WAN Yaqi, CHEN Huinian, YANG Mingqing, ZHANG Jie. Status Quo and Development Exploration of Mud Logging Equipment[J]. Petroleum Drilling Techniques, 2018, 46(2): 115-119. DOI: 10.11911/syztjs.2018004
Citation: WAN Yaqi, CHEN Huinian, YANG Mingqing, ZHANG Jie. Status Quo and Development Exploration of Mud Logging Equipment[J]. Petroleum Drilling Techniques, 2018, 46(2): 115-119. DOI: 10.11911/syztjs.2018004

Status Quo and Development Exploration of Mud Logging Equipment

More Information
  • Received Date: November 14, 2017
  • In view of the continuously low international oil price and in order to further clarify the development orientation of domestic mud logging equipment and narrow the gap with the international advanced level,the status quo of domestic and overseas mud logging equipment was analyzed systematically from the three aspects of conventional comprehensive logging,single-function high-end logging and downhole mud logging.The problems around domestic comprehensive logging unit,high-end logging equipment,logging equipment for unconventional resources and downhole logging equipment were pointed out.Suggestions including the full promotion of domestic comprehensive logging units,manufacturing single-function high-end logging units and featured logging equipment as well as reserving new logging techniques were put forward.Rooted in the present requirements on mud logging,it is expected to seize the development opportunities,push forward the development of domestic mud logging equipment,improve the technical level of domestic mud logging equipment and narrow the gap with the international advanced level.
  • [1]
    张卫,郑春山,张新华.国外录井技术新进展及发展方向[J].录井工程,2012,23(1):1-4,24. ZHANG Wei,ZHENG Chunshan,ZHANG Xinhua.New progress and development direction of foreign mud logging technology[J].Mud Logging Engineering,2012,23(1):1-4,24.
    [2]
    王胜,兰晶晶,田立强,等.geoNEXT智能化综合录井系统[J].录井工程,2012,23(3):49-53. WANG Sheng,LAN Jingjing,TIAN Liqiang,et al.geoNEXT intellectualized comprehensive mud logging system[J].Mud Logging Engineering,2012,23(3):49-53.
    [3]
    杨明清.国内深水录井技术初探[J].海洋石油,2011,31(3):68-71. YANG Mingqing.Preliminary study of domestic deepwater mud logging technology[J].Offshore Oil,2011,31(3):68-71.
    [4]
    吕福亮,贺训云,武金云,等.世界深水油气勘探形势分析及对我国深水油气勘探的启示[J].海洋石油,2007,27(3):41-45. LYU Fuliang,HE Xunyun,WU Jinyun,et al.The current situation and trend of deepwater oil and gas exploration of the world and the inspiration for us[J].Offshore Oil,2007,27(3):41-45.
    [5]
    黄小刚,廖国良,魏忠.FLAIR井场实时流体检测系统[J].录井工程,2005,16(4):66-67,72. HUANG Xiaogang,LIAO Guoliang,WEI Zhong.FLAIR wellsite real-time fluid detecting system[J].Mud Logging Engineering,2005,16(4):66-67,72.
    [6]
    FUERTES A B.Adsorption-selective carbon membrane for gas separation[J].Journal of Membrane Science,2000,177(1/2):9-16.
    [7]
    HARMON R S,RUSSO R E,HARK R R.Applications of laser-induced breakdown spectroscopy for geochemical and environmental analysis:a comprehensive review[J].Spectrochimica Acta Part B-Atomic Spectroscopy,2013,87(9):11-26.
    [8]
    刘应忠.现代石油录井技术体系解析[J].录井工程,2015,26(3):1-5. LIU Yingzhong.Modern petroleum mud logging technology system[J].Mud Logging Engineering,2015,26(3):1-5.
    [9]
    宿雪,葛洪魁,杨微,等.钻柱振动录井的研究现状及发展趋势[J].石油钻探技术,2009,37(5):15-19. SU Xue,GE Hongkui,YANG Wei,et al.Development of drill string vibration logging[J].Petroleum Drilling Techniques,2009,37(5):15-19.
    [10]
    LUO Y,BHARUCHA K,SAMUEL R,et al.A simple,practical approach provides a technique for calibrating tortuosity factors[J].Oil Gas Journal,2003,101(35):69-72.
    [11]
    SALLE B,LACOUR J L,MAUCHIEN P,et al.Comparative study of different methodologies for quantitative rock analysis by laser-induced breakdown spectroscopy in a simulated Martian atmosphere[J].Spectrochimica Acta Part B-Atomic Spectroscopy,2006,61(3):301-313.
    [12]
    张卫.随钻井下气体检测技术进展[J].录井工程,2010,21(2):51-54. ZHANG Wei.Progress of downhole gas detection technology while drilling[J].Mud Logging Engineering,2010,21(2):51-54.
    [13]
    MICHEL A P M.Review:applications of single-shot laser-induced breakdown spectroscopy[J].Spectrochimica Acta Part B:Atomic Spectroscopy,2010,65(3):185-191.
    [14]
    DAVID F,GERE D R,SCANLAN F,et al.Instrumentation and applications of fast high-resolution capillary gas chromatography[J].Journal of Chromatography,1999,842(1/2):309-319.
    [15]
    尚锁贵,谭忠健,阚留杰,等.元素录井岩性识别技术及其在渤海油田的应用[J].中国海上油气,2016,28(4):30-34. SHANG Suogui,TAN Zhongjian,KAN Liujie,et al.Lithology identification technology based on element mud logging and its application in Bohai Oilfield[J].China Offshore Oil and Gas,2016,28(4):30-34.
    [16]
    张新华,邹筱春,赵红艳,等.利用X荧光元素录井资料评价页岩脆性的新方法[J].石油钻探技术,2012,40(5):92-95. ZHANG Xinhua,ZOU Xiaochun,ZHAO Hongyan,et al.A new method of evaluation shale brittleness using X-ray fluorescence element logging data[J].Petroleum Drilling Techniques,2012,40(5):92-95.
    [17]
    孙坤忠,刘江涛,王卫,等.川东南JA侧钻水平井地质导向技术[J].石油钻探技术,2015,43(4):138-142. SUN Kunzhong,LIU Jiangtao,WANG Wei,et al.Geosteering drilling techniques of horizontal sidetracking well JA,Southeast Sichuan[J].Petroleum Drilling Techniques,2015,43(4):138-142.
    [18]
    FAIN D E.Mixed gas separation technology using inorganic membrane[J].Membrane Technology,2000,120:9-13.
    [19]
    杨明清.综合录井在俄罗斯钻井井控中的应用分析[J].中外能源,2011,16(5):74-76. YANG Mingqing.Application of mud logging in well control of Russian drilling[J].Sino-Global Energy,2011,16(5):74-76.
    [20]
    陆黄生.综合录井在钻井工程中的应用现状与发展思考[J].石油钻探技术,2011,39(4):1-6. LU Huangsheng.Current technology situation and developing trend of mud logging’s application in drilling engineering[J].Petroleum Drilling Techniques,2011,39(4):1-6.
    [21]
    方锡贤,王华,张淑琴.录井技术现状及空间拓展探讨[J].录井工程,2010,21(3):28-32. FANG Xixian,WANG Hua,ZHANG Shuqin.Mud logging technology development situation and the discussion on its development space expansion[J].Mud Logging Engineering,2010,21(3):28-32.
    [22]
    陈恭洋,印森林,刘岩.录井学理论体系与录井技术发展方向探讨[J].录井工程,2016,27(4):5-11. CHEN Gongyang,YIN Senlin,LIU Yan.Mud logging theory system and development direction of mud logging technology[J].Mud Logging Engineering,2016,27(4):5-11.
    [23]
    曹国光,姚金志,马呈芳.录井装备计量检测现状与发展思考[J].录井工程,2014,25(1):73-75. CAO Guoguang,YAO Jinzhi,MA Chengfang.Status and development of metering and testing for mud logging equipment[J].Mud Logging Engineering,2014,25(1):73-75.
  • Cited by

