Volume 37 Issue 6
Dec.  2020
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LIU Fengbao, WU Xingxing, XU Tongtai, WANG Wei, WANG Danbin. New Progresses Made in the Study of Minimizing Damage to Oil and Gas Reservoirs with Micronized Manganese Ore Weighting Agent[J]. DRILLING FLUID & COMPLETION FLUID, 2020, 37(6): 677-684. doi: 10.3969/j.issn.1001-5620.2020.06.001
Citation: LIU Fengbao, WU Xingxing, XU Tongtai, WANG Wei, WANG Danbin. New Progresses Made in the Study of Minimizing Damage to Oil and Gas Reservoirs with Micronized Manganese Ore Weighting Agent[J]. DRILLING FLUID & COMPLETION FLUID, 2020, 37(6): 677-684. doi: 10.3969/j.issn.1001-5620.2020.06.001

New Progresses Made in the Study of Minimizing Damage to Oil and Gas Reservoirs with Micronized Manganese Ore Weighting Agent

doi: 10.3969/j.issn.1001-5620.2020.06.001
  • Received Date: 2020-08-15
  • Publish Date: 2020-12-28
  • Barite used in drill-in fluids causes damage to the reservoir formations and the permeability impaired by the damage is quite difficult to recover. Micromax, a new acid soluble micronized manganese ore weighting agent, has recently been used in drill-in fluids. This paper summarizes the effects of Micromax weighted drilling fluids on the protection of reservoirs and analyzes the mechanisms with which the Micromax is used to improve the performance of drilling fluids in protecting hydrocarbon reservoirs. Micromax after invading into the reservoir formations can be flowed back because of its particle properties such as uniformity, high hardness and high sphericity, which are helpful to the mitigation of formation damage. Micromax is acid soluble. Acids suitable for the acidification of Micromax are investigated and the effects of Micromax before and after acidification on the physical properties of the reservoirs are compared. Reservoir damage can be eliminated by acidification with a suitable acid fluid of proper concentration.

     

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  • [1]
    田惠, 刘音, 赵雷, 等. 水溶性钻井液加重剂的研制及性能评价初探[J]. 石油化工应用, 2017, 36(2):152-154.

    TIAN Hui, LIU Yin, ZHAO Lei, et al. Preparation and performance evaluation of water soluble drilling fluid weighting agent[J]. Petrochemical Industry Application, 2017, 36(2):152-154.
    [2]
    BAILEY L, BOEK E S, JACQUES S D M, et al. Particulate invasion from drilling fluids[J]. SPE Journal, 2000, 5(4):412-419.
    [3]
    杨淼. J油田低产低效井酸化增产技术研究[D]. 西南石油大学, 2014. YANG Miao. Research on acidizing stimulation technology of low yield and low efficiency wells in J oilfield[D]. Southwest Petroleum University, 2014.
    [4]
    黄维安, 邱正松, 钟汉毅. 高密度钻井液加重剂的研究[J]. 国外油田工程, 2010, 26(8):37-40.

    HUANG Weian, QIU Zhengsong, ZHONG Hanyi, et a1.Study on weighting agent of high density mud[J]. Foreign Oilfield Engineering, 2010, 26(8):37-40.
    [5]
    王佩珊. 碳酸盐岩储层水平井基质酸化模式优化研究[D]. 西南石油大学, 2014. WANG Peishan. Optimization of matrix acidizing model for horizontal wells in carbonate reservoirs[D]. Southwest Petroleum University, 2014.
    [6]
    SLOAN Jr J P, BROOKS, et al. A new, nondamaging, acid-soluble weighting material[J]. Soc. Pet. Eng. AIME, Pap.; (United States), 1975:4782.
    [7]
    SIDDIQUI M A A, NASR-EL-DIN H A. Evaluation of special enzymes as a means to remove formation damage induced by drill -in fluids in horizontal gas wells in tight reservoirs[J]. Spe Production & Facilities, 2005, 20(3):177-184.
    [8]
    张晖, 蒋绍宾, 袁学芳, 等. 微锰加重剂在钻井液中的应用[J]. 钻井液与完井液, 2018, 35(1):1-7.

    ZHANG Hui, JIANG Shaobin, YUAN Xuefang, et al. Application of micro powder manganese weighting agent in drill-in fluids[J].Drilling Fluid & Completion Fluid, 2018, 35(1):1-7.
    [9]
    王琳, 林永学, 杨小华, 等. 不同加重剂对超高密度钻井液性能的影响[J]. 石油钻探技术, 2012, 40(3):48-53.

    WANG Lin, LIN Yongxue, YANG Xiaohua, et al. Effects of weighting agent on ultra-high density drillingfluid's performace[J]. Petroleum Drilling Techniques, 2012, 40(3):48-53.
    [10]
    M AL-BAGOURY, CD STEELE. A new, alternative weighting material for drilling fluids[J]. IADC/SPE 151331.
    [11]
    邱正松, 韩成, 黄维安. 国外高密度微粉加重剂研究进展[J]. 钻井液与完井液, 2014, 31(3):78-82.

