期刊
COMPUTERS & CHEMICAL ENGINEERING
卷 156, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.compchemeng.2021.107568
关键词
Biomass; Markets; Coordination; Levulinic acid; Furfural
资金
- U.S. Department of Agriculture [2017-670 03-26055]
- (CONACYT)
The combustion of residual biomass creates environmental hazards and wastes economic opportunities. Producing specialty chemicals from this biomass offers a more attractive disposal option. Coordinating markets for recovering products from waste is essential for generating economic benefits for stakeholders in the supply chain.
Combustion of residual (waste) biomass represents an environmental hazard and a lost economic opportunity. The production of specialty chemicals provides a more attractive pathway to dispose of residual biomass; however, a problem that arises in recovering products from waste is that there are currently no well-established markets that bring together all stakeholders involved (e.g., biomass production, collection, transportation, and processing). In this context, coordination is essential as all the stakeholders in the supply chain (SC) depend on the revenue generated from the derived products. In this work, we propose a market coordination framework for the production of levulinic acid and furfural from lignocellulosic biomass (obtained from agricultural residues). Coordination brings a number of important economic benefits that would be difficult to achieve under existing markets (which are uncoordinated and based on peer-to-peer transactions). We demonstrate insights provided by our framework by using a case study for the State of Guanajuato in Mexico. Our results indicate that production of 330,000 tonnes per year of levulinic acid and 394,000 tonnes per year of furfural can be achieved. This constitutes 3% of the annual global demand for methyltetrahydrofuran. The SC is designed around a single biorefinery and the SC creates a total value of 3.57 billion USD per year and draws 64.65% of the available biomass supply. Our results also indicate that this market would avoid the generation of 850,000 tonnes of CO2 annually (corresponding to a 34% reduction in emissions from the combustion of agricultural residues). As such, the deployment of such a market can bring both economic and environmental benefits. (C) 2021 Elsevier Ltd. All rights reserved.
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