Conventional Life Cycle Assessment (LCA) methods are able to assess environmental impact using significant resources (including time and data). However, due to the challenges associated with data collection these can still suffer from issues including representation accuracy, comparability, data availability, data quality, and uncertainty.
A new paper, A new high-level Life Cycle Assessment framework for evaluating environmental performance: An aviation case study, describes a new streamlined, high-level framework which seeks to solve these issues through rigorous and iterative application of existing standardised LCA methodologies whilst continually engaging with stakeholders.
This research has developed a novel high-level framework which improves efficiency in LCA in this regard. The proposed framework allows for efficient joint interpretation of results by different stakeholders, enabling effective strategic decision making without requiring the granular level of data detail demanded by conventional LCA frameworks.
The paper is written by University of 91Ö±²¥ researchers Jacob Whittle (EngD Researcher in Advanced Metallic Systems and Research Associate), Professor Lenny Koh (Director of the Advanced Resource Efficiency Centre and Chair in Operations Management), Katie Callander (Analyst at the AMRC and Research Associate) and Faizal Kachwala (Project Delivery Manager at AMRC North West), as well as BAE’s Net Zero Technology Lead, Michelle Akure.
In this paper, the new framework is applied to an aviation case study which seeks to investigate the potential environmental impact of implementing sustainable aviation fuel, including fuels based on used cooking oil, power to liquid technology and hydrogen. It also seeks to investigate digitalisation of training regimes within a UK aircraft manufacturer.
This research has shown that applying the new framework allows for rapid evaluation of decarbonisation technologies through rigorous environmental assessment to a degree of accuracy of which still enables strategic decision making, but without the use of unnecessary resources.
Whilst the framework has been developed to work across a range of products, platforms and systems, going forward we will look to apply it in different contexts as an LCA enabler within technological developments. This could include exploration of other aviation decarbonisation pathways to achieve net zero.
Professor Lenny Koh
Principal Investigator (PI) of the project
The paper has been published in the Journal of Cleaner Production and is available to read for free online.