Increasing Resiliency Through Renewable Energy Microgrids

Katherine Anderson, Dylan Cutler, Allison Richards, Nicholas DiOrio, Robert Butt

Research output: Contribution to journalArticlepeer-review

Abstract

This paper describes a methodology to quantify the economic and resiliency benefit provided by renewable energy (RE) in a hybrid RE-storage-diesel microgrid. We present a case study to show how this methodology is applied to a multi-use/ multi-function telecommunications facility in southern California. In the case study, we first identify photovoltaic (PV) and battery energy storage system (BESS) technologies that minimize the lifecycle cost of energy at the site under normal, grid-connected operation. We then evaluate how those technologies could be incorporated alongside existing diesel generators in a microgrid to increase resiliency at the site, where resiliency is quantified in terms of the amount of time that the microgrid can sustain the critical load during a grid outage. We find that adding PV and BESS to the existing backup diesel generators with a fixed fuel supply extends the amount of time the site could survive an outage by 1.8 days, from 1.7 days for the existing diesel-only backup system to 3.5 days for the PV/diesel/BESS hybrid system. Furthermore, even after diesel fuel supplies are exhausted, the site can continue to operate critical loads during daytime hours using just the PV/BESS when there is sufficient solar resource. We find that the site can save approximately $100,000 in energy costs over the 25-year lifecycle while doubling the amount of time they can survive an outage. The methodology presented here provides a template for increasing resiliency at telecomm sites by implementing renewable energy solutions, which provide additional benefits of carbon emission reduction and energy cost savings.
Original languageAmerican English
Pages (from-to)22-38
Number of pages17
JournalJournal of Energy Management
Volume2
Issue number2
StatePublished - 2017

NREL Publication Number

  • NREL/JA-7A40-69034

Keywords

  • hybrid RE-storage-diesel microgrid
  • RE
  • renewable energy
  • REopt

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