Evaluation of an environmentally-friendly poly-generation system driven by geothermal energy for green ammonia production
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Elsevier BV
Reference72 articles.
1. Investigation of an integrated system with industrial thermal management options for carbon emission reduction and hydrogen and ammonia production;Ishaq;Int J Hydrogen Energy,2019
2. Multi-generation energy system based on geothermal source to produce power, cooling, heating, and fresh water: exergoeconomic analysis and optimum selection by LINMAP method;Khanmohammadi;Appl Therm Eng,2021
3. Development and assessment of a solar driven trigeneration system with storage for electricity, ammonia and fresh water production;Demir;Energ Conver Manage,2021
4. Solar driven micro-ORC system assessment for residential application;Ancona;Renew Energy,2022
5. Thermodynamic and economic assessments and multi-criteria optimization of a novel poly-generation plant using geothermal energy and multi heat recovery technique;Cao;Int J Hydrogen Energy,2021
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