Add to ORKGIn this paper computational thermodynamics modeling of the solar H2 production via twostep thermochemical copper oxide - copper sulfate (CO-CS) water splitting cycle is reported. In this cycle, the first step corresponds to the exothermic oxidation of copper oxide via SO2 and H2O producing CuSO4 and H2 and second step is related to the endothermic reduction of CuSO4 into CuO, SO2, and O2. The CuO and SO2 produced in the second step can be recycled to the step 1 and hence, reutilized for the production of H2 via water splitting reaction. The equilibrium compositions for the CuSO4 thermal reduction and water splitting steps were determined by performing thermodynamic analysis and are reported here. Furthermore, exergy analysis was performed t...
In the present work, solar-driven two-step thermochemical cycles for hydrogen production based on me...
The present study provides a thermodynamic analysis of solar thermochemical cycles for splitting of ...
In this paper computational thermodynamic modeling of solar syngas production via ferrite based (Fe3...
In this paper, the solar thermochemical copper oxide - copper sulfate (CO-CS) water splitting cycle ...
This paper reports the thermodynamic analysis of solar H2 production via two-step thermochemical Str...
This paper reports the thermodynamic analysis of solar H2 production via two-step thermochemical iro...
This paper reports the thermodynamic analysis of solar H2 production via two-step thermochemical iro...
Production of H2 via water splitting reaction driven by concentrated solar power is one of the promi...
In this paper computational thermodynamics modeling of the solar H2 production via twostep thermoche...
In this paper thermodynamic feasibility of the production of solar fuel via SnO2/SnO based thermoche...
There are many studies related on the SnO2/SnO based solar thermochemical water splitting cycle, how...
This article reports the thermodynamic efficiency analysis of the strontium oxide strontium sulfate ...
In this paper, solar reactor efficiency analysis of the solar thermochemical two-step zinc oxide-zin...
Solar thermal water splitting (STWS) is a process which utilizes concentrated sun-light to drive the...
The computational thermodynamic analysis of a samarium oxide-based two-step solar thermochemical wat...
In the present work, solar-driven two-step thermochemical cycles for hydrogen production based on me...
The present study provides a thermodynamic analysis of solar thermochemical cycles for splitting of ...
In this paper computational thermodynamic modeling of solar syngas production via ferrite based (Fe3...
In this paper, the solar thermochemical copper oxide - copper sulfate (CO-CS) water splitting cycle ...
This paper reports the thermodynamic analysis of solar H2 production via two-step thermochemical Str...
This paper reports the thermodynamic analysis of solar H2 production via two-step thermochemical iro...
This paper reports the thermodynamic analysis of solar H2 production via two-step thermochemical iro...
Production of H2 via water splitting reaction driven by concentrated solar power is one of the promi...
In this paper computational thermodynamics modeling of the solar H2 production via twostep thermoche...
In this paper thermodynamic feasibility of the production of solar fuel via SnO2/SnO based thermoche...
There are many studies related on the SnO2/SnO based solar thermochemical water splitting cycle, how...
This article reports the thermodynamic efficiency analysis of the strontium oxide strontium sulfate ...
In this paper, solar reactor efficiency analysis of the solar thermochemical two-step zinc oxide-zin...
Solar thermal water splitting (STWS) is a process which utilizes concentrated sun-light to drive the...
The computational thermodynamic analysis of a samarium oxide-based two-step solar thermochemical wat...
In the present work, solar-driven two-step thermochemical cycles for hydrogen production based on me...
The present study provides a thermodynamic analysis of solar thermochemical cycles for splitting of ...
In this paper computational thermodynamic modeling of solar syngas production via ferrite based (Fe3...