Bo Li
5 Papers
2 Citations
Bo Li is an academic researcher. The author has contributed to research in topics: Geology & Oil shale. The author has an hindex of 1, co-authored 2 publications.
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Papers
Hydraulic Fracturing and Enhanced Recovery in Shale Reservoirs: Theoretical Analysis to Engineering Applications
Hao Yu,WenLong Xu,Bo Li,Hanwei Huang,M.M. Micheal,Quanzhen Wang,MengCheng Huang,Siwei Meng,He Liu,HengAn Wu +9 more
TL;DR: A comprehensive review of the recent strategies used in analyzing the hydraulic fracturing, storage, flow, and recovery of gas is presented in this paper , which provides a baseline for understanding how the hydraulic fracture evolves and propagates to create new channels that contribute to the flow of gas, how the gas flows through the created channels across the many scales of the shale reservoir, and how to improve recovery from shale reservoirs.
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Investigating Optimal Thermal-Assisted Depressurization Regimes for Enhanced Methane Hydrate Dissolution in a Multiple Well System
Wenjuan Wei,Bo Li,Gang Li,Tingting Zhang,Qing-Cui Wan,Jun-Hao Zhou +5 more
- 30 Sep 2023
TL;DR: This study investigates optimal thermal-assisted depressurization regimes for methane hydrate dissolution in a multiple well system, revealing that warm water flooding enhances hydrate decomposition via thermal convection, while electric heating has a delayed effect, but combined methods show improved energy efficiency and heat utilization.
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Heating-Induced Enhancement of Shale Gas Transport and Its Application for Improving Hydraulic Fracturing Performance
TL;DR: In this paper , Longmaxi organic-rich shale samples were heated at 200-1000 °C for 240 h to investigate the feasibility of heating-induced generation of additional gas transport pathways and improvement of gas transport capacity within the shale matrix.
4
Affecting Mechanism of Natural Sandstone Porous Media on the Formation and Phase Equilibrium of Methane Hydrate
Bo Li,Xiang-Zhen Meng,Tao Cheng,Qing-Cui Wan +3 more
- 15 Feb 2024
TL;DR: This study investigates the effect of natural sandstone porous media on methane hydrate formation and phase equilibrium, revealing that sandstone enhances hydrate formation due to its low specific pore volume, medium pore size, and complex pore structure.
2
Interdisciplinary Talent Cultivation and Development of Drama, Film and Television Literature in the Perspective of New Media
TL;DR: Interdisciplinary talent cultivation and development of drama, film and television literature in the perspective of new media comprehensively evaluates the quality level of interprofessional talent training in drama, film, and literature. The results show that the quality of interprofessional talent cultivation has been increased.