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My two favourite pieces of software get along! Communicate your decisions to colleagues and management. Learn about Tecplot After running a reservoir simulation, you must be able to: Quickly validate your results. Visualize parametric results from multiple sources.
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Manage Software Licenses with AWS License Manager Automate workflows with Python and macros. CSI acquires, manages and builds software businesses that provide mission-critical solutions in specific vertical markets.
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Our culture is casual yet focused on providing tools that promote creativity, efficiency and productivity. Tecplot software differs from other visualization tools in that it is easy to learn and use, offers broader capabilities, and produces better-quality images and output. Not only do we empower engineers and scientists to visualize, analyze, and understand information in simulation and test data results, but through our high-resolution images and animations, we help them seamlessly communicate their results to stakeholders. We believe visual analysis is the key to unlocking information hidden in complex data, leading to world-changing discoveries and innovation. With thousands of customers worldwide, Tecplot, Inc. The five benchmark problems, final sample solutions, and lessons learned that are presented here document the study outcomes and serve as a reference guide for developing and testing gas hydrate reservoir simulators.The Tecplot suite of CFD visualization and analysis tools differs from other tools in that it is easy to learn and use, offers broader capabilities, and produces better-quality images and output with integrated XY, 2D, and 3D plotting. The GHRSs evolved over the course of IGHCCS2 as researchers modified their simulators to reflect new insights, lessons learned, and suggested performance enhancements.
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To identify strengths and limitations in the various GHRSs, study participants submitted solutions for the benchmark problems and discussed differing results via teleconferences. The five problems range from simple geometries with analytical solutions to a representation of the world's first offshore production test of methane hydrates, which was conducted with the depressurization method off the coast of Japan.
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Study participants developed a series of five benchmark problems principally involving gas hydrate processes with geomechanical components. IGHCCS2 includes participants from an international collection of universities, research institutes, industry, national laboratories, and national geologic surveys.
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This paper contributes to the validation of these recent GHRS developments by providing results from a second GHRS code comparison study, IGHCCS2, also sponsored by DOE/NETL. Subsequently, GHRSs have advanced to model more complex production technologies and incorporate geomechanical processes into the existing framework of coupled thermal and hydrologic modeling. IGHCCS1 focused on coupled thermal and hydrologic processes associated with producing gas hydrates from geologic reservoirs via depressurization and thermal stimulation.
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The United States Department of Energy, National Energy Technology Laboratory, (DOE/NETL), sponsored the first international gas hydrate code comparison study, IGHCCS1, in the early 2000s. The hydrate community recognized another approach to building confidence in the GHRS: comparing simulation results between independently developed and executed computer codes on structured problems specifically tailored to the interdependent processes relevant for gas hydrate-bearing systems. Confidence in the modeling and forecasting abilities of these gas hydrate reservoir simulators (GHRSs) grows with successful comparisons against laboratory and field test results, but such results are rare, particularly in natural settings. Numerical simulators provide scientists and engineers with tools for understanding how production efficiency depends on the numerous, interdependent (coupled) processes associated with potential production strategies for these gas hydrate reservoirs. Geologic reservoirs containing gas hydrate occur beneath permafrost environments and within marine continental slope sediments, representing a potentially vast natural gas source.