Plastic-to-energy: Process and economic–environmental assessment of a recycling technology
Author:
Funder
Keimyung University
Publisher
Elsevier BV
Reference39 articles.
1. Zero waste approach towards a sustainable waste management;Awasthi;Resour. Environ. Sustain.,2021
2. Dataset on flue gas composition during combustion in the fluidised bed reactor. Polyethylene combustion;Berkowicz;Data Brief.,2020
3. Waste to energy–key element for sustainable waste management;Brunner;Waste Manag.,2015
4. Thermal utilization (treatment) of plastic waste;Bujak;Energy,2015
5. The world’s growing municipal solid waste: trends and impacts;Chen;Environ. Res. Lett.,2020
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