机构地区:[1]Yangtze University, Jingzhou, China [2]Changqing Oilfield Company Oil and Gas Technology Research Institute, National Engineering Laboratory for Exploration and Development of Low Permeability Oil and Gas Fields, Xi’an, China [3]Beijing Design Branch of China Petroleum Engineering Construction Co., Ltd., Beijing, China [4]Hubei Collaborative Innovation Center for Unconventional Oil and Gas, Wuhan, China
出 处:《Open Journal of Yangtze Oil and Gas》2020年第3期131-143,共13页长江油气(英文版)
摘 要:The Sulige gas field is a typical low-pressure low-permeability tight sandstone gas reservoir. The reservoir has poor seepage capacity, strong heterogeneity, high mineralization of formation water and extremely scarce water resources on the site. These unfavorable factors have brought great difficulties to the on-site mining process. Now, a nano-composite green environmental protection slick water fracturing fluid system CQFR can be quickly dissolved because of the larger specific surface area, and the small molecular size makes the damage to the reservoir less than 5%, and the average drag reduction effect can reach more than 73%. It can quickly and well dissolve and maintain performance under high salinity conditions and fracturing flowback fluids. It responds well to the complex reservoir conditions on the construction site and makes the flowback fluid recyable, which greatly reduces the consumption of water resources on the construction site and effectively improves the construction efficiency and economic benefits.The Sulige gas field is a typical low-pressure low-permeability tight sandstone gas reservoir. The reservoir has poor seepage capacity, strong heterogeneity, high mineralization of formation water and extremely scarce water resources on the site. These unfavorable factors have brought great difficulties to the on-site mining process. Now, a nano-composite green environmental protection slick water fracturing fluid system CQFR can be quickly dissolved because of the larger specific surface area, and the small molecular size makes the damage to the reservoir less than 5%, and the average drag reduction effect can reach more than 73%. It can quickly and well dissolve and maintain performance under high salinity conditions and fracturing flowback fluids. It responds well to the complex reservoir conditions on the construction site and makes the flowback fluid recyable, which greatly reduces the consumption of water resources on the construction site and effectively improves the construction efficiency and economic benefits.
关 键 词:Tight Sandstone Recyclable Backwater Green Environmentally Friendly Low-Damage High Salt-Resistance Slick Water
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