Geological Publishing House, Institute of Exploration Technology, Chinese Academy of Geological SciencesHost
2021 Vol. 48, No. 10
Article Contents

WEN Dequan, WANG Gui, SHAO Shengyuan, LIU Zhiguo, LI Bin, WANG Chengyong and WANG Depeng, . 2021. Development of equipment for mud treatment while drilling in uranium green exploration. DRILLING ENGINEERING, 48(10): 88-94. doi: 10.12143/j.ztgc.2021.10.012
Citation: WEN Dequan, WANG Gui, SHAO Shengyuan, LIU Zhiguo, LI Bin, WANG Chengyong and WANG Depeng, . 2021. Development of equipment for mud treatment while drilling in uranium green exploration. DRILLING ENGINEERING, 48(10): 88-94. doi: 10.12143/j.ztgc.2021.10.012

Development of equipment for mud treatment while drilling in uranium green exploration

  • As environment protection and mud property maintenance in geological exploration are becoming increasingly important, higher requirements have been put forward for drilling mud purification in uranium exploration. In view of the characteristics of short construction period per borehole, frequent equipment movement and small mud handling capacity in uranium drilling, two mud treatment while drilling processes have been proposed each for sandstone uranium deposit and hard-rock exploration; besides, two sets of compact, modular and intelligent mud treatment while drilling equipment also have been developed for sandstone and hard-rock uranium green exploration. Field test has verified that the equipment provided good environmental protection benefits and economic benefits, achieving the goal of one mud formula for multiple holes and zero mud discharge with increase in in drilling efficiency while saving materials; thus it has solved fundamentally the problem of environmental pollution caused by mud discharge during drilling. The drilling mud treated by the equipment contained much less harmful solid phase with lower density and improved rheology; thus, it maintained good performance, leading to reduced downhole incidences such as bit burial, drilling string sticking, and ensuring the downhole safety with drilling quality. The modular structure leads to convenient movement and transportation and is suitable for all kinds of terrain and traffic conditions. It can be popularized and applied in uranium drilling.
  • 加载中
  • [1] 乌效鸣,胡郁乐,贺冰新,等.钻井液与岩土工程浆液[M].武汉:中国地质大学出版社,2002.WU Xiaoming, HU Yule, HE Bingxin, et a1. Drilling Fluid and Geotechnical Engineering Slurry[M]. Wuhan: China University of Geosciences Press, 2002.

    Google Scholar

    [2] [2] 郑立稳,张闻,孔学,等.废弃钻井液处理技术研究[J].油气田环境保护,2017,27(2):11-13,60.

    Google Scholar

    ZHENG Liwen, ZHANG Weng, KONG Xue, et a1. Study on treatment technology of waste drilling fluid[J]. Environmental Protection of Oil and Gas Field, 2017,27(2):11-13,60.

    Google Scholar

    [3] [3] 赵良庆,李朝晖,张栩,等.钻井废弃泥浆不落地随钻处理技术概述[J].环境工程,2017,35(S2):616-618.

    Google Scholar

    ZHAO Liangqing, LI Zhaohui, ZHANG Xu, et a1. Overview of drilling waste mud do not fall to zhe ground and drilling treatment technology[J]. Environmental Engineering, 2017,35(S2):616-618.

    Google Scholar

    [4] [4] 张少林,苏延鹤,鲍海山,等.高原高寒地区复杂地层小口径岩心钻探冲洗液固控系统研究[J].中国煤炭地质,2020,32(2):79-82.

    Google Scholar

    ZHANG Shaolin, SU Yanhe, BAO Haishan, et a1. Study on small diameter core drilling flush fluid solid control system in plateau alpine-cold region complex strata[J]. Coal Gelolgy of China, 2020,32(2):79-82.

    Google Scholar

    [5] [5] 孙金柱.大牛地气田钻井泥浆不落地技术的应用研究[D].南京:南京大学,2016.SUN Jinzhu. Study on the application of waste of drilling mud non-landing technology on Daniudi Gas Field[D]. Nanjing: Nanjing University, 2016.

    Google Scholar

    [6] [6] 陈根龙,秦如雷,陈晓君,等.泥浆不落地技术在DY-4井中的应用[J].探矿工程(岩土钻掘工程),2019,46(11):8-13.

    Google Scholar

    CHEN Genlong, QING Rulei, CHEN Xiaojun, et a1. Application of drilling mud non-landing technology in Well DY-4[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2019,46(11):8-13.

