Life Cycle Inventory Dataset for Energy Production and Storage Technologies: Standardized Metrics for Environmental Modeling DOI Creative Commons
Elena Rozzi, Paolo Marocco, Marta Gandiglio

et al.

Data in Brief, Journal Year: 2025, Volume and Issue: 60, P. 111666 - 111666

Published: May 14, 2025

The presented dataset provides the results of a comprehensive inventory Life Cycle Assessments (LCA) for multiple energy production and storage technologies. Unlike conventional LCA studies, which often provide case-specific data that are difficult to apply in analysis design systems, this work delivers standardized values, expressed per unit installed capacity (kW), and, where relevant, operational output (kWh). These normalized metrics essential integration environmental considerations into system modeling optimization. is result review peer-reviewed institutional reports, industrial data, existing databases. Robust average values were derived by consolidating information from sources, thereby addressing key gap literature whereby heterogeneous fragmented can make their practical application problematic. Minimum maximum estimates also reported characterize variability across technologies datasets, providing more understanding underlying uncertainty. databases, paywalls, have highly detailed but less accessible method aggregated user-friendly parameters ready direct use. covers such as photovoltaic solutions, hydrogen production, internal combustion engines, boilers, heat pumps, organic Rankine cycles, well carriers, including natural gas, electricity, hydrogen, biomass. Environmental impacts midpoint categories, global warming potential, mineral metal depletion, land water use, particulate matter, acidification, eutrophication, ecotoxicity, ionizing radiation, human toxicity, ozone depletion potential. dataset, was drawn up according International Reference Data System (ILCD), ReCiPe Impact Assessment Method (ReCiPe), Intergovernmental Panel on Climate Change Global Warming Potential (IPCC GWP) guidelines, ensures consistency comparability Moreover, provided an open-access Excel Workbook, readily applicable assessments, optimization planning communities smart grids, support informed decisions sustainable transitions.

Language: Английский

Life Cycle Inventory Dataset for Energy Production and Storage Technologies: Standardized Metrics for Environmental Modeling DOI Creative Commons
Elena Rozzi, Paolo Marocco, Marta Gandiglio

et al.

Data in Brief, Journal Year: 2025, Volume and Issue: 60, P. 111666 - 111666

Published: May 14, 2025

The presented dataset provides the results of a comprehensive inventory Life Cycle Assessments (LCA) for multiple energy production and storage technologies. Unlike conventional LCA studies, which often provide case-specific data that are difficult to apply in analysis design systems, this work delivers standardized values, expressed per unit installed capacity (kW), and, where relevant, operational output (kWh). These normalized metrics essential integration environmental considerations into system modeling optimization. is result review peer-reviewed institutional reports, industrial data, existing databases. Robust average values were derived by consolidating information from sources, thereby addressing key gap literature whereby heterogeneous fragmented can make their practical application problematic. Minimum maximum estimates also reported characterize variability across technologies datasets, providing more understanding underlying uncertainty. databases, paywalls, have highly detailed but less accessible method aggregated user-friendly parameters ready direct use. covers such as photovoltaic solutions, hydrogen production, internal combustion engines, boilers, heat pumps, organic Rankine cycles, well carriers, including natural gas, electricity, hydrogen, biomass. Environmental impacts midpoint categories, global warming potential, mineral metal depletion, land water use, particulate matter, acidification, eutrophication, ecotoxicity, ionizing radiation, human toxicity, ozone depletion potential. dataset, was drawn up according International Reference Data System (ILCD), ReCiPe Impact Assessment Method (ReCiPe), Intergovernmental Panel on Climate Change Global Warming Potential (IPCC GWP) guidelines, ensures consistency comparability Moreover, provided an open-access Excel Workbook, readily applicable assessments, optimization planning communities smart grids, support informed decisions sustainable transitions.

Language: Английский

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