Hydrogen, Green Metrics (Chapter 2)
SEP’s Green Metrics Report examines two key issues: the indirect greenhouse gas (GHG) impacts of hydrogen and the effects of its production and use. For the former, SEP explores various sensitivities, including hydrogen demand, leakage rates, and different estimates of hydrogen’s global warming potential. For the latter, SEP analyzes electrolysis and steam methane reforming (SMR) using the GREET model and conducts a literature review on the benefits of hydrogen for transportation and industrial applications. Additionally, SEP provides context on hydrogen’s relationship with water and land use, NOx emissions, policy, low-carbon power, and carbon capture.
SEP’s Green Metrics Report examines two key issues: the indirect greenhouse gas (GHG) impacts of hydrogen and the effects of its production and use. For the former, SEP explores various sensitivities, including hydrogen demand, leakage rates, and different estimates of hydrogen’s global warming potential. For the latter, SEP analyzes electrolysis and steam methane reforming (SMR) using the GREET model and conducts a literature review on the benefits of hydrogen for transportation and industrial applications. Additionally, SEP provides context on hydrogen’s relationship with water and land use, NOx emissions, policy, low-carbon power, and carbon capture.
SEP’s Green Metrics Report examines two key issues: the indirect greenhouse gas (GHG) impacts of hydrogen and the effects of its production and use. For the former, SEP explores various sensitivities, including hydrogen demand, leakage rates, and different estimates of hydrogen’s global warming potential. For the latter, SEP analyzes electrolysis and steam methane reforming (SMR) using the GREET model and conducts a literature review on the benefits of hydrogen for transportation and industrial applications. Additionally, SEP provides context on hydrogen’s relationship with water and land use, NOx emissions, policy, low-carbon power, and carbon capture.