Renewable Energy Systems for Forward Operating Bases: A Simulations-Based Optimization Approach

Abstract

The purpose of this paper is to quantify the impact of installing renewable energy sources on the fuel consumption, supply-line casualty rate, and operating cost of an Air Force forward operating base (FOB) through the use of computer simulations. This paper also discusses the potential of a leave-behind strategy (i.e. leaving renewable energy systems behind after US departure). Although FOBs are vital to the mission of today's expeditionary Air Force, current costs in terms of supply-line casualties and dollars are very high for sustaining these bases. Several tools are developed in this paper to aid in site-specific planning for installing renewable energy systems at FOBs. These tools are then applied to a hypothetical deployment in Afghanistan to develop a proposed system concept. According to the simulations used, the proposed system can reduce fuel consumption by 17%, supply-line casualties by 15%, and yearly operating costs by $5.5 million. Finally, a test-bed and training site at Cannon AFB, NM is proposed and presented along with relevant statistics that would help validate the simulations used in this paper.

Document Details

Document Type

Technical Report

Publication Date

Aug 01, 2010

Accession Number

ADA531441

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