2023
DOI: 10.1007/s11356-023-26174-3
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Integration of geothermal-driven organic Rankine cycle with a proton exchange membrane electrolyzer for the production of green hydrogen and electricity

Abstract: Engineers and scientists are increasingly interested in clean energy options to replace fossil fuels in response to rising environmental concerns and dwindling fossil fuel resources. There has been an increase in the installation of renewable energy resources, and at the same time, conventional energy conversion systems have improved in efficiency. in this paper, several multi-generation systems based on geothermal energy are modeled, assessed, and optimized with an organic Rankine cycle and proton-exchange me… Show more

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Cited by 7 publications
(1 citation statement)
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“…Yilmaz, et al 19 designed and analyzed an integrated system powered by DFG and binary geothermal energy, consisting of two steam turbines, an organic Rankine cycle, a Polymer electrolyte membrane electrolyser, a domestic water heater, and a dryer, for producing hydrogen, electricity, heating, and drying. Assareh, et al 20 focused on multi‐generation systems based on geothermal energy, employing ORCs and proton‐exchange membrane electrolyzer subsystems in various configurations. They assessed the impact of different parameters such as evaporator mass flow rate, turbine efficiency, and inlet temperature on system outputs, using a case study in Zanjan, Iran.…”
Section: Introductionmentioning
confidence: 99%
“…Yilmaz, et al 19 designed and analyzed an integrated system powered by DFG and binary geothermal energy, consisting of two steam turbines, an organic Rankine cycle, a Polymer electrolyte membrane electrolyser, a domestic water heater, and a dryer, for producing hydrogen, electricity, heating, and drying. Assareh, et al 20 focused on multi‐generation systems based on geothermal energy, employing ORCs and proton‐exchange membrane electrolyzer subsystems in various configurations. They assessed the impact of different parameters such as evaporator mass flow rate, turbine efficiency, and inlet temperature on system outputs, using a case study in Zanjan, Iran.…”
Section: Introductionmentioning
confidence: 99%