Critical review: ‘Green’ ethylene production through emerging technologies, with a focus on plasma catalysis
Author:
Funder
European Research Council
European Commission
Publisher
Elsevier BV
Subject
Renewable Energy, Sustainability and the Environment
Reference149 articles.
1. Intensification of ethylene production from naphtha via a redox oxy-cracking scheme: process simulations and analysis;Haribal;Engineering,2018
2. Three-phase electrochemistry for green ethylene production;Wang;Curr Opin Electrochem,2021
3. Reducing CO2 emissions of existing ethylene plants: evaluation of different revamp strategies to reduce global CO2 emission by 100 million tonnes;Mynko;J Clean Prod,2022
4. Life cycle assessment of plasma-assisted ethylene production from rich-in-methane gas streams;Delikonstantis;Sustain Energy Fuels,2020
5. Sustainability of green solvents--review and perspective;Hessel;Green Chem,2022
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