2015
DOI: 10.1016/j.ijhydene.2015.05.105
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GIS-based analysis of hydrogen production from geothermal electricity using CO2 as working fluid in Algeria

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Cited by 55 publications
(8 citation statements)
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“…This could be applied by storing the CO2 via CCS deep under the ground, which will then be heated and pressurized instead of being released. After that, the CO2 could be used as a working fluid to produce hydrogen by the help of a GPP which will be connected to the electrolyzer [89]. This makes the integration of CCS and the geothermal-driven hydrogen production system an efficient technique to reduce the effect of CO2 on the environment.…”
Section: Hydrogen Production Using Geothermal Energymentioning
confidence: 99%
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“…This could be applied by storing the CO2 via CCS deep under the ground, which will then be heated and pressurized instead of being released. After that, the CO2 could be used as a working fluid to produce hydrogen by the help of a GPP which will be connected to the electrolyzer [89]. This makes the integration of CCS and the geothermal-driven hydrogen production system an efficient technique to reduce the effect of CO2 on the environment.…”
Section: Hydrogen Production Using Geothermal Energymentioning
confidence: 99%
“…Another technology is the CCS which has been integrated into various applications to reduce the effect of CO2 emissions. It was also found that the stored CO2 can be then used as a working fluid in hydrogen production systems [89]. Additionally, MGSs contribute to lower the effect of wasted gases because the variety of outputs helps to extract the maximum amount of energy from the geothermal fluid [108].…”
Section: Environmental Impactmentioning
confidence: 99%
“…It is illustrated that the hydrogen production cost considerably depends on the capacity of the plant and exergy efficiency. Gouareh et al 108 experimented hydrogen production by exploiting geothermal heat as an energy source and CO 2 as an operating fluid, regarding GIS analysis in Algeria. Based on the obtained results, Northeast and Southwest of Algeria have the most potential to perform this project.…”
Section: Thermodynamic Analysismentioning
confidence: 99%
“…This region is characterized by ideal conditions for the production of solar energy in the world, as it enjoys a severe decrease in humidity, lack of clouds and lack of rain throughout the year, and vast flat and empty lands. All these conditions are enormous potential for energy generation compared to the requirements regional and global energy, as 10% of the Algerian desert can provide the EU's energy needs [23] The theoretical economic potential data were obtained are gathered in the RE guide report by the MEM [22,25], where the Thermal Solar (TS) producible is estimated at 169,000 TWh/year, and the PV Solar is estimated at 13.9 TWh/year. The recently targets planned by the Algerian government regarding RE, the Dii Desert Energy (Desertec) megaenvironmental project, which is based on the utilization of solar energy available in the North African desert, including the Algerian desert, aims to provide neighboring regions and Europe with green electricity in a sustainable manner.…”
Section: Potential Energy Potential In Algeriamentioning
confidence: 99%