Meeting the Challenge of Reservoir Simulation in the World's Largest Clastic Oil Field - The Greater Burgan Field Complex, Kuwait

Ma, Eddie; Ryzhov, Sergey; Gheorghiu, Sorin; Hegazy, Osama; Banagale, M. R.; Ibrahim, Mansor; Grupinar, Omer; Dashti, Laila; Filak, Jean-Michel; Al-Houti, Reham; Ali, Farida

doi:10.2118/166202-ms

Cited by 7 publications

(1 citation statement)

References 5 publications

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“…It was a two and half years of reservoir simulation effort from history match to prediction. Details of history match (HM) model construction and model calibration were described comprehensively in the SPE paper#166206 [10] presented at the 2013 ATCE in New Orleans, Louisiana, USA.…”

Section: Dynamic Modelingmentioning

confidence: 99%

Reservoir Simulation to Support Pressure Maintenance Projects in the Greater Burgan Field, Kuwait

Gheorghiu

Banagale

et al. 2015

SPE Middle East Oil &Amp; Gas Show and Conference

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The Greater Burgan field in Kuwait is the largest clastic oil field in the world. Its sheer size, complex geology, intricate surface facility network, 5,000 well-completions and 68-years of production history represent formidable challenges in reservoir simulation. In the last two decades, many flow simulation models, part-field and full-field, were developed as reservoir management tools to study depletion plan strategies and reservoir recovery. The new 2013 Burgan flow simulation was a major undertaking in terms of effort and financial cost. The model size, innovative technology, supporting resources, integrated workflow and meticulous planning applied to this project were unprecedented.As the Burgan field has matured over time, the reservoir pressure has declined in certain areas, with associated reduced productivity. The reduction of wells' productivity, combined with the increasing water production, has necessitated improved oil recovery (IOR) initiatives in order to support the Kuwait Oil Company (KOC) 2030 strategy, sustaining oil production and ensuring high recovery from Burgan reservoirs. This paper describes the development of a dynamic model to design pressure maintenance projects for optimal reservoir management and IOR strategies. The prediction model was built on a history matched model on three levels, Global (Field), Regional (Reservoirs / Gathering Centers) and Wells. These three levels depict the concerted history matching effort in accordance with the recurrent data quality. Details of geologic and dynamic modeling have been documented and presented in previous Burgan SPE papers and are not repeated in this paper.The primary objectives of the Burgan prediction model are meeting the production target profiles with optimal field development plans (FDP) and to maximize oil recovery. Two of the most promising projects are currently in different phases of development, Wara Pressure Maintenance Project (WPMP) and Burgan Sand Upper (BGSU-PMP). In this paper, only the WPMP is discussed in detail as the waterflood project is now entering operation stage after 10 years of planning and construction. BGSU-PMP is part of the Burgan FDP but is not focused within the scope of this paper.Sub-surface modeling in the giant Greater Burgan field complex is not just enormous, it is also arduous and challenging. The accomplishment by the team was momentous despite a less-than-expected result. Nonetheless, lessons learnt offered valuable information for future improvement. It has been a long and difficult journey from geological model to dynamic model over the last five years. Yet, in pursuing IOR and EOR, the journey has just begun.

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Section: Dynamic Modelingmentioning

confidence: 99%

Reservoir Simulation to Support Pressure Maintenance Projects in the Greater Burgan Field, Kuwait

Gheorghiu

Banagale

et al. 2015

SPE Middle East Oil &Amp; Gas Show and Conference

Self Cite

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Development of a Full-Field Dynamic Model to Support Pressure Maintenance Projects in the World's Largest Clastic Oil Field, The Greater Burgan Field, Kuwait

Gheorghiu

Banagale

et al. 2015

SPE Reservoir Simulation Symposium

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A Modeling Approach for Optimizing Waterflood Performance, Wara Reservoir of the Greater Burgan Field, Kuwait

