Your search keyword '"Degens, Roel"' showing total 2 results

1. Prospective Life Cycle Assessment of Hydrogen: A Systematic Review of Methodological Choices.

Author

Martinez, Gustavo Ezequiel, Degens, Roel, Espadas-Aldana, Gabriela, Costa, Daniele, and Cardellini, Giuseppe

Subjects

*TECHNOLOGY assessment, *PRODUCT life cycle assessment, *HYDROGEN production, *DATA quality, *CLIMATE change

Abstract

This systematic review examines methodological choices in assessing hydrogen production and utilisation technologies using prospective life cycle assessments (LCA) between 2010 and 2022, following PRISMA guidelines. The review analysed 32 peer-reviewed articles identified through Scopus, Web of Science, and BASE. The study reveals a significant gap in the consistent application of prospective LCA methodologies for emerging hydrogen technologies. Most studies employed attributional approaches, often lacking prospective elements in life cycle inventory (LCI) modelling. Although some initiatives to integrate forward-looking components were noted, there was often lack of clarity in defining LCA objectives, technology readiness level (TRL), and upscaling methods. Of the 22 studies that focused on emerging hydrogen technologies, few detailed upscaling methods. Additionally, the review identified common issues, such as the limited use of prospective life cycle impact assessment (LCIA) methods, inadequate data quality evaluation, and insufficient sensitivity and uncertainty analysis. These findings highlight the substantial gaps in modelling low-TRL hydrogen technologies and the need for more robust, comprehensive approaches to assess uncertainties. The review also identified common practices and areas for improvement to enhance the reliability and relevance of hydrogen technology environmental assessments. [ABSTRACT FROM AUTHOR]

Published

2024

2. Life Cycle Assessment of an Organic Redox Flow Battery

Author

Degens, Roel (author) and Degens, Roel (author)

Abstract

Energy storage systems can play a vital role in the implementation of a sustainable energy grid by allowing the wide scale implementation of fluctuating renewable energy sources like wind and solar. Therefore it is expected that in the coming years, the total amount of energy storage systems will drastically increase. Analysing the sustainability of these storage systems before widespread implementation is therefore of great importance. In this thesis such a life cycle assessment has been conducted to assess the environmental sustainability of one type of energy storage system: the Organic Redox Flow Battery produced by the Baliht research group., Industrial Ecology

Published

2022