2021
DOI: 10.3390/pr9010184
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Evolutionary Algorithm to Support Field Architecture Scenario Screening Automation and Optimization Using Decentralized Subsea Processing Modules

Abstract: Manual generation of test cases and scenario screening processes, during field architecture concept development, may produce a limited number of solutions that do not necessarily lead to an optimal concept selection. For more complex subsea field architectures, which might include processing modules for enhancing pressure and thermal management for the production network, the number of configuration cases and scenarios to evaluate can be extremely large and time and resource-consuming to handle through convent… Show more

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Cited by 3 publications
(4 citation statements)
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“…Fig. 7 EA-based ML framework [193] It is common practice for the procedure to include the following steps [194]- [196]:…”
Section: Evolutionary Algorithmsmentioning
confidence: 99%
“…Fig. 7 EA-based ML framework [193] It is common practice for the procedure to include the following steps [194]- [196]:…”
Section: Evolutionary Algorithmsmentioning
confidence: 99%
“…Díaz Arias et al (2021) avoids the use of a superstructure approach by combining evolutionary algorithms (EA) and commercial simulation software to automate and optimize concept selection and field architecture design when considering decentralized subsea processing modules. The algorithm solves the field layout design problem with a great deal of precision, but it does require high computational effort.…”
Section: Previous Workmentioning
confidence: 99%
“…One major point lacking in previous studies is that the subsea design does not include the presence of subsea processing equipment. To overcome this, Krogstad (2018) and Díaz Arias et al (2021) dealt with the optimization of subsea processing systems. Krogstad (2018) proposed an MINLP model using the concept of superstructures to maximize the NPV of the planning and development of offshore oil field structures, considering a wide range of subsea equipment.…”
Section: Previous Workmentioning
confidence: 99%
“…The initial population is randomly generated to ensure the diversity of the initial population and allow the initial population to cover the solution space [34]. Then, the initial population is encoded by a four-segment coding method in Section 4.3.…”
Section: Population Initialization and Fitness Valuementioning
confidence: 99%