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  • Life cycle inventory data a...
    Mehmeti, Andi; McPhail, Stephen J.; Ulgiati, Sergio

    Energy (Oxford), 09/2018, Volume: 159
    Journal Article

    In recognition of the growing global importance of high-temperature fuel cells (HTFCs) as future energy systems, their commercial market take-off needs to be supported by life-cycle performance metrics. However, research and application of life cycle approaches and tools are not broadly reflected in fuel cell and hydrogen energy technologies due to technical barriers to data collection and analyzing instruments. In this work, an interactive Excel-based decision support system (DSS) for power-to-gas-to-power life cycle assessment (LCA) and techno-economic analysis is presented. The aim of the proposed model is two-fold. Firstly, promote the availability, exchange, and use of coherent and quality-assured life cycle data in a systematic and uniform way. Secondly, serves as guidance model for scale-up and enable non-expert users to improve the knowledge-base of FC life-cycle performance and set up product eco-profiles at the conceptual design stage of a project. The tool uses cutting-edge LCA methodology LCA-ReCiPe 2016 for key environmental performance indicators and a simple levelized cost of energy (electricity or fuel) for the economic attractiveness. The applicability of the model is tested through a case study on Solid Oxide Fuel Cells (SOFC) demonstrating the capability to acknowledge the trade-offs between possible impacts. Display omitted •A Streamlined Sustainability Assessment Tool for high temperature fuel cells.•The tool reduce the data collection time and increase the practicability of LCA.•Key Environmental Performance Indicators are quantified using LCA-ReCiPe 2016.•Additionally, the levelized cost of electricity and fuel production can be quantified.•The model is useful for simplified energy research LCA studies.