Zhi Ping Li scite author profile

Zhi Ping Li

2Publications

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China University of Geosciences

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The Capture, Utilization, Storage of CO<sub>2</sub> in Methane Recovery

Yang

Lai

et al. 2015

AMR

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According to the problems that the coalbed methane resource was rich in deep seam in China, but the economic and technology conditions were limited, it would be hard to mine with a conventional method. The CO2 capture, utilization and storage technology was provided (CO2-ECBM). The application of the technology would not only improve the methane recovery ratio from deep and unminable layer, but also put CO2 effectively in the deep layer for storage to reach a target of reducing emission. The study showed that a coal rank, coal seam pressure, coal seam permeability, injection time, injected gas types and others would affect to the recovery ratio of methane in a production mine. Therefore, before we use this technology, a rational evaluation should be conducted on the place location. So the capture and storage technology of CO2 has an important significance in protecting the natural environment.

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Shale Gas Slippage Dynamic Characteristics in Nano-Scale Pores

Zhao

et al. 2012

AMR

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There are two important features on microstructure of shale.Firstly, Shale rocks are composed of rather fine grained particles, and their pores are very small, at the scale of nanometers.Gas slippage is complicate because its pore diameter is typically less than 10 nm. Secondly, a large amount of shale gas are absorbed in shale the same as coal-bed methane. Adsorbed gas desorption changes the structure. Permeability of shale is dynamic because of Nano-pore structure and desorption of absorbed gas during production. Shale gas slippage dynamic characteristics is researched in Nano-scale pores,based on capillary bundle medle and solid deformation theory. Mathematical model results show that pore diameter and pressure have important effect on permeability. Permeability increases firstly then reduces because of pressure drawdown when pore diameter is less than 10 nm. The lager pore diameter is, the lower pressure point of permeability Inflection and the faster permeability decline rate is. Gas molecular diffusion has less influence on flow when pore diameter is lager than 20 nm and when pressure is lager than 10 MPa. This model can be used for shale gas evaluation and production optimization.

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Zhi Ping Li

The Capture, Utilization, Storage of CO<sub>2</sub> in Methane Recovery

Shale Gas Slippage Dynamic Characteristics in Nano-Scale Pores

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