Investigation on synergistic deposition of wax and hydrates in waxy water-in-oil(W/O) flow systems  被引量：1

作　　者：Yang Liu Xiao-Fang Lv Qian-Li Ma Shi-Dong Zhou Bo-Hui Shi Hui Du Yun Lei Peng-Fei Yu Shang-Fei Song Jing Gong Bing-Cai Sun 

机构地区：[1]Jiangsu Key Laboratory of Oil and Gas Storage and Transportation Technology,Changzhou University,Changzhou,Jiangsu,213164,China [2]Institute of Petroleum Engineering Technology,Sinopec Northwest Oil Field Company,Urumqi,Xinjiang,830011,China [3]National Engineering Laboratory for Pipeline Safety/State Key Laboratory of Natural Gas Hydrate,China University of Petroleum-Beijing,Beijing,102249,China [4]CNPC Safety and Environmental Protection Technology Research Institute Co.Ltd,Beijing,102206,China

出　　处：《Petroleum Science》2022年第4期1840-1852,共13页石油科学（英文版）

基　　金：supported by the National Natural Science Foundation of China (Grant No. 52004039&51804046&51974037);Open Project of Jiangsu Key Laboratory of Oil-gas Storage and Transportation Technology (Grant No. CDYQCY202102);China Postdoctoral Science Foundation (Grant No. 2021M693908)。

摘　　要：Elucidating the synergistic effect of wax and hydrates, involving formation, aggregation and deposition,is imperative to the operation and transportation safety for offshore petroleum fields. To understand the characteristics and mechanism of synergistic deposition of wax and hydrates, flow and deposition experiments of systems with different wax contents(0-2.89 wt%), initial flow rates, pressures and temperatures were conducted in a high pressure visual flow loop. According to the flow rate and pressure drop data as well as the visual window observation, four different types of plugging scenarios of waxhydrate coexisting systems with different flow properties and wall deposition state were summarized,including rapid plugging, transition plugging, gradual plugging type I and gradual plugging type II.Compared with the wax-free system after hydrate formation, even with the addition of anti-agglomerant(AA) with the same concentration, wax-hydrate coexisting systems could not reach stable hydrate slurry flow state, indicating that the existence of wax deteriorated the performance of AA. Aside from the influence of wax crystals on hydrate agglomeration, it was found that wax deposition layer would alter the adhesion and bedding of hydrates, resulting in the variation of flow properties and wall deposition state.For low wax content systems(0.75 wt%) where rapid plugging occurred, the synergistic effect between wax and hydrates promoted the formation of wax-hydrate coupling aggregates, resulting in severe local deposition when the coupling aggregates attained critical deposition size and consequently decreasing flow rate, forming a vicious circle of decreasing transportability. Since bedding of coupling aggregates was hindered by the uniformly coated wax deposition layer on pipe wall, gradual plugging rather than rapid plugging occurred in medium wax content systems(1-1.25 wt%), predominately caused by the gradual increment in viscosity of waxy hydrate slurry. For relatively high wax content systems(2.89 wt%), hydrate f

关 键 词：Flow assurance WAX HYDRATES Flow properties Synergistic deposition 

分 类 号：TE53[石油与天然气工程—油气田开发工程]