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原文传递 Analysis of Formation Fracturing for the Maxi-HDD Qin River Crossing Project in China
题名: Analysis of Formation Fracturing for the Maxi-HDD Qin River Crossing Project in China
正文语种: 中文
作者: Yan Ma Zeng Liu
作者单位: of Engineering, China University of Geosciences, Wuhan 430074, China
关键词: HDD riverbed crossing hydro-fracture Delft equation numerical simulation
摘要:   A new irrigation pipeline was installed using the Horizontal Directional Drilling (HDD) method in order to alleviate the water shortage situation in Jiaozuo City,Henan Province,China.This pipe installation project included two parallel HDD crossings,with a pipe diameter of 1016 mm and a driven length of 1750 m for both of them.Based on the preliminary detailed geological survey report of the riverbed,hydro-fracturing control under high slurry pressure would be a big challenge for this project.This paper summarizes the prediction methods for the maximum allowable mud pressure in the borehole based on different mechanisms of formation fracturing.Based on the geological data of this crossing project,the Delft equation and another prediction method based on tensile failure (termed here the Xia method) were used to calculate the maximum allowable annular pressure.The real pumping pressure of this project was recorded by the contractor.By comparing the theoretical predictions of allowable pressure with the actual pressures for the horizontal section of the borehole,it indicated that the Xia method is conservative and the limits of the Delft equation could not be verified in this project.As a solution dealing with potential hydro-fracturing,finite element modeling shown that increasing the ground surface load would rise the borehole allowable pressure at which fracturing would occur.This solution was used to deal with a blow-out in the entry section of one pilot hole on this project.Under the guidance of the theoretical and numerical simulation results,the Qin River crossing project was successfully completed.
会议日期: 20181024
会议举办地点: 武汉
会议名称: 第九届管道工程与非开挖技术国际研讨会
出版日期: 2018-10-24
母体文献: 第九届管道工程与非开挖技术国际研讨会论文集
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