Theory and Practice in Microbial Enhanced Oil Recovery
Autor: | Kun Sang Lee, Tae-Hyuk Kwon, Taehyung Park, Moon Sik Jeong |
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EAN: | 9780128204252 |
eBook Format: | ePUB/PDF |
Sprache: | Englisch |
Produktart: | eBook |
Veröffentlichungsdatum: | 18.07.2020 |
Kategorie: | |
Schlagworte: | Microbial biogenic gases biomass biomass production biosurfactants deep subsurface enhanced oil recovery hydrocarbon degradation metabolism kinetics oil viscos porosity reservoir selective plugging mechanics shale viscosity wettability |
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Selection of the optimal recovery method is significantly influenced by economic issues in today's oil and gas markets. Consequently, the development of cost-effective technologies, which bring maximum oil recovery, is the main interest in today's petroleum research communities. Theory and Practice in Microbial Enhanced Oil Recovery provides the fundamentals, latest research and creditable field applications. Microbial Enhanced Oil Recovery (MEOR) is potentially a low-priced and eco-friendly technique in which different microorganisms and their metabolic products are implemented to recover the remaining oil in the reservoir. Despite drastic advantages of MEOR technology, it is still not fully supported in the industry due to lack of knowledge on microbial activities and their complexity of the process. While some selected strategies have demonstrated the feasibility to be used on a mass scale through both lab and field trials, more research remains to implement MEOR into more oil industry practices. This reference delivers comprehensive descriptions on the fundamentals including basic theories on geomicrobiology, experiments and modeling, as well as current tested field applications. Theory and Practice in Microbial Enhanced Oil Recovery gives engineers and researchers the tool needed to stay up to date on this evolving and more sustainable technology. - Covers fundamental screening criteria and theories selective plugging and mobility control mechanisms - Describes the basic effects on environmental parameters and the mechanics of simulation, including microbial growth kinetics - Applies up to date practical applications proven in both the lab and the field
Kun Sang Lee is currently a Professor in the Department of Earth Resources and Environmental Engineering at Hanyang University. He earned a BS in mineral and petroleum engineering and a MS in mineral and petroleum engineering, both from Seoul National University. He was previously an Assistant Professor and Professor at Kyonggi University and an Associate Adjunct Professor at Michigan State University. He is currently the Editor-in-Chief of Geosystem Engineering and on the editorial board of the International Journal of Oil, Gas, and Coal Technology. He has published in many journals including Elsevier's Journal of Petroleum Science and Engineering.
Kun Sang Lee is currently a Professor in the Department of Earth Resources and Environmental Engineering at Hanyang University. He earned a BS in mineral and petroleum engineering and a MS in mineral and petroleum engineering, both from Seoul National University. He was previously an Assistant Professor and Professor at Kyonggi University and an Associate Adjunct Professor at Michigan State University. He is currently the Editor-in-Chief of Geosystem Engineering and on the editorial board of the International Journal of Oil, Gas, and Coal Technology. He has published in many journals including Elsevier's Journal of Petroleum Science and Engineering.