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A novel hybrid renewable-energy-based system for generating multiple commodities is investigated in this study. The heat gained from geothermal and solar energy sources is converted into useful products such as electricity, domestic hot water, cooling load, and hydrogen via an integrated energy system including parabolic trough collectors, a Kalina cycle, an ejector refrigeration system, a thermoelectric generator (TEG) unit, an organic Rankine cycle, and a PEM electrolyzer. A comprehensive analysis based on energy, exergy, and exergoeconomic methods is carried out to examine the system from different standpoints. To achieve the finest solution, multi-objective optimization is performed to simultaneously maximize exergy efficiency and minimize the total unit cost of products. The results indicate that, under the optimal condition, the system can attain 35.2% and 37.8 $/GJ, and 1.9 kg/h for exergy efficiency, the …