Comprehensive review of hybrid chemical enhanced oil recovery methods: synergistic mechanisms, applications, and insights into chemical-based water alternating gas techniques

Comprehensive review of hybrid chemical enhanced oil recovery methods: synergistic mechanisms, applications, and insights into chemical-based water alternating gas techniques

Abstract With the global depletion of oil reserves, the need for efficient Enhanced Oil Recovery (EOR) practices has become increasingly critical. Among these, chemical EOR stands out as a promising approach, though individual chemical methods face inherent limitations. To overcome these challenges,...

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Bibliographic Details
Main Authors: Hesam Ghorbanpour, Elnaz Khodapanah
Format: Article
Language:English
Published: SpringerOpen 2025-04-01
Series:Journal of Petroleum Exploration and Production Technology
Subjects:
Enhanced oil recovery (EOR)
Hybrid EOR
Chemical EOR (CEOR)
Water alternating gas (WAG)
Chemically enhanced WAG (CEWAG)
Online Access:https://doi.org/10.1007/s13202-025-01999-5
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Summary:Abstract With the global depletion of oil reserves, the need for efficient Enhanced Oil Recovery (EOR) practices has become increasingly critical. Among these, chemical EOR stands out as a promising approach, though individual chemical methods face inherent limitations. To overcome these challenges, hybrid EOR methods combining different chemicals have been developed, leveraging synergistic mechanisms to enhance robustness, prolong the productive life of oil fields, and significantly improve recovery factors. This paper reviews laboratory-scale research, pilot projects, and field operations of various hybrid methods, including Water Alternating Gas, Polymer Alternating Gas, Surfactant Alternating Gas, Alkaline-Surfactant-Polymer, Alkaline-Surfactant-Polymer Alternating Gas, Alkaline-Surfactant Alternating Gas, Alkaline-Surfactant, Alkaline-Polymer, and Surfactant-Polymer methods. Mechanisms of these techniques are analyzed, along with screening criteria and radar graphs for each method. Based on the reviewed studies, Surfactant-Polymer emerges as the most promising technique, offering high recovery factors despite operational challenges. By providing a comprehensive comparative analysis and practical insights, this study aims to guide future research and drive the development of innovative EOR strategies to address evolving energy demands.
ISSN:2190-0558
2190-0566

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