    QIU Zhengsong, HAN Cheng, HUANG Wei'an. Research progress of high density micropowder weighting agent abroad[J]. Drilling Fluid & Completion Fluid, 2014, 31(3):78-82.
    [12]
    韩成, 邱正松, 黄维安, 等. 新型高密度钻井液加重剂Mn3O4的研究及性能评价[J]. 西安石油大学学报(自然科学版), 2014, 29(2):89-93. HAN Cheng, QIU Zhengsong, HUANG Weian, et al. Performance evaluation of high-density drilling fluid weighting agent Mn3O4[J]. Journal of Xi'an Petroleum University(Natural Science Edition), 2014, 29(2):89-93.
    [13]
    STEELE CHRISTOPHER, MATERIALS ELKEM, HART L WILLIAM, et al. Microfine particles-an alternative to heavy brines[R]. SPE 105148, 2007.
    [14]
    AL-BAGOURY M, STEELE C. Liquid weight material for drilling & completion fluids[J]. SPE/IADC 178157.
    [15]
    MOAJIL A M A, RABIE A I, NASR-EL-DIN H A, et al. Effective dispersants for Mn3O4 water-based drilling fluids:influence of clay and salt[C]//Offshore Technology Conference Asia, 2016.
    [16]
    AL-YAMI A S, H A NASR-EL-DIN. An innovative manganese tetroxide/KCl water-based drill-in fluid for HT/HP wells[C]. SPE 110638, 2007.
    [17]
    AL-YAMI A S, H A NASR-EL-DIN, M A ALSHAFEI, et al. Impact of water-based drill-in fluids on solids invasion and damage characteristics[C]. SPE 117162, 2008.
    [18]
    AL-YAMI A S, H A NASR-EL-DIN, M A BATAWEEL, et al. Formation damage induced by various water-based fluids used to drill HP/HT wells[C]. SPE 112421, 2008.
    [19]
    AL-YAMI A S, NASR-EL-DIN H A, AL-SHAFEI M, et al. Impact of water-based drilling-in fluids on solids invasion and damage characteristics[J]. Spe Production & Operations, 2010, 25(1):40-49.
    [20]
    AL MOAJIL A M, H A NASR-EL-DIN. Removal of manganese tetraoxide filter cake using a combination of HCl and organic acid[J]. Journal of Canadian Petroleum Technology, 2014, 53(2):122-130.
    [21]
    CHERN G, L HORNG, M Z LIN, et al. Structural and magnetic characterization of Fe3O4/Mn3O4 superlattices[J]. Journal of Magnetism & Magnetic Materials, 2000, 209(1):138-141.
    [22]
    AL MOAJIL A M, H A NASR-EL-DIN, A S ALYAMI, et al. Removal of filter cake formed by manganese tetraoxide-based drilling fluids[C]. SPE 112450, 2008.
    [23]
    MOAJIL A M A, NASR-EI-DIN H A. Formation damage caused by improper Mn3O4-based filter-cakecleanup treatments[J]. Journal of Canadian Petroleum Technology, 2013, 52(1):64-74.
    [24]
    ELKATATNY S, AL MOAJIL A M, NASR-EL-DIN H A. Evaluation of a new environmentally friendly treatment to remove Mn3O4 filter cake[J]. SPE 156451, 2012.
    [25]
    ABDULLAH M AL MOAJIL, HISHAM A NASR-ELDIN.Formation damage caused by improper Mn3O4-based filter cake cleanup treatments[J]. SPE 144179, 2011.
    [26]
    LUSIANA CHENDRIKA, PURWITANINGTYAS I M, MUHAMMAD FUAD. First removal of manganese tetraoxide water-based mudcake in HP/HT Wells with H2S and CO2 environment using acetic acid conveyed with coiled tubing[J]. Journal of OnePetro November, SPE 189248, 2017.
    [27]
    王双威, 曹权, 张洁, 等. 四氧化三锰加重剂提高钻井液储层保护效果研究[J]. 化学工程与装备, 2019(8):106-109. WANG Shuangwei, CAO Quan, ZHANG Jie, et al. Study on improving reservoir protection effect of drilling fluid with Mn3

    O4 weighting agent[J]. Chemical Engineering and Equipment, 2019(8):106-109.
    [28]
    苗海龙. 高温高压高含硫化氢气田储层钻开液研究和应用[J]. 非常规油气, 2017, 4(5):83-87.

    MIAO Hailong.Study and application of drill-in fluid in high temperature, high pressure and high H2S content gas field[J].Unconventional Oil & Gas, 2017, 4(5):83-87.
    [29]
    MOHAMED AL-BAGOURY, CHRISTOPHER STEELE. Potassium formate/manganese tetraoxide fluid for ultra HPHT drilling[J]. AADE-14-FTCE-44, 2014.
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