Is Wood Waste Only for Burning? A Methodology for Best Pathway Identification of Waste Recovery
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Elsevier
Reference8 articles.
1. Methanation catalytic reactor;Er-rbib;Comptes Rendus Chimie,2014
2. A new methodology combining total site analysis with exergy analysis;Farhat;Computers & Chemical Engineering,2015
3. Efficiency penalty analysis for pure H2 production processes with CO2 capture;Feng;AIChE Journal,2007
4. Methodology for the optimal thermo-economic, multi-objective design of thermochemical fuel production from biomass;Gassner;Computers & Chemical Engineering,2009
5. A systematic methodology for the environomic design and synthesis of energy systems combining process integration, Life Cycle Assessment and industrial ecology;Gerber;Computers & Chemical Engineering,2013
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