Volume 35 Issue 3
May  2018
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LUO Jiansheng, LI Zili, LUO Man, LI Huaike, LIU Gang, ZHAO Chunhua. Status Quo of the Development of Deep Water Drilling Fluids Worldwide[J]. DRILLING FLUID & COMPLETION FLUID, 2018, 35(3): 1-7. doi: 10.3969/j.issn.1001-5620.2018.03.001
Citation: LUO Jiansheng, LI Zili, LUO Man, LI Huaike, LIU Gang, ZHAO Chunhua. Status Quo of the Development of Deep Water Drilling Fluids Worldwide[J]. DRILLING FLUID & COMPLETION FLUID, 2018, 35(3): 1-7. doi: 10.3969/j.issn.1001-5620.2018.03.001
shu

Status Quo of the Development of Deep Water Drilling Fluids Worldwide

doi: 10.3969/j.issn.1001-5620.2018.03.001

  • 1. COSL, Yanjiao, Hebei 065201;

  • 2. CNOOC EnerTech-Drilling & Production Co., Tianjin 300452

  • Received Date: 2017-12-05
  • Publish Date: 2018-05-30
    Abstract
  • In this paper the formation characteristics of the deep water areas in GOM, Brazil and West Africa are analyzed. Characteristics of the salt formation and technical challenges encountered in drilling operations are introduced with emphasis. Requirements on drilling fluid design for use in drilling the deep water salt formation and active mudstone are presented. The status quo of the development of deep water drilling fluids is summarized by introducing the deep water high performance water base drilling fluids and deep water synthetic base drilling fluids with constant rheological profile developed by different companies.

     

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    • References(24)
  • [1]
    ZAMORA M, BROUSSARD P N, STEPHENS M P. The top 10 mud-related concerns in deepwater drilling operations[R]. SPE 59019, 2000.
    [2]
    JULIANNE ELWARD-BERRY, THOMAS E W. Rheologically stable deepwater drilling fluid development and application[R]. IADC/SPE 27453, 1994.
    [3]
    EIRIKSØRGÅRD, EVA ALTERÅS, NORSK HYDRO, et a1. Design of water-based drilling-fluid systems for deepwater Norway[R]. SPE 67834, 2001.
    [4]
    SAIRAM PKS, RAHULPATIL, SANDIPPATIL. Design considerations for isolating gas-hydrate-bearing zones in deepwater environments[R]. SPE 157280, 2012.
    [5]
    黄浩清. 安全环保的新型水基钻井液ULTRADRILL[J]. 钻井液与完井液,2004,21(6):4-7.

    HUANG Haoqing.An environmentally safe waterbase drilling fluid ULTRADRILL[J]. Drilling Fluid & Completion Fluid,2004,21(6):4-7.
    [6]
    孔庆明, 常锋, 孙成春, 等,ULTRADRⅡ 水基钻井液在张海502FH井的应用[J]. 钻井液与完井液,2006, 23(6):71-74.

