Shale gas reservoir favorable area selection integrated evaluation method

A comprehensive evaluation and shale gas reservoir technology, which is applied in the field of comprehensive evaluation of favorable area selection for shale gas reservoirs, and can solve the problems of unclear shale gas selection goals, inaccurate evaluation, waste of manpower and material resources, etc.

Inactive Publication Date: 2015-03-04
CHENGDU CHUANGYUAN OIL & GAS TECH DEV
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Problems solved by technology

[0006] The purpose of the present invention is to overcome the problems of inaccurate evaluation due to the limitation of evaluation parameters in the above-mentioned existing evaluation methods, making the selection target of shale gas unclear, waste of manpower and material resources, and a method for selection of favorable areas of shale gas reservoirs is designed. Comprehensive evaluation method, through the

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Embodiment 1

[0017] The comprehensive evaluation method for selection of favorable areas in shale gas reservoirs includes the following steps:

[0018] (1) Total organic carbon content: There is a positive correlation between the adsorption capacity of shale to gas and the total organic carbon content of shale. Under the same pressure, shale with higher total organic carbon content can absorb methane than total organic carbon The shale with lower carbon content can absorb significantly more methane, and the organic carbon content is above 2%;

[0019] (2) Organic matter maturity: The higher the thermal maturity of gas-bearing shale, the greater the amount of gas generated in the shale. The content of thermogenic gas increases toward the center of the basin, that is, the direction of thermal maturity of kerogen increases. The thermal maturity of kerogen increases. Maturity also affects the amount of natural gas that can be adsorbed on the surface of organic matter in shale. As the degree of...

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Abstract

The invention discloses a shale gas reservoir favorable area selection integrated evaluation method. Methane absorbed by shale with a quite high total organic carbon content is obviously higher than methane absorbed by shale with a quite low total organic carbon content, and the organic carbon content is more than 2%; the heat maturity of kerogen also affects the amount of natural gas which can be absorbed on the surface of an organic substance in the shale, the absorption gas amount of a shale gas is gradually increased, and the maturity of an organic matter is between 1.4% to 3%; gas-containing shale is taken as a fine-granule compact sandstone reservoir layer, the increase of a carbonate content reduces the geological reserve of the shale gas, and siliceous-rich shale can play a better role than clay-rich shale in manual fracturing; and the shale net thickness of a shale gas exploration and production area is 9 to 91m. According to the evaluation method provided by the invention, through integrated evaluation of evaluation parameters, a shale gas reservoir area can be accurately determined, and accurate reference data is provided for exploitation of the shale gas.

Description

technical field [0001] The invention relates to a method, in particular to a comprehensive evaluation method for selecting favorable areas of shale gas reservoirs. Background technique [0002] The research on shale gas exploration, development and production began in the United States. In 1821, its first industrial natural gas drilling well (fracture gas was produced at a depth of 8m) was a Devonian shale gas well, which opened the way for the development of the natural gas industry in the United States. prelude. Since then, shale gas reservoirs in the United States have been discovered one after another. By 1926, the Eastern Kentucky and West Virginia gas fields (Devonian shale) were the largest natural gas fields in the world at the time. In the 1970s and 1980s, on the basis of finding out the distribution rules of shale gas and evaluating the resource potential in the United States, new shale gas fields were continuously discovered in the eastern region and the product...

Claims

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Application Information

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IPC IPC(8): G06Q10/04G06Q50/06
CPCG06Q10/0639G06Q50/06
Inventor 吕国祥黄勇斌刘欢李其鑫胡蝶雷一文金涛胡兆瑞
Owner CHENGDU CHUANGYUAN OIL & GAS TECH DEV
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