Optimising Multi-Field Developments Under Uncertainty

McGill, C. A.; Goodwin, Stephen; MacGowan, David; Aissaoui, Abdellah El; Riddiford, F.A.; Standish, I.G.

doi:10.2118/39723-ms

Cited by 1 publication

(1 citation statement)

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“…As the portion of economical fields newly discovered has fallen, many attempts have been tried to integrate the uncertainty analysis with development planning to determine the correct value of the oil and gas field and increase the value to meet the economic threshold (Passone and McRae, 2007;McGill et al, 1998;Warren and Al-Ghamdi, 2010). Uncertainty analysis using reservoir simulation and development alternatives is an essential procedure for decision making in oil and gas fields development.…”

Section: Introductionmentioning

confidence: 99%

Feasibility Study and Economic Analyses for the Marginal Field Development Using Proxy Models under Uncertainty of Reservoir Characterization

Jeong

Baik

et al. 2013

Energy Exploration & Exploitation

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Economical development of marginal fields is one of the key issues for the oil & gas industry. Risk analysis and optimization technique can be applied to ensure the economics of E&P projects in terms of the development scenarios, cost optimization, and production schemes. Depending on the reliability of reservoir data and the easiness of development, a field operator can exploit the whole field at the same time or choose a phased development strategy. Especially for a basement fracture reservoir, which has high uncertainty in connectivity among fractures, it is better to develop and produce oil from more reliable part of reservoir and then extend to the remaining parts. Even through this strategy, it is often necessary to face the difficulty in the determination of the proper development concepts such as a separate wellhead platform or sub-sea completion. The number and locations of wells also should be optimized to increase the net present value of the project. This paper presents a workflow to determine the development feasibility of oil and gas fields under the uncertainty of reservoir characterization using the neural network and Monte-Carlo simulation. In this paper, we focus on the evaluation of risk and uncertainty of a project's economics under the uncertainty with the connectivity of main producing area and the remaining area. Through the application of the proposed method to a real field in Vietnam, we show that the connectivity between adjacent areas in the basement reservoir is critical to estimate ultimate recovery and to evaluate the project economics. The production incremental through the development of the remaining area will be mainly affected by the production of the existing wells depending on the connectivity. From the evaluation of net present values according to the development concept and the schedule, this paper shows that the project's economics can be improved and better bases for decision making can be provided.

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Section: Introductionmentioning

confidence: 99%