INNOVATIVE STRATEGIES FOR ENERGY OPTIMIZATION

Simone Bottillo, Luca Cedola, Roberto de Lieto Vollaro, Andrea Vallati

Abstract: Optimization of energy production systems is a relevant issue that must be considered in order to follow the fossil fuels consumption reduction policies and the CO2 emission regulation. Increasing electricity production from renewable resources (e.g. photovoltaic systems and wind farms) is desirable but its unpredictability is a cause of problems for the main grid stability. The multi-energy system represents an efficient solution, by realizing an interface among renewable energy sources, energy storage systems and conventional power generators. Direct consequences of multi-energy systems are wider energy flexibility and benefits for the electric grid. In this study the performances of a multi-energy system in dynamic regime have been evaluated and a comparison with a conventional system has been performed. The results show how this innovative energetic approach can provide a cost reduction in power supply and energy fees of 40% and 25% respectively and CO2 emission decrease attained around 18%. Furthermore, the multi-energy system taken as case of study has been optimized through the utilization of three different type of energy storage (Pb-Ac batteries, Flywheels and Micro-Caes)

Keywords: Multi-Energy System, Cost of Energy, Energy Storage

DOI: https://doi.org/10.15623/ijret.2013.0211068