Study on Filtration Efficiency of Filter Elements for Lubricating Oil Separation
2025
Hongjun Li | Shengping Wang | Mingxin Liu | Rongjun Song | Kailong Cui | Cheng Chang
For the gas injection process in the underground natural gas storage, it is of great significance to separate lubricating oil droplets from natural gas to ensure the capacity of gas injection. However, the interaction mechanism, among various factors, is still unclear in real field conditions. In this study, the filtration performances of filter elements were investigated in a range of gas temperatures from 20 °:C to 70 °:C, aerosol concentrations from 400 mg/m3 to 1200 mg/m3 and flowrates from 37.2 m3/h to 74.4 m3/h. The results show that at the same flowrate, the steady-state filtration efficiency decreases with increasing temperature, resulting from a shift in the upstream aerosol towards the smaller size and an increase in the concentration for droplets within the range of 0.3 to 2 &mu:m. The filtration efficiency only increases by 0.02% at 20 °:C, while the steady-state efficiency increases by more than 0.10% at 70 °:C and all the flowrates. At the same gas temperature and aerosol concentration, the steady-state filtration efficiency increases with the increase in flowrate. In practical applications, the filtration performance can be improved by lowing the gas temperature, setting up fewer filter elements in the separator, and appropriately reducing the injection amount of lubricating oil.
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