Issue 43, 2021, Issue in Progress

Optimization of closed-cycle oil recovery: a non-thermal process for bitumen and extra heavy oil recovery

Abstract

Energy from unconventional resources includes bitumen and extra-heavy oil that represent two-thirds of the known resources in the world. Extra-heavy oil and bitumen are currently recovered using thermal processes having a large carbon footprint and significant environmental impacts on water resources. A novel process is proposed: closed-cycle oil recovery (C-COR). C-COR is a greener alternative to provide energy from these unconventional resources with minimal water consumption. C-COR relies on recovering oil solubilized within a single-phase microemulsion, eliminating the need for viscosity reduction to both mobilize heavy oil or to transport it. Proof-of-concept work was conducted using conventional phase behavior experiments with extracted oil and surfactant formulations to develop a surfactant formulation for oil recovery using C-COR. As a part of process development and scale-up, we conducted flow experiments presented in this paper. We learned that a high degree of surfactant adsorption, which negatively impacted the C-COR process, resulted at low pH levels. These findings required modifying traditional static batch tests (phase behavior studies) using actual oil sand instead of the extracted oil. These unorthodox tests revealed that surfactant adsorption caused low oil solubilization and that alkali can be used to reduce adsorption, improving oil solubilization. In addition, unique flow experiments were designed to optimize the delivery and recovery process and are presented in this paper. The unique batch tests and flow experiments were conducted using oil sands from Canada to optimize the process. The proposed optimized approach would employ intermittent flow (soaking) that would result in the fastest recovery of about one-third of the OOIP, followed by continuous injection to recover an additional 10% OOIP, ending with thermal enhancement to recover another 25% OOIP for a total of 61%.

Graphical abstract: Optimization of closed-cycle oil recovery: a non-thermal process for bitumen and extra heavy oil recovery

Supplementary files

Article information

Article type
Paper
Submitted
12 Apr 2021
Accepted
23 Jul 2021
First published
02 Aug 2021
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2021,11, 26554-26562

Optimization of closed-cycle oil recovery: a non-thermal process for bitumen and extra heavy oil recovery

P. Sharma, K. Kostarelos and M. Salman, RSC Adv., 2021, 11, 26554 DOI: 10.1039/D1RA02855C

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