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Dynamic solvent process (DSP) for enhancing heavy oil recovery

Solvent‐based heavy oil recovery techniques, such as vapour extraction (VAPEX) and cyclic solvent injection (CSI), have been attracting increasing attention in the past two decades. VAPEX suffers from slow mass transfer and inefficient gravity drainage. CSI is a solvent huff‐and‐puff process and its...

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Bibliographic Details
Published in:Canadian journal of chemical engineering 2015-05, Vol.93 (5), p.832-841
Main Authors: Jia, Xinfeng, Zeng, Fanhua, Gu, Yongan
Format: Article
Language:English
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Summary:Solvent‐based heavy oil recovery techniques, such as vapour extraction (VAPEX) and cyclic solvent injection (CSI), have been attracting increasing attention in the past two decades. VAPEX suffers from slow mass transfer and inefficient gravity drainage. CSI is a solvent huff‐and‐puff process and its production period is usually much shorter in comparison with the solvent injection and soaking periods, limiting the average oil production rate over the entire process. This paper proposes a new process, dynamic solvent process (DSP), to exploit the merits of VAPEX (continuous production) and CSI (stronger driving force) and reduce their respective limitations (inefficient gravity drainage and periodic production). DSP is a cyclic process and each cycle consists of two periods: a stable pressure period and a pressure reduction period, through which solvent is cyclically injected and oil is continuously produced. A set of laboratory experiments were performed to validate and analyze the DSP process. During the pressure reduction period of DSP, a foamy oil flow phenomenon was observed when the pressure reached the so‐called pseudo‐bubble point. The foamy oil flow not only enhanced the oil production but also improved mass transfer due to the enlarged oil–solvent contact area. Experimental results showed that the oil production rates of VAPEX and CSI were respectively enhanced by 57–123 % and 17–99 % by DSP with different well configurations.
ISSN:0008-4034
1939-019X
DOI:10.1002/cjce.22178