A Study on the Remaining Reserves of the Weiyuan Shale Gas Block in Three-Dimensional Development

A Study on the Remaining Reserves of the Weiyuan Shale Gas Block in Three-Dimensional Development

After 5 different plans of development, the Weiyuan block is struggling to maintain stable production and urgently needs a new method to improve the recovery rate. Practice at home and abroad shows that three-dimensional development can effectively improve the degree of vertical shale gas utilizatio...

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Bibliographic Details
Main Authors: Yaoqiang Lin, Sijie He, Nan Wang, Jichang Zhu, Weifeng Ning, Yujin Wan, Mengfei Zhou
Format: Article
Language:English
Published: MDPI AG 2024-10-01
Series:Applied Sciences
Subjects:
shale gas
remaining reserves
three-dimensional development
Weiyuan block
numerical simulation
enhanced recovery
Online Access:https://www.mdpi.com/2076-3417/14/21/9738
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Summary:After 5 different plans of development, the Weiyuan block is struggling to maintain stable production and urgently needs a new method to improve the recovery rate. Practice at home and abroad shows that three-dimensional development can effectively improve the degree of vertical shale gas utilization. Therefore, this paper first analyzes the distribution of reservoirs in the Weiyuan block and calculates the distribution of remaining reserves through the methods of fine description of gas reservoirs and establishment of a three-dimensional geological model. The results show that the recovery degree of the platform in the main production area of Weiyuan is 35~60%, and the average remaining reserves of the wells are (1.2~3) × 10<sup>8</sup> m<sup>3</sup>, and there is three-dimensional development potential in the local area. Secondly, through the establishment of a fracture and rock mechanics model, the target layer system for three-dimensional development of the Weiyuan block is preliminary selected from five aspects, namely, remaining reserves, reservoir characteristics, fracture density, mechanical characteristics, and the comparison of the height of the fracture network. Finally, in order to check the correctness of the target layer for three-dimensional development and evaluate the effect of the three-dimensional development, four scenarios for the lower branch of the H8 platform are designed and numerically simulated using Petrel RE software. The results of the numerical simulation show that Option 2 is the most effective, which can increase the production of the platform by 1.76 × 10<sup>8</sup> m<sup>3</sup>, and the recovery rate grows from 16.4% to 31.0%, with an overall increase of 14.6%. The relevant understanding can provide a reference for the three-dimensional development strategy of the Weiyuan shale gas block.
ISSN:2076-3417

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