电控分层注聚流量调节阀设计与结构优化
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中图分类号:TE952 文献标志码:A doi:10.3969/j.issn.1001-3482.2025.04.011
Design and Structural Optimization of Electrically Controlled Throttle Valve for StratifiedPolymerInjection
HUANG Yuxuan',NIU Guifengl,WANG Liu',MA Haifeng² (1.Engineering Technology Branch of CNOOC Energy Development Co., Ltd.,Tianjin 3O0450,China; 2.SchoolofechanicalandElectricalEngineering,SouthwestPetroleum Universityhengdu6o5o,ina)
Abstract:Inviewoftheseriousviscosity loss intheelectricallycontrolledthrottlevalveforstratified polymer injection,as a core component,the throttle valve was taken as the research object,and numerical simulation and structural optimization were carried out. On the basis of an in ⋅- depthanalysis of the polymer viscosity loss mechanism,the control variable method was adopted to conduct numerical simulation research on diferent spool structures, groove pitches,groove depths,and valve section lengths.The research finds that the throttle valve with an arc shaped spool has a better viscosity retaining efect compared with throttle valves in other shapes.When the groove pitch of the arc ⋅- shaped spool is 3O mm; the groove depth is3 mm,and the valve section length is 1.O mm,the viscosityretaining performance reaches the optimal state.Moreover,bycarrying out the viscosity loss tests of the polymer injection working barrel,the viscosity-retaining effect after structural optimization is evaluated. The maximum viscosity loss rate measured for the optimized throtle valve is 8.9% ,and the viscosity loss rate has significantly decreased compared with the 12% viscosity loss rate of other oilfields. The decrease in the viscosity lossrate strongly proves the excellent viscosity -retaining effect of the optimized throttle valve in terms of viscosity retention,laying a solid foundation for the overall performance improvement of the stratified polymer injection tool.
Key words: stratified polymer injection; performance optimization; viscosity loss; numerical simulation
目前我国难以开采的重质原油或复杂油藏较多,传统的水驱方法已无法适应提高采收率要求,因此三次采油工艺也逐渐成为油田科技革命的重要环节[1-2]。(剩余6850字)