E. Secnik scite author profile

This paper presents recent advances by an international team of five countries -Canada, U.S., China, Slovenia and Romania -on the development and scale-up of the copper chlorine (Cu-Cl) cycle for thermochemical hydrogen production using nuclear or solar energy. Electrochemical cell analysis and membrane characterization for the CuCl/HCl electrolysis process are presented. Constituent solubility in the ternary CuCl/HCl/H2O system and XRD measurements are reported in regards to the CuCl2 crystallization process. Materials corrosion in high temperature copper chloride salts and performance of coatings of reactor surface alloys are examined. Finally, system integration is examined, with respect to scale-up of unit operations, cascaded heat pumps for heat upgrading, and linkage of heat exchangers with solar and nuclear plants.

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Progress of international hydrogen production network for the thermochemical Cu–Cl cycle

Naterer

Suppiah

Stolberg

et al. 2013

International Journal of Hydrogen Energy

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This paper presents recent advances by an international team which is developing the thermochemical copperchlorine (Cu-Cl) cycle for hydrogen production. Development of the Cu-Cl cycle has been pursued by several countries within the framework of the Generation IV International Forum (GIF) for hydrogen production with the next generation of nuclear reactors. Due to its lower temperature requirements in comparison with other thermochemical cycles, the Cu-Cl cycle is particularly well matched with Canada's Generation IV reactor, SCWR (Super-Critical Water Reactor), as well as other heat sources such as solar energy or industrial waste heat. In this paper, recent developments of the Cu-Cl cycle are presented, specifically involving unit operation experiments, corrosion resistant materials and system integration.

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Clean hydrogen production with the Cu–Cl cycle – Progress of international consortium, II: Simulations, thermochemical data and materials

Naterer

Suppiah

Stolberg

et al. 2011

International Journal of Hydrogen Energy

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Thermal design of a solar hydrogen plant with a copper–chlorine cycle and molten salt energy storage

Wang

Naterer

Gabriel

et al. 2011

International Journal of Hydrogen Energy

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E. Secnik

Clean hydrogen production with the Cu–Cl cycle – Progress of international consortium, I: Experimental unit operations

Progress in thermochemical hydrogen production with the copper–chlorine cycle

Progress of international hydrogen production network for the thermochemical Cu–Cl cycle

Clean hydrogen production with the Cu–Cl cycle – Progress of international consortium, II: Simulations, thermochemical data and materials

Thermal design of a solar hydrogen plant with a copper–chlorine cycle and molten salt energy storage

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