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MODELING HERSCHEL−BULKELY DRILLING FLUID FLOW IN A VARIABLE RADIAL FRACTURE

卷 17, 册 3, 2014, pp. 239-254
DOI: 10.1615/JPorMedia.v17.i3.50
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摘要

A mathematical model of Herschel−Bulkely (H-B) drilling fluid flow into a deformable fracture has been established in this work. The finite difference and finite element methods were applied for solving this model. Influence of drilling operating parameters, fracture characteristics, fracture deformation, drilling fluid rheological properties, and mud solids deposition in fractures on the loss behaviors of drilling fluid into the fracture have been investigated by numerical simulation based on the model. It has been found that loss rate and total loss volume may aggravate with increasing drilling differential pressure and loss time. Fracture deformation has a significant impact upon loss rates and total loss volume. The initial aperture and length of fracture are broadened/propagated, correspondingly causing both loss rate and total loss volume increasing. It probed into the characteristics and behaviors of drilling fluids flow in a deformable fracture, carried out the simulation of drilling fluid loss in naturally fractured formations, which can be utilized to accurately describe the mud loss process. New type curves of mud loss obtained by modeling simulation can also be used to evaluate fracture characteristics, diagnose loss types and loss predictions, and also benefit production operations by minimizing formation damage.

对本文的引用
  1. Xu Chengyuan, Zhang Jingyi, Kang Yili, You Lijun, Yan Xiaopeng, Cui Kaixiao, Lin Chong, Investigation on the Transport and Capture Behaviours of Lost Circulation Material in Fracture with Rough Surface, Day 2 Wed, March 27, 2019, 2019. Crossref

  2. Dokhani Vahid, Ma Yue, Geng Tie, Li Zili, Yu Mengjiao, Transient analysis of mud loss in fractured formations, Journal of Petroleum Science and Engineering, 195, 2020. Crossref

  3. Yang Jingbin, Sun Jinsheng, Bai Yingrui, Lv Kaihe, Zhang Guodong, Li Yuhong, Status and Prospect of Drilling Fluid Loss and Lost Circulation Control Technology in Fractured Formation, Gels, 8, 5, 2022. Crossref

  4. Wang Mingwei, Wu Wen, Li Song, Li Tao, Ni Gensheng, Fu Yu, Zhou Wen, Xu Qinghai, Application and Optimization for Network-Fracture Deep Acidizing Technique of Fractured Carbonate Reservoirs, Lithosphere, 2022, Special 13, 2022. Crossref

  5. Yi Jin, Luo Hong, Gao Chenxuan, Zhou Minhao, Wang Yukun, Wang Yongqiang, Identification of formation plugging risk- A case study of gas reservoir in Deng4 member of Gaoshiti-Moxi block, Highlights in Science, Engineering and Technology, 25, 2022. Crossref

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