    Google Scholar

    [7] [7] 孙庆春,王群,许艳雪.东胜气田钻井液废弃物处理与钻井液技术[J].探矿工程(岩土钻掘工程),2016,43(9):42-46.SUN Qingchun, WANG Qun, XU Yanxue. Drilling fluid wastes treatment and drilling fluid technology in Dongsheng Gas Field[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling, 2016,43(9):42-46 .

    Google Scholar

    [8] [8] 张虎山,周天明,惠川川,等.两级净化固控系统应用分析[J].石油矿场机械,2020,49(2):83-88.

    Google Scholar

    ZHANG Hushan, ZHOU Tianming, HUI Chuanchuan, et a1. Application analysis of two stage purification solid control system[J]. Oil Field Machinery, 2020,49(2):83-88.

    Google Scholar

    [9] [9] 王群.东胜气田井壁稳定技术研究[J].探矿工程(岩土钻掘工程),2018,45(1):39-43.

    Google Scholar

    WANG Qun. Research on borehole stability technology in Dongsheng Gas Field[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2018,45(1):39-43.

    Google Scholar

    [10] [10] 冯美贵,翁炜,刘家荣,等.雄安新区地热D20井钻井液固控循环系统应用分析[J].探矿工程(岩土钻掘工程),2020,47(10):38-42,60.

    Google Scholar

    FENG Meigui, WENG Wei, LIU Jiarong, et a1. Drilling fluid solid control circulation geothermal exploration and production well system D20 infor drilling of Xiongan New Area[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2020,47(10):38-42,60.

    Google Scholar

    [11] [11] 冯美贵,朱迪斯,翁炜,等.地质岩心钻探冲洗液固控系统及配套工艺研究[J].探矿工程(岩土钻掘工程),2016,43(5):67-70,75.

    Google Scholar

    FENG Meigui, ZHU Disi, WENG Wei, et a1. Research on solid control system of flushing fluid circulation in geological core drilling and the matching technology[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2016,43(5):67-70,75.

    Google Scholar

    [12] [12] 冯美贵,翁炜,马卫国,等.油基钻屑现场热解析处理技术现状及展望[J].探矿工程(岩土钻掘工程),2019,46(3):7-12.

    Google Scholar

    FENG Meigui, WENG Wei, MA Weiguo, et al. Prospect sit-nation and prospect of thermal desorption technology for oil-based drill cuttings[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2019,46(3):7-12.

    Google Scholar

    [13] [13] 张杰,曹巍巍,侯召坡,等.自动化钻机配备标准化固控系统探析[J].中国设备工程,2020(5):248-249.

    Google Scholar

    ZHANG Jie, CAO Weiwei, HOU Zhaopo, et a1. Discussion on standardized mud solid phase control system equipped for automatic drilling rig[J]. China Plant Engineering, 2020(5):248-249.

    Google Scholar

    [14] [14] 陈刚,王鹏,赵毅,等.废弃钻井液处理技术研究与应用进展[J].钻井液与完井液,2020,37(1):1-8.

    Google Scholar

    CHENG Gang, WANG Peng, ZHAN Yi, et a1. Progress in study and application of waste mud disposal technologies[J]. Drilling Fluid & Completion Fluid, 2020,37(1):1-8.

    Google Scholar

    [15] [15] 贾占宏,高元宏,梁俭,等.绿色地质勘查综合技术应用分析[J].探矿工程(岩土钻掘工程),2017,44(4):1-4.

    Google Scholar

    JIA Zhanhong, GAO Yuanhong, LIANG Jian, et a1. Application and analysis on comprehensive technology of green geological prospecting[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2017,44(4):1-4.

    Google Scholar

    [16] [16] 董怀荣,李宗清,郭振,等.胜利油田钻井液不落地处理工艺研究[J].西部探矿工程,2017,29(11):50-51,55.

    Google Scholar

    DONG Huairong, LI Zongqing, GUO Zheng, et a1. Study on the technology of drilling mud non-landing technology in Shengli Oilfield[J]. West-China Exploration Engineering, 2017,29(11):50-51,55.

    Google Scholar

  • 加载中
通讯作者: 陈斌, bchen63@163.com
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索

Article Metrics

Article views(323) PDF downloads(93) Cited by(0)

Access History

Catalog

    /

    DownLoad:  Full-Size Img  PowerPoint