Uncertainty Management in the Development of MOT Reservoir, X Field, Niger Delta

Makinde, Oluwasegun; Aderibigbe, Olatubosun; Smart, Osarenogowu; Sonde, Adenike; Nwabudike, Udoka

doi:10.2118/184369-ms

All Days 2016

DOI: 10.2118/184369-ms

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Uncertainty Management in the Development of MOT Reservoir, X Field, Niger Delta

Oluwasegun Makinde

Olatubosun Aderibigbe

Osarenogowu Smart

et al.

Abstract: MOT reservoir has a unique case of uncertainties as a result of data paucity being in a field where no production has occurred, and there is need to reduce the uncertainties associated with the key evaluation parameters required for making investment decisions. This paper presents how a multidisciplinary team resource was leveraged on in managing the identified uncertainties to deliver a robust development plan for the reservoir of interest. The approach deployed emphasize on integration and col… Show more

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Cited by 2 publications

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Fit-For-Purpose Development Plan for FLO Reservoir Sand with Focus on Resolving Reservoir Connectivity and Fluid Contact Uncertainties

Nwabia

Osagie

Eghobamien

et al. 2017

Day 2 Tue, August 01, 2017

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FLO reservoir in the depth range of 8225-8780 ftss has an unknown nature of compartmentalization, unknown fluid property and also five well penetrations with none encountering OOWC (original oil water contact). Resolution of these uncertainties in this study created platform for the reservoir development in terms of growing production and increasing the reservoir ultimate recovery. This paper therefore focuses on an integrated approach of resolving uncertainties associated with key reservoir evaluation parameters to deliver a fit-for-purpose development plan of the reservoir. A multidisciplinary approach, involving integration of: PVT (Pressure Volume Temperature) Property estimation, Fault Seal Analysis (FSA), Petrophysical analysis and Dynamic simulation were employed to pin down these uncertainties in fluid contact and connectivity across blocks K, L and M within FLO reservoir. PVT property estimation was used to capture the phase behaviour of FLO reservoir fluids. While FSA, which relied on the degree of throw thickness and lithologic juxtaposition, was used to validate connectivity across fault blocks in FLO reservoir. Possible base case contact for the two producing blocks in the reservoir was established through dynamic reservoir model calibration by history matching for 41 years of production history. Results obtained from FSA, pressure profiles, sand-to-sand juxtaposition and dynamic history matching all combined showed an established hydraulic communication between reservoirs block K & M and also blocks K & L. The dynamic history matching with adjustments within physical meaning of basic history matching parameters realized 8525 ftss and 8810 ftss for POWC (present oil water contact) of the reservoir blocks K and M respectively. With these uncertainties resolved, different tests of development concepts were conducted and checked for economic viability and this showed that a "Do Nothing" approach with recovery of 3.6 MMstb should be adopted for FLO K and a "New Well" with recovery of 1.92 MMstb be drilled to develop FLO M.

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Fit-For-Purpose Development Plan for FLO Reservoir Sand with Focus on Resolving Reservoir Connectivity and Fluid Contact Uncertainties

Nwabia

Osagie

Eghobamien

et al. 2017

Day 2 Tue, August 01, 2017

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Integrated Hydrocarbon Maturation of Three Reservoirs X1, X2-E, X2-W in the KOCA Field, Niger-Delta

Iwegbu

Dudun

Olu-Oseh

et al. 2020

Day 1 Tue, August 11, 2020

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Subsurface uncertainties in reservoir characterization remains a challenge in decision making in the development phase of hydrocarbon maturation process due to geological complexity and limitations in reservoir data to provide sufficient understanding of the subsurface. This study focuses on identifying, managing, narrowing these uncertainties and generating reservoir realizations and optimum development concept consistent with available data. Hence, the objective of this study is to generate a technically feasible & economically viable development plan for X1, X2W and X2E reservoirs in KOCA field. The methodology deployed on this study is a multi-disciplinary integrated approach in a parallel setting with early focus on uncertainty identification, quantification, management and iterations amongst the team. Sensitivity analysis was used to evaluate the respective impact of the identified uncertainties on in-place and recoverable volumes and realizations were constrained by the most impacting uncertain parameters to generate a low case, base case and high case valid realizations of the subsurface. Development concepts were selected to optimize recovery using the base case realization with preliminary economic evaluations used to determine concepts economic viability. The result of this study identifies Structure, Net-to-Gross, and Permeability as the top three uncertainties with most impact on volumes. Deterministic low, base and high case GIIP volumes computed are 354Bscf, 681Bscf and 1.1Tscf, while recoveries were 261Bscf, 546Bscf and 913Bscf respectively. Deterministic low, base and high case STOIIP volumes computed are 0.4MMSTB, 1.5MMSTB and 3.4MMSTB, while recoveries were 0.1MMSTB, 0.2MMSTB, and 0.02MMSTB respectively. Optimum subsurface development concept is two vertical gas well, no horizontal well is needed to develop the thin (12ft) oil rim and finally quick look project economics revealed that the project would be economically viable even for the Low-Case outcome: NPV (10%) is $150M and VIR (10%) is 3.92.

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Uncertainty Management in the Development of MOT Reservoir, X Field, Niger Delta

Cited by 2 publications

References 4 publications

Fit-For-Purpose Development Plan for FLO Reservoir Sand with Focus on Resolving Reservoir Connectivity and Fluid Contact Uncertainties

Fit-For-Purpose Development Plan for FLO Reservoir Sand with Focus on Resolving Reservoir Connectivity and Fluid Contact Uncertainties

Integrated Hydrocarbon Maturation of Three Reservoirs X1, X2-E, X2-W in the KOCA Field, Niger-Delta

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