Mahran

Kovyazin

et al. 2015

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The Greater Burgan Field is located in southeastern Kuwait, covers a surface area of about 800 square kilometers and is ranked as the largest clastic oil field in the world. The field comprises six main reservoir units, namely Wara Sand, Mauddud Limestone, Burgan Sand Upper, Burgan Sand Middle, Burgan Sand Lower and Burgan Fourth Sand, stacking on top of each other. The Wara Shale acts as a barrier separating Wara from the massive sands of the underlaying Burgan formation. However, extensive faulting does allow communication between the Wara and the Burgan Sands. Production was initiated from the Greater Burgan Field in early 1946. As the field has matured over time, the reservoir pressure has declined in certain areas, with associated reduced productivity. The reduction of wells’ productivity, combined with the increasing water production, has necessitated improved oil recovery (IOR) initiative in order to support the Kuwait Oil Company (KOC) 2030 strategy, sustaining a corporate target oil rate and ensuring high recovery from Burgan reservoirs. This paper describes the modeling effort in designing the Wara Pressure Maintenance Project (WPMP). The WPMP is the first major full-scale waterflood project implemented in the Greater Burgan field. The management decision was based on the fact that Wara has experienced significant pressure decline after 68 years of primary production. Weak edge water drive, combined with poor reservoir connectivity, has resulted in deteriorating productivity along with creating secondary gas caps in some areas. In 2005, design for a pressure maintenance project (PMP) 2 via a peripheral waterflood was initiated to arrest pressure decline and improve oil recovery. Indeed, it became a major component of the Greater Burgan Field Development Plan (FDP) and is now entering the operation stage after 10 years of planning and facility construction. The Greater Burgan FDP is supported by a massive sub-surface modeling project. It started in 2009 with the sequence stratigraphy model (Phase-1) followed by geological model (Phase-2) 6 and dynamic model (Phase-3) 9. All modeling projects were conducted by reputable consulting firms with significant KOC hands-on participation and project management. The three modeling phases were concluded in 2013 and a simulation prediction model has been developed as a premium FDP reservoir management tool. In this paper, we focused on the modeling of the WPMP which was built meticulously and comprehensively to produce an optimal development and operation strategy. This includes project phasing, waterflood pattern design, producer/injector locations, drilling sequence, polygon setup for voidage replacement ratio (VRR) control, and constraints for good reservoir management practice. Sensitivity on constrained and unconstrained cases was included to evaluate future facility requirement. All in all, a robust simulation model to optimize Wara waterflood performance and ultimate recovery.

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Meeting the Challenge of Reservoir Simulation in the World's Largest Clastic Oil Field - The Greater Burgan Field Complex, Kuwait

Cited by 7 publications

References 5 publications

Reservoir Simulation to Support Pressure Maintenance Projects in the Greater Burgan Field, Kuwait

Reservoir Simulation to Support Pressure Maintenance Projects in the Greater Burgan Field, Kuwait

Development of a Full-Field Dynamic Model to Support Pressure Maintenance Projects in the World's Largest Clastic Oil Field, The Greater Burgan Field, Kuwait

A Modeling Approach for Optimizing Waterflood Performance, Wara Reservoir of the Greater Burgan Field, Kuwait

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Meeting the Challenge of Reservoir Simulation in the World's Largest Clastic Oil Field - The Greater Burgan Field Complex, Kuwait

Cited by 7 publications

References 5 publications

Reservoir Simulation to Support Pressure Maintenance Projects in the Greater Burgan Field, Kuwait

Reservoir Simulation to Support Pressure Maintenance Projects in the Greater Burgan Field, Kuwait

Development of a Full-Field Dynamic Model to Support Pressure Maintenance Projects in the World&#39;s Largest Clastic Oil Field, The Greater Burgan Field, Kuwait

A Modeling Approach for Optimizing Waterflood Performance, Wara Reservoir of the Greater Burgan Field, Kuwait

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Development of a Full-Field Dynamic Model to Support Pressure Maintenance Projects in the World's Largest Clastic Oil Field, The Greater Burgan Field, Kuwait