    KONG Qingming, CHANG Feng, SUN Chengchun, et a1. Application of ULTRADRILL water-base mud in well 502FH[J]. Drilling Fluid & Completion Fluid,2006, 23(6):71-74.
    [7]
    ARVIND PATEL,EMANUEL STAMATAKIS,ERIE DAVIS.High performance water-based drilling mud and method of use:US 0155157[P].2003.
    [8]
    SCHLEMER R, PATEL A, FRIEDHEIM J, et a1. Progression of water-based fluids based on amine chemistry-can the road lead to true oil mud replacements?[R]. AADE-O3NTCE-36.2003, 4:1-3.
    [9]
    ARVIND PATEL, EMANUEL STAMATAKIS, ERIC DAVIS. Shale hydration inhibition agent and method of use:US 6247543[P]. 2001.
    [10]
    ARVIND PATEL, EMANUEL STAMATAKIS, JAMES E, et a1. Highly inhibitive water-based fluid system provides superior chemical stabilization of reactive shale formations[R]. AADE-01-NC-H 0-55, 2001, 3:27-29.
    [11]
    PAT WATSON, ERIC KOLSTAD, RICHARD BORSTMAYER, et a1.An innovative approach to development drilling in deepwater gulf of Mexic[R]. SPE/IADC 79809, 2003.
    [12]
    RICHARD LEAPER, NELS HANSEN, MIKE OTTO, et a1. Meeting deepwater challenges with high performance water based mud[R]. AADE-06-DF-HO-31, 2006.
    [13]
    MORTON K, BOMAR B, SCHILLER M, et a1. Selection and evaluation criteria for high performance drilling fluids[R]. SPE 96342, 2005, 10:9-10.
    [14]
    罗健生,李自立,刘刚,等. HEM聚胺深水钻井液南中国海应用实践[J]. 石油钻采工艺,2015,37(1):119-120.

    LUO Jiansheng,LI Zili,LIU Gang, et al. Practical application of HEM polyamine fluid for deepwater drilling in south China sea[J]. Oil Drilling &Production Technology,2015,37(1):119-120.
    [15]
    罗健生, 李自立, 李怀科, 等,HEM深水聚胺钻井液体系的研究与应用[J]. 钻井液与完井液,2014,31(1):20-23.

    LUO Jiansheng,LI Zili,LI Huaike, et al. Research and application of HEM deepwater poly-amine mud[J]. Drilling Fluid & Completion Fluid, 2014, 31(1):20-23.
    [16]
    DAVID KNOX, ROMAN BULGACHEV, LAIN CAMERON. Defining fluids-the challenge of engineering drilling fluids for narrow ECD windows[R]. SPE/IADC-173059-MS,2015
    [17]
    FRIEDHEIM J E, CONN H L. Second generation synthetic fluids in the north sea:Are they better?[R]. IADC/SPE 35061,1996.
    [18]
    STEVE YOUNG, JIM FRIEDHEIM, JOHN LEE, et a1. A new generation flat rheology invert drilling fluids[R]. SPE 154682, 2012.
    [19]
    E VAN OORT, J LEE, J FRIEDHEIM, et a1. New flat rheology synthetic-based mud for improved deepwater drilling[R]. SPE 90987, 2004.
    [20]
    KIM BURROWS, JOANNAH EVANS, JOHN HALL, et a1.New low viscosity ester is suitable for drilling fluids in deepwater applications[R]. SPE 66553, 2001.
    [21]
    JEFF KIRSNER,HUMBLE, DON SIEMS, et a1. Method of formulating using a drilling mud with fragile Gels:US6887832[P].2005.
    [22]
    罗健生, 刘刚, 李超, 等.深水FLAT-PRO合成基钻井液体系研究及应用[J]. 中国海上油气, 2017, 29(3):61-66.

    LUO Jiansheng, LIU Gang,LI Chao,et al. Research and application of FLAT-PRO synthetic based drilling fluid system in deep water[J]. China Offshore Oil and Gas,2017,29(3):61-66.
    [23]
    罗健生,李自立,刘刚,等. 深水用煤制油恒流变合成基钻井液体系的研制[J]. 中国海上油气,2014,26(3):74-77.

    LUO Jiansheng,LI Zili,LIU Gang,et al. Development of the liquefaction-based drilling fluid system with constant rheology used in deep water[J].China Offshore Oil and Gas,2014,26(1):74-77.
    [24]
    耿娇娇,鄢捷年,李怀科,等.具有恒流变特性的深水合成基钻井液[J]. 石油钻探技术, 2010, 38(2):91-94.

    GENG Jiaojiao,YAN Jienian,LI Huaike,et a1. Synthetic based drilling fluid with constant-rheology used in deepwater drilling[J].Petroleum Drilling Techniques,2010,38(2):91-94.
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