Integrated Production Optimization using Implicitly Coupled Multi–Reservoirs and Facility Modeling with Miscible Gas Injection EOR in South Oman

Kumar, K.S.; Pathak, Varun; Agrawal, Pankaj; Alias, Zaal; Narwal, Tushar; Hadhrami, Abdullah Al; Eastick, Rob; Krenz, Ryan A.; Wong, J.O.; Hamedi, Yousef

doi:10.2118/203151-ms

Day 4 Thu, November 12, 2020 2020

DOI: 10.2118/203151-ms

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Integrated Production Optimization using Implicitly Coupled Multi–Reservoirs and Facility Modeling with Miscible Gas Injection EOR in South Oman

K.S. Kumar¹,

Varun Pathak²,

Pankaj Agrawal³

et al.

Abstract: An Integrated Production System Model (IPSM) is an essential tool to study the interactions between multiple reservoirs, wells and surface networks for any integrated optimal development. This paper describes a fully implicit IPSM for two interacting production system networks (critically sour facilities with >5% H2S) with multiple oil reservoirs and undergoing Miscible Gas Injection (MGI) for Enhanced Oil Recovery (EOR) using produced sour gas from oil and condensate fields in South Oman. … Show more

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Production Optimization Coupling Multiple Reservoirs and Facilities With Sour Gas Re-Injection for Miscible EOR in South Oman

Kumar¹,

Pathak²,

Agrawal³

et al. 2021

Day 3 Wed, November 17, 2021

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Effective gas utilization is critical to any gas injection development project to maximize recoveries for a given purchase of make-up gas, whilst reducing the Green Gas House (GHG) emissions. This paper describes the use of a fully implicit Integrated Production System Model (IPSM) for two inter-connected production system networks, coupling multiple, critically sour oil reservoirs undergoing Miscible Gas Injection (MGI) for Enhanced Oil Recovery (EOR) using produced sour gas from oil and condensate fields in South Oman. The IPSM model links sixteen reservoir models with varying levels of complexities to the facilities network. Complexities in the facilities include multiple nodal constraints that necessitate the use of an Equation of State model (EOS). The IPSM model honors the gas balance implicitly. Gas flood optimization includes prioritizing low GOR production wells (at reservoir and well level) whilst maintaining reservoir pressure above Minimum Miscibility Pressures (MMP). Development schedule optimization also helps in optimizing the compressor size, the key Capex component. Compositional modeling allows continuous tracking of souring levels at different nodes, providing integrity status of overall production system network. The current IPSM model helps in optimization of schedule for the phased development of the oil reservoirs and eventually the most efficient gas utilization. This has enabled low pressure operation in some reservoirs providing oil at very low unit technical cost while waiting for gas availability. Compositional tracking for H2S helps in operating the facilities within design limits whilst planning future developments to cater to this design. Some key parameters can be parameterized for quick sensitivity analysis for an informed decision making for business opportunities. The production potential of the system is also tracked to ensure there is a cushion in the system to deal with any unexpected changes. This feature helps in planning and optimizing the scheduled turn-around activities for these two inter-connected production system networks. The novelty of this work is collaboration across multiple disciplines, especially the surface and subsurface because of complex interactions between facilities constraints and reservoir performance (associated with produced gas reinjection). Compositional tracking and injection gas apportionment across multiple reservoirs is key to the overall value maximization in this complex development.

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Production Optimization Coupling Multiple Reservoirs and Facilities With Sour Gas Re-Injection for Miscible EOR in South Oman

Kumar¹,

Pathak²,

Agrawal³

et al. 2021

Day 3 Wed, November 17, 2021

View full text Add to dashboard Cite

show abstract

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Integrated Production Optimization using Implicitly Coupled Multi–Reservoirs and Facility Modeling with Miscible Gas Injection EOR in South Oman

Cited by 1 publication

References 5 publications

Production Optimization Coupling Multiple Reservoirs and Facilities With Sour Gas Re-Injection for Miscible EOR in South Oman

Production Optimization Coupling Multiple Reservoirs and Facilities With Sour Gas Re-Injection for Miscible EOR in South Oman

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