摘要
大庆油田芳48断块为特低渗透油藏,对该油藏进行了水驱、CO2驱、CO2吞吐、CO2转水驱、水驱转CO2驱等开采方式室内物理模拟研究。实验结果表明,该区块水驱见水早、含水率上升快、注水能力低。在上述5种气驱方式中,CO2吞吐后气驱的累积采收率最高,然后依次为水驱转CO2驱、气驱、CO2驱转水驱,CO2吞吐的累积采收率最低。从累积气油比来看,CO2吞吐累积气油比最高,其次为CO2驱,而水驱转气驱、气驱转水驱、吞吐转气驱的累积气油比较低。从气体注入能力来看,气驱的注入能力最高,而水驱转气驱、气驱转水驱的注入能力比较低。考虑开采效果和气体注入能力,芳48特低渗透油藏开采应优先选择CO2吞吐后气驱,其次为水驱转CO2驱。
Fang-48 fault block in Daqing oilfield is a super low permeability oil reservoir. The physical modeling studies are conducted by processes of water flooding, CO2 flooding, CO2 stimulation, CO2-water alternate flooding, water-CO2 alternate flooding. The experimental results indicate that the water breakthrough is early, water cut rises rapidly and water injectivity is low. Among the processes of CO2 flooding, CO2 stimulation followed by CO2 drive allows the highest cumulative oil recovery factor, in turn declining for water-CO2 alternate flooding, CO2 drive, CO2-water alternate flooding, CO2 stimulation. In view of the cumulative gas-oil ratio, it is the highest for CO2 stimulation, in turn declining for CO2 drive, water-CO2 alternate flooding, CO2-water alternate flooding, CO2 stimulation followed by CO2 drive. In light of the CO2 injectivity, it is the highest for CO2 drive, in turn declining for water-CO2 alternate flooding, CO2-water alternate flooding. Considering the production response and the CO2 injectivity, the development scheme of Fang-48 fault block should be firstly the CO2 stimulation followed by CO2 drive, secondly by water-CO2 alternate flooding.
出处
《新疆石油地质》
CAS
CSCD
北大核心
2006年第4期449-451,共3页
Xinjiang Petroleum Geology
关键词
大庆油田
低渗透油气藏
CO2
开采方式
物理模拟
Daqing oilfield
low permeability reservoir
, CO2
development scheme
recovery process
physical modeling