Cite
SnO2/SnO based redox thermochemical CO2 splitting cycle: Effect of inert gas flowrate, reduction temperature, and gas separation on the solar‐to‐fuel energy conversion efficiency.
MLA
Bhosale, Rahul R., et al. “SnO2/SnO Based Redox Thermochemical CO2 Splitting Cycle: Effect of Inert Gas Flowrate, Reduction Temperature, and Gas Separation on the Solar‐to‐fuel Energy Conversion Efficiency.” International Journal of Energy Research, vol. 46, no. 7, June 2022, pp. 9267–80. EBSCOhost, https://doi.org/10.1002/er.7804.
APA
Bhosale, R. R., Shende, R. V., & Gupta, R. B. (2022). SnO2/SnO based redox thermochemical CO2 splitting cycle: Effect of inert gas flowrate, reduction temperature, and gas separation on the solar‐to‐fuel energy conversion efficiency. International Journal of Energy Research, 46(7), 9267–9280. https://doi.org/10.1002/er.7804
Chicago
Bhosale, Rahul R., Rajesh V. Shende, and Ram B. Gupta. 2022. “SnO2/SnO Based Redox Thermochemical CO2 Splitting Cycle: Effect of Inert Gas Flowrate, Reduction Temperature, and Gas Separation on the Solar‐to‐fuel Energy Conversion Efficiency.” International Journal of Energy Research 46 (7): 9267–80. doi:10.1002/er.7804.