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Modeling of Gas Transport in Shale Matrix from Nanoscale to Reservoir Scale

Keliu Wu, Jinze Xu, Zhangxing Chen (Autoren)

Buch | Softcover

400 Seiten

2024
Elsevier - Health Sciences Division (Verlag)
978-0-323-90233-5 (ISBN)

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Engineers continue to understand shale gas reservoirs and how to improve well productivity. One aspect is through pore transport, but this is an advanced level of research unlike any conventional method or model. Modeling of Gas Transport in Shale Matrix from Nanoscale to Reservoir Scale delivers a necessary reference to engineers and researchers on how to approach, model, and validate gas transport through multi-scale phenomena. Bridging between theory and practical, the reference walks the engineer through the scope of the project, establishing a model, illustrating the case study through workflow charts and follow up actions needed, then rounds out with project results, remaining challenges, and future references to advance learning. Supported from a strong group of experts in the field, Modeling of Gas Transport in Shale Matrix from Nanoscale to Reservoir Scale gives today’s engineers and researchers the most advanced research and field application knowledge to understand unconventional shale gas and increase overall well productivity.

Keliu Wu is currently an associate professor at the China University of Petroleum-Beijing. Previously, he was a post-doctoral-degree fellow and a research associate at the University of Calgary. Wu’s research interests are microscale and nanoscale fluid transport, scaling up of fluid transport in heterogeneous porous media, and numerical modeling and simulation of coupled flow and geomechanics processes. He also focuses on carbon dioxide sequestration in shale-oil/gas reservoirs and tight oil/gas reservoirs. He holds a PhD degree in petroleum engineering from the China University of Petroleum-Beijing Jinze Xu holds a Ph. D degree from University of Calgary. He has published more than 30 peer-review papers on shale gas and heavy oil. He is the editorial board member for Energy Reports, Geofluids, International Journal of Oil, Gas and Coal Technology, and Journal of Geophysics and Engineering. He was awarded an “Outstanding Contribution in Reviewing by Elsevier in 2018, a “Top Peer Reviewer by Web of Science and Publons in 2019, a “Best Reviewer by International Conference on Energy Engineering and Environmental Protection in 2020. Zhangxin Chen is a professor in the Department of Chemical and Petroleum Engineering and the Director of the Foundation CMG/Frank and Sarah Meyer Collaboration Centre at the University of Calgary. He is a fellow of the Canadian Academy of Engineering. Dr. Chen has the distinction of holding two chairs: the Natural Sciences and Engineering Research Council of Canada/Energi Simulation Senior Research Chair in Reservoir Simulation and the Alberta Innovates Technology Futures (AITF, formerly iCORE) Industrial Chair in Reservoir Modeling. Dr. Chen holds a PhD degree from Purdue University.

1. Introduction
2. Flow Regime Analysis for Free Gas Transport in Shale Matrix under High Pressure
3. Shale Gas Transport in Tapered Non-Circular Nanopores in Shale Rocks
4. Effects of Shale Matrix on Gas Transport in a Bundle of Pores
5. Nano-scale Pore Size Distribution Effects on Shale Gas Production
6. Conclusions and Recommendations

Erscheint lt. Verlag	1.10.2024
Reihe/Serie	Developments in Petroleum Science
Verlagsort	Philadelphia
Sprache	englisch
Maße	151 x 229 mm
Themenwelt	Technik ► Elektrotechnik / Energietechnik
ISBN-10	0-323-90233-2 / 0323902332
ISBN-13	978-0-323-90233-5 / 9780323902335
Zustand	Neuware