Assessment of a District Trigeneration Biomass Powered Double Organic Rankine Cycle as Primed Mover and Supported Cooling

This study presents a combined cooling, heating, and power system powered by biogas, suitable for small scale communities in remote locations. To run such system, order to obtain the daily life essentials of electricity, hot water, municipal waste can be considered as an option. Furthermore, organic Rankine cycle part vapor compression chiller used times need additional electric production. The comprises medium temperature utilizing M-xylene its working fluid, cooling was covered Isobutane R245fa employing cycle. analyzed designated provide 250 kW electricity. energetic exergetic analysis performed, considering several design parameters. impact parameters prime mover has much greater effect on whole system. proposed deliver values at rate between 9.19 22 heating ranging from 879 up 1255 kW, depending parameter. second law efficiency found approximately 56% baseline conditions increased 64.5%.