    Periodical cited type(10)

    1. 胜亚楠. 基于井下参数测量的钻柱运动特征及异常状态分析方法. 石油地质与工程. 2024(02): 108-111+126 .
    2. 肖立志,罗嗣慧,龙志豪. 井场核磁共振技术及其应用的发展历程与展望. 石油钻探技术. 2023(04): 140-148 . 本站查看
    3. 朱柏宇,陈恭洋,毛敏,程乐利,杨毅,袁胜斌. 录井基础实验平台建设与应用. 录井工程. 2022(01): 1-10 .
    4. 韩忠勤. 浅议地质录井技术在煤层气地质勘探中的运用. 冶金管理. 2021(03): 87-88 .
    5. 韩忠勤. 数字测井技术在煤田地质勘探中的应用分析. 当代化工研究. 2021(10): 87-88 .
    6. 张吉亮. 浅谈煤层气勘探井录井技术方法. 地质装备. 2020(03): 31-32+21 .
    7. 刘开绪,吴春梅,马骏驰,郝健,王冰茜. 综合录井仪电导率传感器现场检定装置设计. 仪表技术与传感器. 2020(06): 50-54 .
    8. 杨志升. 石油地质与录井的相互影响与协调. 中国石油和化工标准与质量. 2019(06): 116-117 .
    9. 王磊,万亚旗. 科威特市场录井装备及高端技术服务发展思考. 录井工程. 2019(04): 102-104+111+149-150 .
    10. 张新华,佘明军,王舒,夏杰. 激光技术在录井工程中的应用进展及展望. 石油钻探技术. 2018(06): 111-117 . 本站查看

    Other cited types(0)

Catalog

    Article Metrics

    Article views (2027) PDF downloads (2306) Cited by(10)
    Related

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return