Simapro Crack6/9/2023 ![]() ![]() Sensitivity analysis indicated that a sustainable energy supply chain for ECR will accelerate the development of a circular economy. For ethylene production, human health damage, ecosystem damage, and petrochemical use were reduced by 67, 94, and 110 %, respectively. Notably, ECR to FA recorded a 24 % reduction in petrochemical usage. Although ECR currently has limited environmental benefits, the incorporation of hydropower has vast potential after evaluating four sustainable electricity sources, namely hydropower, wind, solar, and biomass. At the midpoint level, global warming potential (GWP) effects of FA and ethylene production through ECR recorded 5.6 and 1.6-times that of the conventional process, respectively. In this work, cradle-to-gate life cycle assessment (LCA) was performed to quantify the environmental impacts of formic acid (FA) and ethylene production through ECR benchmarked with the conventional processes. Converting CO 2 into valuable C 1–C 2 chemicals through electrochemical CO 2 reduction (ECR) has potential to remedy the ever-increasing climate problems owing to the intensification of industrial activity. only simapro provides you with the high level of transparency you need to make fully-conscious choices and achieve accurate results.
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