Economic and life cycle environmental optimization of forest-based biorefinery supply chains for bioenergy and biofuel production

Article ID	Journal	Published Year	Pages	File Type
7007008	Chemical Engineering Research and Design	2016	52 Pages	PDF

Abstract

- A bi-objective optimization model for biorefinery supply chain design is developed.
- GHG emission savings and net present value of the biorefinery system are maximized.
- The produced bioenergy could be used as input in co-located biofuel technologies.
- The model is applied to a case study in British Columbia, Canada.

Keywords

Biorefinery supply chain Life Cycle Assessment Multi-objective optimization

Related Topics

Physical Sciences and Engineering Chemical Engineering Filtration and Separation

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Economic and life cycle environmental optimization of forest-based biorefinery supply chains for bioenergy and biofuel production

Authors

Claudia Cambero, Taraneh Sowlati, Mihai Pavel,