Sadegh Motahar - Department of Mechanical Engineering, Shahreza Campus, University of Isfahan, Iran
Ali Kazemi - Department of Mechanical Engineering, Shahreza Campus, University of Isfahan, Iran

This paper evaluates the performance of a concentrating photo-voltaic thermal (CPVT) hybrid system for space heating, providing hot water, and grid-connected (GC) electricity generation in the city of Isfahan, Iran. The GC-CPVT system is a ground-mounted ۵.۶۳ kWp rated power system oriented in a north-south direction to achieve the maximum power output. The annual and monthly modeling of the system is performed by Polysun® simulation software. The system specifications are described and the heating and electrical energy demand of the building are determined.  The GC-CPVT performance simulation is then conducted based on the meteorological data of the location. The monthly simulation results of the GC-CPVT system in the studied location show that the yield factor varies from ۱۳۸.۸ to ۱۸۳ kWh/kWp, the reference yield from ۱۷۰.۳ to ۲۵۳.۵ kWh/kWp, and the performance ratio from ۷۰.۳ to ۸۲.۲%. The maximum annual AC electricity generated is ۱۰۷۵۲ kWh. Furthermore, the CPVT system generates a considerable amount of heat. The annual solar fraction values for covering domestic hot water and space heating are achieved ۷۸.۳% and ۳۵.۳%, respectively. The monthly solar fraction covered by the CPVT system also varies from ۳۲ to ۱۰۰%. The environmental performance of the GC-CPVT system indicates that the contribution of such a system to CO۲ emission reductions exceeds ۸ tons of CO۲ per year.

Concentrating Photovoltaic Thermal, Grid-connected, Residential Heat, Performance Simulation, CO۲ Saving