Add to ORKGThis study focuses on simulating the hydrolysis step of the Copper-Chlorine (Cu-Cl) Cycle in a moving bed reactor (MBR). The hydrolysis reaction is one of three reactions in the Cu-Cl cycle for hydrogen production. Several recent studies have highlighted fluidized bed reactors as a promising reactor for this reaction, with lab scale studies ongoing. However, a potential alternative reactor system, to decrease associated costs and energy requirements of high steam to copper ratios, is an MBR. Alternative heterogeneous MBRs have been successful in reducing steam requirements in steam gasification of coal and biomass. These operations demonstrate comparable reaction models to the hydrolysis reaction, which indicate the potential of moving bed ...
This paper performs a thermodynamic equilibrium analysis of individual steps within the copper–chlor...
This paper examines the effects of H2O vapor pressure on the equilibrium conditions of a CuCl2 hydro...
The impact of exit streams containing byproducts of incomplete reactions in an integrated thermochem...
AbstractActive research on the thermochemical Cu-Cl cycle is providing a promising potential for sus...
In this paper, the effects of an inert carrier gas and steam flow on the reaction kinetics of a CuCl...
Current techniques of hydrogen production (primarily reformation of fossil fuels) are unsustainable,...
This paper presents new experimental data and modeling of a copper(II) chloride (CuCl2) hydrolysis r...
The non-catalytic reaction of cupric chloride with steam to produce copper-oxy-chloride solid and hy...
This research focuses on thermodynamic analysis of the copper chlorine cycles. The cycles were simul...
This paper examines cupric chloride solid conversion during hydrolysis in the thermochemical copper-...
A new predictive model is developed in this paper to analyze the height of the reactor for continuou...
The thermochemical copper-chlorine (Cu-Cl) cycle is considered as a sustainable and efficient techno...
This paper examines selected design issues associated with reactor scale-up in the thermochemical co...
An integrated lab-scale copper-chlorine (Cu-Cl) thermochemical cycle for hydrogen production at the ...
This paper focuses on the various development areas of the copper-chlorine (Cu–Cl) cycle for hydroge...
This paper performs a thermodynamic equilibrium analysis of individual steps within the copper–chlor...
This paper examines the effects of H2O vapor pressure on the equilibrium conditions of a CuCl2 hydro...
The impact of exit streams containing byproducts of incomplete reactions in an integrated thermochem...
AbstractActive research on the thermochemical Cu-Cl cycle is providing a promising potential for sus...
In this paper, the effects of an inert carrier gas and steam flow on the reaction kinetics of a CuCl...
Current techniques of hydrogen production (primarily reformation of fossil fuels) are unsustainable,...
This paper presents new experimental data and modeling of a copper(II) chloride (CuCl2) hydrolysis r...
The non-catalytic reaction of cupric chloride with steam to produce copper-oxy-chloride solid and hy...
This research focuses on thermodynamic analysis of the copper chlorine cycles. The cycles were simul...
This paper examines cupric chloride solid conversion during hydrolysis in the thermochemical copper-...
A new predictive model is developed in this paper to analyze the height of the reactor for continuou...
The thermochemical copper-chlorine (Cu-Cl) cycle is considered as a sustainable and efficient techno...
This paper examines selected design issues associated with reactor scale-up in the thermochemical co...
An integrated lab-scale copper-chlorine (Cu-Cl) thermochemical cycle for hydrogen production at the ...
This paper focuses on the various development areas of the copper-chlorine (Cu–Cl) cycle for hydroge...
This paper performs a thermodynamic equilibrium analysis of individual steps within the copper–chlor...
This paper examines the effects of H2O vapor pressure on the equilibrium conditions of a CuCl2 hydro...
The impact of exit streams containing byproducts of incomplete reactions in an integrated thermochem...