Email this article Mathematical Programming Techniques for Optimization under Uncertainty and Their Application in Process Systems Engineering
- Authors: Calfa B.A.1, Garcia-Herreros P.1, Zhang Q.1, Grossmann I.E.1, Apap R.M.1
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Affiliations:
- Carnegie Mellon University
- Issue: Vol 51, No 6 (2017)
- Pages: 893-909
- Section: American-Russian Chemical Engineering Scientific School “Modeling and Optimization of Chemical Engineering Processes and Systems” May 23–25, 2016 (Kazan National Research Technological University)
- URL: https://bakhtiniada.ru/0040-5795/article/view/171803
- DOI: https://doi.org/10.1134/S0040579517060057
- ID: 171803
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Abstract
In this paper we give an overview of some of the advances that have taken place to address challenges in the area of optimization under uncertainty. We first describe the incorporation of recourse in robust optimization to reduce the conservative results obtained with this approach, and illustrate it with interruptible load in demand side management. Second, we describe computational strategies for effectively solving two stage programming problems, which is illustrated with supply chains under the risk of disruption. Third, we consider the use of historical data in stochastic programming to generate the probabilities and outcomes, and illustrate it with an application to process networks. Finally, we briefly describe multistage stochastic programming with both exogenous and endogenous uncertainties, which is applied to the design of oilfield infrastructures.
About the authors
B. A. Calfa
Carnegie Mellon University
Email: grossmann@cmu.edu
United States, Pittsburgh, PA, 15213
P. Garcia-Herreros
Carnegie Mellon University
Email: grossmann@cmu.edu
United States, Pittsburgh, PA, 15213
Q. Zhang
Carnegie Mellon University
Email: grossmann@cmu.edu
United States, Pittsburgh, PA, 15213
I. E. Grossmann
Carnegie Mellon University
Author for correspondence.
Email: grossmann@cmu.edu
United States, Pittsburgh, PA, 15213
R. M. Apap
Carnegie Mellon University
Email: grossmann@cmu.edu
United States, Pittsburgh, PA, 15213
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