Sen, Pankaj K.Reasoner, Jonathan2016-02-092022-02-032016-02-092022-02-032016https://hdl.handle.net/11124/1700232016 Spring.Includes illustrations (some color), map.Includes bibliographical references.This thesis takes a holistic approach in creating an improved electric power generation system for a forward operating base (FOB) in the future through the design of an isolated microgrid. After an extensive literature search, this thesis found a need for drastic improvement of the FOB power system. A thorough design process analyzed FOB demand, researched demand side management improvements, evaluated various generation sources and energy storage options, and performed a HOMER® discrete optimization to determine the best microgrid design. Further sensitivity analysis was performed to see how changing parameters would affect the outcome. Lastly, this research also looks at some of the challenges which are associated with incorporating a design which relies heavily on inverter-based generation sources, and gives possible solutions to help make a renewable energy powered microgrid a reality. While this thesis uses a FOB as the case study, the process and discussion can be adapted to aide in the design of an off-grid small-scale power grid which utilizes high-penetration levels of renewable energy.born digitalmasters thesesengCopyright of the original work is retained by the author.battery energy storageforward operating basehybrid microgridmicrogridrenewable energysmart gridText