Short-term oil production global optimization with operational constraints: A comparative study of nonlinear and piecewise linear formulations

The short-term oil production optimization of offshore platforms which use continuous gas lift and consider several operational constraints is a challenging task, specially when decision variables include both continuous and integer ones. The intrinsic non-linearity of the Gas Lift Performance Curve...

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Published in:Journal of petroleum science & engineering Vol. 198; p. 108141
Main Authors: Carpio, Roymel R., dAvila, Thiago C., Taira, Daniel P., Ribeiro, Leonardo D., Viera, Bruno F., Teixeira, Alex F., Campos, Mario M., Secchi, Argimiro R.
Format: Journal Article
Language:English
Published: Elsevier B.V 01.03.2021
Subjects:
Gas lift flowrate
Mixed-integer linear programming (MILP)
Mixed-integer nonlinear programming (MINLP)
Two-stage optimization strategy
Wellhead pressure
Mixed-integer nonlinear programming (MINLP)
Wellhead pressure
Gas lift flowrate
Two-stage optimization strategy
Mixed-integer linear programming (MILP)
ISSN:0920-4105, 1873-4715
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Abstract The short-term oil production optimization of offshore platforms which use continuous gas lift and consider several operational constraints is a challenging task, specially when decision variables include both continuous and integer ones. The intrinsic non-linearity of the Gas Lift Performance Curves (GLPC) naturally yields to Mixer-Integer Nonlinear Program formulation. Picewise linear approximations of the GLPC are usually applied in order to reduce the complexity of the optimization problem and to ensure an approximate solution, leading to Mixer-Integer Linear Program formulation. However, a comprehensive and comparative study of these two formulations for the oil production optimization problem is scarce in the literature. This paper provides a deep performance evaluation of these two approaches, showing the limitations of both strategies, and proposes a hybrid two-stage optimization strategy to achieve the global optimal operating condition which maximizes the oil production subject to safety, environmental and processing capacity constraints. •The solution of the MINLP formulation is highly dependent on the initial guess.•The MILP formulation always achieves a solution near to the global optimum.•The solution of the MILP formulation may be unfeasible regarding operational constraints.•The computational cost of the MILP formulation could be up to 30 times higher than the MINLP formulation.•The hybrid MILP-MINLP optimization strategy showed the best cost-benefit ratio considering time-consumption and accuracy.
AbstractList The short-term oil production optimization of offshore platforms which use continuous gas lift and consider several operational constraints is a challenging task, specially when decision variables include both continuous and integer ones. The intrinsic non-linearity of the Gas Lift Performance Curves (GLPC) naturally yields to Mixer-Integer Nonlinear Program formulation. Picewise linear approximations of the GLPC are usually applied in order to reduce the complexity of the optimization problem and to ensure an approximate solution, leading to Mixer-Integer Linear Program formulation. However, a comprehensive and comparative study of these two formulations for the oil production optimization problem is scarce in the literature. This paper provides a deep performance evaluation of these two approaches, showing the limitations of both strategies, and proposes a hybrid two-stage optimization strategy to achieve the global optimal operating condition which maximizes the oil production subject to safety, environmental and processing capacity constraints. •The solution of the MINLP formulation is highly dependent on the initial guess.•The MILP formulation always achieves a solution near to the global optimum.•The solution of the MILP formulation may be unfeasible regarding operational constraints.•The computational cost of the MILP formulation could be up to 30 times higher than the MINLP formulation.•The hybrid MILP-MINLP optimization strategy showed the best cost-benefit ratio considering time-consumption and accuracy.
ArticleNumber 108141
Author Carpio, Roymel R.
Teixeira, Alex F.
Taira, Daniel P.
Secchi, Argimiro R.
Campos, Mario M.
Viera, Bruno F.
dAvila, Thiago C.
Ribeiro, Leonardo D.
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  surname: Taira
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  givenname: Leonardo D.
  surname: Ribeiro
  fullname: Ribeiro, Leonardo D.
  organization: CENPES, Petrobras, Rio de Janeiro, Brazil
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  givenname: Argimiro R.
  surname: Secchi
  fullname: Secchi, Argimiro R.
  organization: Chemical Engineering Program, UFRJ, Brazil
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Keywords Mixed-integer nonlinear programming (MINLP)
Wellhead pressure
Gas lift flowrate
Two-stage optimization strategy
Mixed-integer linear programming (MILP)
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  article-title: A computational analysis of multidimensional piecewise-linear models with applications to oil production optimization
  publication-title: Eur. J. Oper. Res.
  doi: 10.1016/j.ejor.2013.07.040
– ident: 10.1016/j.petrol.2020.108141_bib20
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Snippet The short-term oil production optimization of offshore platforms which use continuous gas lift and consider several operational constraints is a challenging...
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StartPage 108141
SubjectTerms Gas lift flowrate
Mixed-integer linear programming (MILP)
Mixed-integer nonlinear programming (MINLP)
Two-stage optimization strategy
Wellhead pressure
Title Short-term oil production global optimization with operational constraints: A comparative study of nonlinear and piecewise linear formulations
URI https://dx.doi.org/10.1016/j.petrol.2020.108141
Volume 198
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