Data analysis method of pump shutdown pressure based on water hammer effect and cepstrum transformation

Data analysis method of pump shutdown pressure based on water hammer effect and cepstrum transformation

Real-time monitoring and evaluation of fractures is one of the core issues in the multi-stage fracturing process of horizontal wells, and has long been a focus of many scholars. During the fracturing construction, the pressure during pump shutdown includes water hammer pressure and seepage pressure....

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Bibliographic Details
Main Author: WANG Xiaoqiang,ZHAO Li’an,WANG Zhiyuan,XIU Chunhong,JIA Guolong,DONG Yan,LU Detang
Format: Article
Language:zho
Published: Editorial Department of Petroleum Reservoir Evaluation and Development 2023-02-01
Series:Youqicang pingjia yu kaifa
Subjects:
|high-frequency pressure monitoring|data analysis of pump shutdown|cepstrum analysis|multi-stage hydraulic fracturing for horizontal well|inversion of fracture parameter|liquid inlet location
Online Access:https://red.magtech.org.cn/fileup/2095-1426/PDF/1675063823356-839758967.pdf
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Summary:Real-time monitoring and evaluation of fractures is one of the core issues in the multi-stage fracturing process of horizontal wells, and has long been a focus of many scholars. During the fracturing construction, the pressure during pump shutdown includes water hammer pressure and seepage pressure. By installing a high-frequency pressure device at the wellhead, not only the pump shutdown pressure drop curve but also the water hammer waveform curve can be completely collected. In this paper, the simulated pressure data are obtained by numerically solving the governing equation of wellbore water hammer. The cepstrum analysis of the simulated water hammer pressure verifies that the pressure generated by the water hammer has convolution characteristics. According to the related theory of wave impedance and cepstrum analysis, the water hammer wave can be used to determine the number of fracture clusters and the depth in multi-cluster fracturing of horizontal wells. The field application in Sichuan shale gas well shows that this method can find five liquid inlet points, of which the inversion results of four liquid inlet points are close to four perforation positions, and the remaining four clusters of holes in the design correspond to the liquid inlet points It was not detected in the cepstrum analysis.
ISSN:2095-1426

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