2017
DOI: 10.1016/j.ijhydene.2017.03.133
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Advances in unit operations and materials for the Cu Cl cycle of hydrogen production

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Cited by 41 publications
(29 citation statements)
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“…Canadian national laboratories (CNLs) and the University of Ontario (UOIT) have extensively investigated each step and finally demonstrated individual steps of Cu–Cl cycle . Performance of 300‐cm 2 electrolytic cell was evaluated resulting in a stable current density of 0.55 A/cm 2 at 0.7 V, and 98% of the theoretical hydrogen production rate for over 1600 hours was reported .…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Canadian national laboratories (CNLs) and the University of Ontario (UOIT) have extensively investigated each step and finally demonstrated individual steps of Cu–Cl cycle . Performance of 300‐cm 2 electrolytic cell was evaluated resulting in a stable current density of 0.55 A/cm 2 at 0.7 V, and 98% of the theoretical hydrogen production rate for over 1600 hours was reported .…”
Section: Introductionmentioning
confidence: 99%
“…Canadian national laboratories (CNLs) and the University of Ontario (UOIT) have extensively investigated each step and finally demonstrated individual steps of Cu-Cl cycle. 17,[19][20][21][22] Performance of 300-cm 2 electrolytic cell was evaluated resulting in a stable current density of 0.55 A/cm 2 at 0.7 V, and 98% of the theoretical hydrogen production rate for over 1600 hours was reported. 23 Fivestep Cu-Cl cycle was also studied, and the proof of concept was demonstrated by India at lab scale with H 2 generation rate at 168 mL/h using 1 g of Cu (0.015 mol).…”
mentioning
confidence: 99%
“…Cu‐Cl is the most conceivable techniques for solar‐to‐hydrogen process with its moderate maximum‐temperature requirement, which has been internationally developed . A group of researchers from the United States, Canada, Romania, Slovenia, and China performed a case study to evaluate solar hydrogen production using heliostat field coupled with Cu‐Cl cycle . The total energy received by solar plant was about 785 MW; however, the molten salt just absorbed 309 MW.…”
Section: Concentrated Solar Thermal Hydrogen Productionmentioning
confidence: 99%
“…64 A group of researchers from the United States, Canada, Romania, Slovenia, and China performed a case study to evaluate solar hydrogen production using heliostat field coupled with Cu-Cl cycle. 65 The total energy received by solar plant was about 785 MW; however, the molten salt just absorbed 309 MW. The hydrogen production rate and plant efficiency were assessed 0.89-kg H 2 per second and 20%, respectively.…”
Section: Thermochemical Water Splitting Technologies For Solar Hydrmentioning
confidence: 99%
“…More recently, Naterer et al have reported on recent advances in unit operations and materials for the Cu–Cl cycle of hydrogen production. Khalid et al studied the thermodynamic viability of a new three step high temperature version of thermochemical hydrogen production using the Cu–Cl cycle.…”
Section: Introductionmentioning
confidence: 99%