摘要
为了实现稠油井节能生产,运用传热学基本理论,建立并求解了油管电加热降黏举升工艺数学模型,较好地模拟出电加热井筒温度场变化,分析了不同加热时间抽油杆黏滞阻力及电机输出电流变化情况。在此基础上,优化了间歇加热制度,给出电加热自动启、停时的上、下限电流值确定方法。实施间歇加热后,单井能耗降低60.1%,实现了高耗电设备节能运行。油管间歇电加热方法为稠油井高效节能开发提供了新思路。
In order to realize the energy saving production for the heavy oil well,with the help of the basic theory of heat transfer,the mathematical model of the viscosity reducing and lifting technology was established and resolved by the electrical heating oil tube,thus the changes of the temperature field of the heated wellbore were well simulated,and moreover the variations of the viscosity resistance and the output current in different heating time were analyzed. On the bases of the stated above,the intermittent heating system was optimized,the determining method of the upper and lower limit currents were presented for the auto start and stop of the electric heating device. After the intermittent heating,the energy consumption fell down 60. 1% for the individual well,which makes the high-power consumption equipment run with low-energy consumption. The electric heating method of the oil tubing intermittent heating has presented a new thought for the high-efficiency and energy-saving development of the heavy oil well.
作者
王国锋
WANG Guofeng(Yushulin Oilfield Company Limited of Daqing , Daqing 163316, China)
出处
《大庆石油地质与开发》
CAS
CSCD
北大核心
2018年第3期96-100,共5页
Petroleum Geology & Oilfield Development in Daqing
基金
国家科技重大专项"复杂油气田地质与提高采收率技术"(2011ZX05009-004)
中国石油天然气股份有限公司重大科技专项"大庆油田原油4000万吨持续稳产关键技术研究"(201406010)资助
关键词
电加热
稠油
节能
举升
温度场
electrical heating
heavy oil
energy conservation
lifting
temperature field
