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Water alternating gas (WAG) recovery process evaluation through simulation for a giant middle-eastern carbonate reservoir

Mayur Pal

2022Petroleum Science and Technology10 citationsDOI

Abstract

The objectives of this article it to present a water alternating gas (WAG) process evaluation methodology for a giant middle eastern carbonate reservoir. The methodology involves enhanced oil recovery through an immiscible hydrocarbon water alternating gas (WAG) injection method. Although water alternating gas injection is a proven enhance oil recovery technique and has been around for some time now, only a limited published literature is available on complete evaluation of immiscible WAG process in field application. This article aims to bridge the gap by presenting a detailed study of immiscible water alternating gas evaluation process. In this article a complete methodology for evaluating a water alternating gas injection recovery technique is presented. It includes optimization of WAG cycle length, WAG ratio, production constraints, injected gas compositions, WAG duration, and WAG slug size. The work presented in this article could aid oil field operators to understand the impact of different parameters on immiscible WAG injection process and potentially help them to optimize production from their fields.

Topics & Concepts

Petroleum engineeringCarbonateEnhanced oil recoveryNatural gas fieldEnvironmental scienceGeologyNatural gasMaterials scienceEngineeringWaste managementMetallurgyEnhanced Oil Recovery TechniquesReservoir Engineering and Simulation MethodsHydrocarbon exploration and reservoir analysis
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