Optimal design of mixed AC–DC distribution systems for commercial buildings: A Nonconvex Generalized Benders Decomposition approach
Direct current (DC) electricity distribution systems have been proposed as an alternative to traditional, alternating current (AC) distribution systems for commercial buildings. Partial replacement of AC distribution with DC distribution can improve service to DC loads and overall building energy efficiency. This article develops (i) a mixed-integer, nonlinear, nonconvex mathematical programming problem to determine maximally energy efficient designs for mixed AC–DC electricity distribution systems in commercial buildings, and (ii) describes a tailored global optimization algorithm based on Nonconvex Generalized Benders Decomposition. The results of three case studies demonstrate the strength of the decomposition approach compared to state-of-the-art general-purpose global solvers.
Year of publication: |
2015
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Authors: | Frank, Stephen M. ; Rebennack, Steffen |
Published in: |
European Journal of Operational Research. - Elsevier, ISSN 0377-2217. - Vol. 242.2015, 3, p. 710-729
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Publisher: |
Elsevier |
Subject: | Electric power systems | Mixed AC–DC electricity distribution | Global optimization | Nonconvex Generalized Benders Decomposition (NGBD) | Optimal power flow (OPF) |
Saved in:
Online Resource