This study aims to develop a community based combined energy system driven by solar and biomass sources in a clean manner. The developed system can produce quintuple useful outputs effectively, including hot water, power, heat, hydrogen, and cooling. The proposed system consists of numerous subsystems, such as a thermal energy storage system, a steam Rankine cycle, an organic Rankine cycle, a Brayton cycle, and an absorption chiller. In addition, steam methane reforming and a water gas shift reactor are employed to generate hydrogen. The article further explores the effects of varying various operating conditions on the useful outputs and hence the overall system performance. The energy analysis of the system shows that the Brayton cycle, organic Rankine cycle and steam Rankine cycle exhibit energy efficiencies of 19.50%, 11.51%, and 35.99%, respectively. An exergy analysis of the primary cycles of the developed system, including Brayton, organic Rankine and steam Rankine cycles demonstrates the exergy efficiencies of 31.68%, 22.40%, and 74.30%, respectively. In addition, the overall energetic and exergetic efficiencies of the proposed system are determined as 39.2% and 33.4%, respectively. Moreover, the energetic and exergetic COPs of the absorption cooling system are found as 1.60 and 0.3269, respectively.