Microgrid Reliability Modeling and Battery Scheduling Using Stochastic Linear Programming

Date Published
06/2013
Publication Type
Journal Article
Authors
LBL Report Number
LBNL-6309E
Abstract

This paper describes the introduction of stochastic linear programming into Operations DER-CAM, a tool used to obtain optimal operating schedules for a given microgrid under local economic and environmental conditions. This application follows previous work on optimal scheduling of a lithium-iron-phosphate battery given the output uncertainty of a 1 MW molten carbonate fuel cell. Both are in the Santa Rita Jail microgrid, located in Dublin, California. This fuel cell has proven unreliable, partially justifying the consideration of storage options. Several stochastic DER-CAM runs are executed to compare different scenarios to values obtained by a deterministic approach. Results indicate that using a stochastic approach provides a conservative yet more lucrative battery schedule. Lower expected energy bills result, given fuel cell outages, in potential savings exceeding 6%.

Journal
Journal of Electric Power Systems Research
Volume
103
Year of Publication
2013
Pagination
61-69
Refereed Designation
Refereed
Organizations
Research Areas
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