%0 Journal Article
%T 稠油油藏注超临界多元热流体研究
Study on Injection of Supercritical Multi-Thermal Fluid into Heavy Oil Reservoirs
%A 高宇
%A 肖岸峰
%A 陈潇
%J Mine Engineering
%P 13-17
%@ 2329-731X
%D 2025
%I Hans Publishing
%R 10.12677/me.2025.131003
%X 我国稠油资源潜力巨大,随着开采条件的逐渐复杂,常规的热采技术不断受到限制,导致采收率逐渐降低。为了解决这一难题,开展了超临界多元热流体热采稠油提高采收率的研究。根据前人的结果,超临界多元热流体作为一种新型热介质,相比于蒸汽,超临界多元热流体能与稠油发生热裂解反应,形成混相驱替等,显著地提高了稠油油藏的采收率。因此,超临界多元热流体开采稠油具有极大的潜力。
China has significant potential in heavy oil resources; however, as exploitation conditions grow increasingly complex, conventional thermal recovery techniques face mounting limitations, resulting in declining recovery rates. To address this issue, research on enhancing heavy oil recovery using supercritical multi-thermal fluid thermal recovery has been initiated. According to previous findings, supercritical multi-thermal fluid, as a novel thermal medium, can induce thermal cracking reactions with heavy oil, form miscible displacement, and significantly enhance the recovery rate of heavy oil reservoirs compared to steam. Thus, supercritical multi-thermal fluid exploitation of heavy oil holds great promise.
%K 稠油开采,
%K 超临界多元热流体,
%K 采收率
Heavy Oil Recovery
%K Supercritical Multi-Thermal Fluid
%K Recovery Efficiency
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=104319