Investigation of Gas-liquid Separation Experiment of Electric Pump Drainage and Gas Extraction Unit in High Gas-liquid Ratio Gas Wells

萃取(化学) 湿气 气体变液体 石油工程 材料科学 化学 机械 废物管理 色谱法 工程类 物理
作者
Bao Zhang,Hongtao Jing,Zhixiong Tu,Hangbo Cui,Xiaofei Bai,Huaiguang Zhou,Xiaotong Yu,Dabin Fan,Longlong Xue,T. R. Liu
出处
期刊:Journal of physics [IOP Publishing]
卷期号:2659 (1): 012033-012033
标识
DOI:10.1088/1742-6596/2659/1/012033
摘要

Abstract Given the prominent problem of water in the Tarim basin of China with high formation temperature and large water production, a preferred scheme of electric pump drainage and gas extraction unit for gas fields with a high gas-liquid ratio is proposed by the mechanical principle and structural design method. Then, the corresponding electric pumps were developed, and the drainage and gas extraction scheme of a permanent magnet electric pump unit with gas-liquid separation in the way of an inverted deflector is designed. Through indoor experiments simulating the downhole gas-liquid ratio environment, the gas-liquid separation ability and adaptability of the design scheme under different good conditions are verified. The results obtained demonstrate that the cable connection process can meet the requirements of high-pressure resistance (≥25 MPa), and the gas-liquid separation effect is very good in vertical wells by adopting the inverted deflector scheme. The separation effect exceeded 90% under different working conditions (production from 30 to 150 m 3 /day and inhalation gas-liquid ratio from 50% to 95% and even higher) in the experiment with high gas content. The results will promote the gas recovery rate of high gas-liquid ratio gas fields and improve extraction efficiency.
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