期刊
ENERGY
卷 239, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.energy.2021.122422
关键词
Low permeability; Natural gas hydrate; Depressurization scheme; Gas production efficiency; Reservoir stability; Multi-physical field coupling model
资金
- National Natural Science Foundation of China [51876222, 51890914]
Two successful trials in the South China Sea have shown that low-permeability hydrate reservoirs have great potential for commercial exploitation. By evaluating different depressurization schemes, it was found that step-wise depressurization and cycling depressurization can improve production capacity to varying degrees. The study also highlighted the importance of considering both production efficiency and reservoir stability when developing low-permeability hydrate reservoirs.
Two successful trials in South China Sea show that low-permeability hydrate reservoirs have broad exploitation prospects. Currently, gas production efficiency and reservoir stability are key factors restricting the commercial exploitation. For improving development efficiency and evaluating reservoir stability, it is necessary to comprehensively evaluate different depressurization schemes. Based on the drilling data of hydrate reservoirs in South China Sea, a thermal-fluid-solid-chemical multi-field coupling model was established to analyze temporal and spatial evolution characteristics with three depressurization modes: regular depressurization(RD), step-wise depressurization(SD) and cycling depressurization(CD). The results show that compared with RD, SD and CD can improve production capacity in different degrees. Due to the limitation of convective heat transfer in low-permeability reservoir, RD productivity is mainly affected by formation sensible heat. SD and CD are mainly affected by formation sensible heat in early stage and formation latent heat plays a role in later stage. The formation deformation degree is positively correlated with hydrate decomposition radius. After 180 days, the maximum subsidence at reservoir and mudline is 0.0609 m and 0.0135 m respectively. Production and subsidence ratio(PSR) is proposed to evaluate different depressurization schemes. Finally, CD2 is the best scheme for low-permeability hydrate reservoir and PSR value is 20298.3 m(3)/cm. (C) 2021 Elsevier Ltd. All rights reserved.
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