Greedy algorithm for minimizing the cost of routing power on a digital microgrid
Document Type
Article
Publication Date
8-9-2019
Abstract
In this paper, we propose the greedy smallest-cost-rate path first (GRASP) algorithm to route power from sources to loads in a digital microgrid (DMG). Routing of power from distributed energy resources (DERs) to loads of a DMG comprises matching loads to DERs and the selection of the smallest-cost-rate path from a load to its supplying DERs. In such a microgrid, one DER may supply power to one or many loads, and one or many DERs may supply the power requested by a load. Because the optimal method is NP-hard, GRASP addresses this high complexity by using heuristics to match sources and loads and to select the smallest-cost-rate paths in the DMG. We compare the cost achieved by GRASP and an optimal method based on integer linear programming on different IEEE test feeders and other test networks. The comparison shows the trade-offs between lowering complexity and achieving optimal-cost paths. The results show that the cost incurred by GRASP approaches that of the optimal solution by small margins. In the adopted networks, GRASP trades its lower complexity for up to 18% higher costs than those achieved by the optimal solution.
Identifier
85070552472 (Scopus)
Publication Title
Energies
External Full Text Location
https://doi.org/10.3390/en12163076
e-ISSN
19961073
Issue
16
Volume
12
Grant
1641033
Fund Ref
National Science Foundation
Recommended Citation
Jiang, Zhengqi; Sahasrabudhe, Vinit; Mohamed, Ahmed; Grebel, Haim; and Rojas-Cessa, Roberto, "Greedy algorithm for minimizing the cost of routing power on a digital microgrid" (2019). Faculty Publications. 7402.
https://digitalcommons.njit.edu/fac_pubs/7402
