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液力驱动无绳索取心系统泥浆正反循环切换机构设计及其流体通道优化

马梓熠李之军刘阔龙爱国李越阳郭光鼎张浩

钻探工程2024，Vol.51Issue(z1)：150-157,8.

钻探工程2024，Vol.51Issue(z1)：150-157,8.DOI:10.12143/j.ztgc.2024.S1.022

液力驱动无绳索取心系统泥浆正反循环切换机构设计及其流体通道优化

Design of slurry forward/reverse circulation switching mechanism and optimization of its fluid channel in hydrodynamic-driven cordless coring system

马梓熠 ¹李之军 ¹刘阔 ²龙爱国 ³李越阳 ¹郭光鼎 ¹张浩¹

作者信息

1. 成都理工大学环境与土木工程学院,四川成都 610059
2. 成都理工大学环境与土木工程学院,四川成都 610059||中国地质科学院勘探技术研究所,河北廊坊 065000
3. 川庆钻探工程有限公司川东钻探公司,重庆 401147
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摘要

Abstract

In order to solve the problem of low efficiency of core drilling in ultra-long horizontal holes,a cordless core drilling process is proposed to complete the delivery and recovery of the inner tube assembly by mud hydraulic drive.To this end,this paper designs a positive/reverse circulation switching mechanism for the borehole mud that assists the delivery and recovery of the inner tube.This mechanism can realize the positive/reverse circulation switching by changing the mud flow direction through the mutual cooperation of two dual-channel ball valves.Through the ANSYS software,the L type double channel of the positive/reverse circulation switching mechanism is simulated,and the results show that after the fluid passes through the L type channel,the high-velocity fluid only accounts for 50%of the total amount of fluid,and the pressure drop of the fluid through the ball valve channel is 1008.1Pa,and the fluid near the inside of the channel will produce a lot of turbulence,resulting in different degrees of backflow.For this reason,the shape of the channel was optimized,the original L channel was changed to a circular channel,simulation results show that the fluid through the circular channel,high-speed fluid accounted for 90%of the total amount of fluid through the ball valve channel pressure drop is only 105.3Pa,and the fluid trace overall smooth,only a small amount of fluid reflux occurred.The optimized fluid channel is effective in reducing the pressure drop through the ball valve.The optimized fluid channel effectively reduces the head pressure loss and ensures the stable transportation of the fluid.

关键词

水平孔/无绳索取心/正反循环切换/液力驱动/流体通道优化/隧道勘察

Key words

horizontal hole/cordless coring/switching between forward and reverse loops/hydraulic drive/fluid channel optimization/tunnel investigation

分类

天文与地球科学

引用本文复制引用

马梓熠,李之军,刘阔,龙爱国,李越阳,郭光鼎,张浩..液力驱动无绳索取心系统泥浆正反循环切换机构设计及其流体通道优化[J].钻探工程,2024,51(z1):150-157,8.

基金项目

中国地质调查局地质调查项目"智能化岩心钻探装备升级与应用示范"(编号:DD20211421) （编号:DD20211421）

钻探工程

ISSN：2096-9686

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