APPROPRIATE Life Cycle Assessment: A PROcess-Specific, PRedictive Impact AssessmenT Method for Emerging Chemical Processes

A sustainable chemicalindustry needs to quantify its emissionsand resource consumption by life cycle assessment (LCA). However,LCA requires detailed mass and energy balances, which are usuallynot available at early process development stages. Here, we introducea framework (A PROcess-specific, PRedictive impact AssessmenT method for Emerging chemical processes, APPROPRIATE) to provide a fullyautomated, predictive LCA framework for the early phases of processdevelopment. Based on Gaussian Process Regression, the framework isalready applicable at Technology Readiness Level 2. To overcome thelimited LCA data availability, we employ an encoder-decodernetwork in combination with transfer learning to achieve a latentrepresentation as a condensed molecular descriptor. We further proposeto integrate not only molecular but also process descriptors, e.g.,the stoichiometric sum of the reactants' impacts. Thereby,we can distinguish between process alternatives and incorporate changesin the background systems. The framework is compared to state-of-the-artpredictive LCA approaches and shows increased prediction accuracyin terms of the coefficient of determination of R (2) = 0.61 for the global warming impact compared to an R (2) = 0.3 in former studies. Highly relevant featuresare the stoichiometric sum of the reactants' impacts and thecondensed molecular descriptors. APPROPRIATE supports decision makingin early process development stages by allowing the distinction betweenprocess alternatives and quantifying predictions' uncertainty. The APPROPRIATE framework enables theprocess-specific predictionof environmental impacts by combining machine learning with processshort cuts.