Effect of viscosity on gas phase and leakage vortex distribution in oil-gas mixed pump
SUN Guodong1, 2, SHI Guangtai1, 2*, WEN Haigang1, 2,HUANG Zongliu1, 2
1. Key Laboratory of Fluid and Power Machinery, Ministry of Education, Xihua University, Chengdu, Sichuan 610039, China; 2. School of Energy and Power Engineering, Xihua University, Chengdu, Sichuan 610039, China
Abstract:In order to more accurately investigate the characteristics of these vortices, such as leakage vortices and separation vortices, in the flow path of oil and gas mixing pumps when transporting media in high viscosity conditions, this article uses Euler-Eulerian nonlinearity model of homogeneous flow to analyze the gas phase distribution and vortex distribution in the oil-gas mixed pump, and uses rigid rotating vorticity to characterize the vortex intensity. The results show that the existence of the gas phase greatly affects the distribution of streamlines on the blade surface in the impeller channel of a multiphase pump. Under partial design conditions, the gas phase is mainly concentrated in the latter half of the pressure surface when the viscosity is small, and the gas phase is less distributed in the latter part of the pressure surface when the viscosity is large. The distribution of the leakage vortex under different working conditions is in good agreement with the gas phase distribution. Under the partial design condition, the aggregation degree of the gas phase at the tail of the flow channel is proportional to the visco-sity, but the local gas phase aggregation in the flow channel is improved under the large flow condition. In addition, due to the low turbulent viscosity and more shear vortices in the flow channel under high viscosity conditions, the vorticity distribution is more accurate when considering rigid rotation. The research results can serve as a theoretical reference for the optimal design of oil-gas mixed pumps.
孙国栋,史广泰,文海罡,黄宗柳,. 黏度对油气混输泵内气相和泄漏涡分布的影响[J]. 排灌机械工程学报, 2024, 42(2): 133-138.
SUN Guodong,SHI Guangtai,*,WEN Haigang,HUANG Zongliu,. Effect of viscosity on gas phase and leakage vortex distribution in oil-gas mixed pump. Journal of Drainage and Irrigation Machinery Engin, 2024, 42(2): 133-138.