WANG Manxue, HE Jing, WANG Yongwei. Experimental Research on Performances of Hydrocarbon-Based Heat-Resistance Low-Carbon Fracturing Fluid[J]. Petroleum Drilling Techniques, 2017, 45(4): 93-96. DOI: 10.11911/syztjs.201704016
Citation: WANG Manxue, HE Jing, WANG Yongwei. Experimental Research on Performances of Hydrocarbon-Based Heat-Resistance Low-Carbon Fracturing Fluid[J]. Petroleum Drilling Techniques, 2017, 45(4): 93-96. DOI: 10.11911/syztjs.201704016

Experimental Research on Performances of Hydrocarbon-Based Heat-Resistance Low-Carbon Fracturing Fluid

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  • Received Date: December 18, 2016
  • Revised Date: June 15, 2017
  • Conventional water-free fracturing fluid can characterized by poor heat-resistance.Under such circumstances,water-free fracturing fluids based on low-carbon chain hydrocarbon pentane,phosphate surfactant (LPEA-1) and viscosity promoter (FS-1) were developed with desirable heat-resistant performances.In the concerned study,the properties of the fracturing fluid Frac-H were evaluated.The viscosity of the fracturing fluids is higher than 50 mPa·s after a continuous shearing of 120 min under temperature 130℃ and a shearing rate of 170 s-1 and it may have maximum viscosity after 180 s.No gel breaker is required during gel breaking processes.In addition,no residue was found in the fluids after gel breaking.The pentane-based Frac-H fracturing fluid may cause slightly higher damage to shale formations than to tight formations,but they are much less than those induced by water-based fracturing fluids.Research results showed that the pentane-based Frac-H fracturing fluid with pentane,phosphate surfactant and viscosity promoter can effectively meet the performance requirements towards frac fluid in unconventional reservoirs fracturing treatment.
  • [1]
    许春宝,何春明.非常规压裂液发展现状及展望[J].精细石油化工进展,2012,13(6):1-5. XU Chunbao,HE Chunming.Status quo and prospect of unconventional fracturing fluids development[J].Advances in Fine Petrochemicals,2012,13(6):1-5.
    [2]
    侯向前,卢拥军,方波,等.非常规储集层低碳烃无水压裂液[J].石油勘探与开发,2013,40(5):601-605. HOU Xiangqian,LU Yongjun,FANG Bo,et al.Waterless fracturing fluid with low carbon hydrocarbon as base fluid for unconventional reservoirs[J].Petroleum Exploration and Development,2013,40(5):601-605.
    [3]
    赵金洲,刘鹏,李勇明,等.适用于页岩的低分子烷烃无水压裂液性能研究[J].石油钻探技术,2015,43(5):15-19. ZHAO Jinzhou,LIU Peng,LI Yongming,et al.The properties of non-aqueous fracturing fluid with low-molecular alkane suitable for shales[J].Petroleum Drilling Techniques,2015,43(5):15-19.
    [4]
    王满学,何静,张文生.磷酸酯/Fe3+型油基冻胶压裂液性能研究[J].西南石油大学学报(自然科学版),2013,35(1):150-154. WANG Manxue,HE Jing,ZHANG Wensheng.Performance research of oil-based gelled fracture fluid based on the phosphoric acid ester and ferric iron[J].Journal of Southweast Petroleum University(Science Technology Edition),2013,35(1):150-154.
    [5]
    吴安明,陈茂涛,王满学,等.影响磷酸酯铝类油基冻胶压裂液性能的因素[J].西安石油学院学报(自然科学版),1998,13(6):28-30,37. WU Anming,CHEN Maotao,WANG Manxue,et al.The factors of influencing the properties of oil base gelled fracturing fluid[J].Journal of Xi’an Petroleum Institute(Natural Science Edition),1998,13(6):28-30,37.
    [6]
    王满学,陈茂涛.化学剂对磷酸酯类油基冻胶压裂液性能的影响[J].西安石油学院学报(自然科学版),2000,15(2):49-51. WANG Manxue,CHEN Maotao.Influences of cross-liking agents on the properties of diesel-base gel fracturing fluids[J].Journal of Xi’an Petroleum Institute(Natural Science Edition),2000,15(2):49-51.
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