Influence of Pore Structure and Solid Bitumen on the Development of Deep Carbonate Gas Reservoirs: A Case Study of the Longwangmiao Reservoir in Gaoshiti–Longnusi Area, Sichuan Basin, SW China

A variable sedimentary environment and accumulation process leads to a complex pore structure in deep carbonate gas reservoirs, and the physical properties are quite different between layers. Moreover, some pores and throats are filled with solid bitumen (SB), which not only interferes with reservoi...

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Published inEnergies (Basel) Vol. 13; no. 15; p. 3825
Main Authors Chen, Jianxun, Yang, Shenglai, Yang, Dongfan, Deng, Hui, Li, Jiajun, Huang, Yu, Zou, Cheng
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.08.2020
Subjects
Accumulation
Bitumens
carbonate gas reservoir
Depletion
Experiments
Gas flow
Gas production
gas production rate
Geology
Membrane permeability
NMR
Nuclear magnetic resonance
Oil and gas production
Permeability
Physical properties
pore structure
Porosity
Productivity
recovery
Reservoirs
Scanning electron microscopy
solid bitumen
Spectrum analysis
Studies
Sichuan Basin
China
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Summary:A variable sedimentary environment and accumulation process leads to a complex pore structure in deep carbonate gas reservoirs, and the physical properties are quite different between layers. Moreover, some pores and throats are filled with solid bitumen (SB), which not only interferes with reservoir analysis, but also affects efficient development. However, previous studies on SB mainly focused on the accumulation process and reservoir analysis, and there are few reports about the influence on development. In this paper, through scanning electron microscope analysis, SB extraction, gas flow experiments and depletion experiments, and a similar transformation between experimental results and reservoir production, the production characteristics of carbonate gas reservoirs with different pore structures were studied, and the influence of SB on pore structure, reservoir analysis and development were systematically analyzed. The results show that permeability is one of the key factors affecting gas production rate and recovery, and the production is mainly contributed by high-permeability layers. Although the reserves are abundant, the gas production rate and recovery of layers with a low permeability are relatively low. The SB reduces the pore and throat radius, resulting in porosity and permeability being decreased by 4.73–6.28% and 36.02–3.70%, respectively. With the increase in original permeability, the permeability loss rate decreases. During development, the loss rate of gas production rate is much higher than that of permeability. Increasing the production pressure difference is conducive to reducing the influence. SB also reduces the recovery, which leads to the loss rate of gas production being much higher than that of porosity. For reservoirs with a high permeability, the loss rates of gas production rate and the amount produced are close to those of permeability and porosity. Therefore, in the reservoir analysis and development of carbonate gas reservoirs bearing SB, it is necessary and significant to analyze the influence of reservoir types.
ISSN:1996-1073
1996-1073
DOI:10.3390/en13153825