 2020
Field Trip Description
Analogues, especially ancient outcrop and modern analogues, have played a crucial role in improving the understanding of subsurface reservoir architectural elements. They provide important information on subsurface reservoir geobody size, geometry, and potential connectivity, which all contribute to better reservoir characterization, mainly in highly heterogeneous siliciclastic or carbonate reservoirs that require the integration and detailed analysis of petrophysics, facies, diagenesis, geometry, depositional environments and lateral and vertical variability.
Subsurface reservoir models are limited by available geological data. Outcrop and modern analogs from comparable systems provide additional input to geological models of the subsurface. This field trip will provide valuable insights into the nature of this complexity.
Aims and Objectives
The field trip will comprise a field study of a range of continental clastic modern systems and marine carbonate ancient systems, and related sedimentary facies, each of which possesses attributes that are comparable in part to the subsurface deposits.
Field trip attendees will gain knowledge about key competencies related to field geology such as measuring vertical sections, describing sedimentary structures and textures, describing sedimentary facies, identifying depositional environments, and linking sedimentological observations to subsurface reservoir modeling.
One specific aim of this field trip is to emphasize that integrated reservoir characterization and modeling processes take into account actual depositional trends and the distribution of the sedimentary bodies.
Intended Learning Outcomes
This field trip will provide explanations and discussions of the following aspects:
Basin age, mechanisms of tectonic development, and regional palaeogeographic setting.
An introduction to techniques and criteria for the recognition of continental (fluvial and aeolian systems), shallow marine and carbonate related sedimentary facies in outcrop and modern system and discussions of the application of these techniques to the study of subsurface sedimentology and geological modeling.
Discussions of the 1D, 2D and 3D facies architecture with particular consideration of the geometry and scale of key stratal bodies that have relevance for understanding subsurface hydrocarbon reservoirs.
Discussion of the nature of autocyclic (intrinsic) interactions between competing sedimentary processes and consideration of the implications of these in terms of reservoir quality.
Discussion of the nature of allocyclic (external) controls on sedimentary processes and consideration of the effects of temporal and spatial changes in these controls on the preserved succession (through introduction of sequence stratigraphic concepts).
The significance of accurately determining the preserved geometry of reservoir successions and how to undertake correlations at the interwell scale.
How to predict the 3D distribution of net versus non-net reservoir.
How best to make region-wide predictions in areas for which palaeogeography is poorly constrained.
This e-symposium focuses on methods for predicting connectivity within clastic fluvial systems.
This work investigates how heterogeneity can be defined and how we can quantify this term by describing a range of statistical heterogeneity (e.g. coefficient of variation and the Lorenz coefficient).
This course can help you gain the ability to describe the complex and highly variable reservoirs, which are typified by complex internal heterogeneity.
There are approximately 1,000 oil and gas fields in the world that have been classified as 'giant,' containing more than 500 million barrels of recoverable oil and /or 3 trillion cubic feet of gas.
This course introduces the learner to the fundamentals of shale gas, including current theories that explain its origin, and how to determine which reservoirs are commercially viable.
Join two GIS/geoscience experts Scott Sires and Gerry Bartz as they use information from the Teapot Dome Field in Wyoming (DOE/RMOTC program).
Unconventional Resources is an online course that enables participants to learn about shale gas, shale oil and coalbed methane.
Water cut is a big factor in gauging the success of horizontal drilling in the Mississippi Lime Play (MLP). The contributing factors are related in part to the spectrum of producing lithofacies and reservoir quality encountered that varies laterally and vertically, sometimes dramatically.
The presentation will discuss key reservoir information and how to develop a predictive pressure model.
This course is ideal for individuals involved in Midland Basin exploration and development. Successful development of Wolfcamp shale oil relies on complex inter-relationships (ultimately interdependencies) within and between a wide variety of scientific disciplines, financial entities, and company partnerships.
This lecture will discuss the differences between carbonates and siliciclastics from their chemical composition through their distributions in time and space. Building on these fundamental differences, we will explore the challenges carbonates pose to petroleum geologists in terms of seismic interpretation, reservoir quality prediction, field development, etc. Peppered with humorous personal stories, still raging academic debates, and the heartfelt frustrations of real industry professionals, the aim is to inspire students and young professionals to rise to the occasion and embrace the reservoir rocks that petroleum geologists love to hate.
Request a visit from Noelle Joy Purcell!
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