摘要
常规的凝析气藏衰竭开发和注CO_2开发研究中均忽略了地层水的影响,这与真实情况存在偏差,有可能导致研究结果的不确定性加大。为此,基于CO_2—烃—水相平衡热力学模型,以一个实际近临界凝析气藏为例,通过相态模拟研究了地层水存在对凝析气藏反凝析相态特征和注CO_2相态的影响规律;计算了考虑地层水存在的凝析气定容衰竭反凝析液饱和度和剩余流体组成,以及注CO_2过程中凝析油气相体积分数和CO_2在凝析油气相中体积分数的变化规律。结果表明:1考虑地层水时定容衰竭的反凝析油饱和度更大,剩余流体重组分含量更高;2近临界凝析气藏压力衰竭过程中,由凝析气转变为挥发油的相变发生得更早;3在注CO_2过程中,地层水的存在使得CO_2对凝析油的反蒸发作用降低;4考虑地层水存在时凝析油相体积分数高约14%,CO_2在凝析油中溶解量比不考虑地层水大6%,CO_2含量高和压力较高时差异更明显,同时,地层水的存在也增强了CO_2的溶解封存能力。该研究成果对凝析气藏注CO_2提高采收率和温室气体CO_2埋存评价具有指导意义。
The impacts of formation water are generally ignored when gas condensate reservoirs are developed by means of convention- al depletion and CO2 injection, but this is not exactly the actual situations, possibly making the research results more uncertain. In this paper, a real near-critical gas condensate reservoir was taken as an example for study. Based on the CO2 hydrocarbon-water phase equi- librium thermodynamic model, the impacts of formation water on retrograde condensation phase characteristics and phase behavior of CO2 injected into gas condensate reservoirs were analyzed by means of phase simulation. The compositions of the remaining fluid and the retrograde condensate saturation of the constant volume depletion were calculated by taking such impacts into consideration. Besides, volume fraction of condensate oil/gas phase during CO2 injection and the volume fraction changes of CO2 in the condensate oil/gas phase were studied. It is indicated that the content of heavy constituents in remaining fluid and the retrograde condensate saturation of constant volume depletion are higher when the impacts of formation water are taken into account. During the pressure depletion of near-critical gas condensate reservoirs, the phase transition from gas condensate to volatile oil occurs earlier. In the process of CO2 injection, the retrograde evaporation of CO2 on condensate oil is weakened due to the presence of formation water. If the impacts of formation are con- sidered, the volume fraction of condensate oil is 14% higher and the amount of CO2 dissolved in the condensate oil increases by 6%. The difference is larger with the increase of pressure and CO2 content. It is revealed that the dissolution and sequestration capacity of CO2 is enhanced due to the presence of formation water. These research results play a guiding role in evaluating the CO2 injection for enhancing the recovery of gas condensate reservoirs and CO2 (greenhouse gas) sequestration.
出处
《天然气工业》
EI
CAS
CSCD
北大核心
2016年第5期51-57,共7页
Natural Gas Industry
基金
国家自然科学基金项目“废弃气藏CO_2地质封存机制及运移规律研究”(编号:51274173)
四川省教育厅创新团队计划项目“温室气体二氧化碳埋存与资源化利用”(编号:16TD0010)
西南石油大学第二届“中青年骨干教师”培养计划资助项目
关键词
凝析气藏
近临界流体
地层水
反凝析
注CO_2
相变
热力学模型
提高凝析油采收率
Gas condensate reservoir
Near-critical fluid
Formation water
Retrograde condensation
CO2 injection
Phase transition
Thermodynamic model
Enhancement of condensate oil recovery
作者简介
作者简介:汤勇,1975年生,教授,博士,主要从事油气相态理论及测试、气田及凝析气田开发、注气提高采收率、CO2地质埋存方面的研究工作。地址:(610500)四川省成都市新都区新都大道8号。电话:13084410503。ORCID:0000—0002—2750.2225。E—mail:tangyong2004@126.com
