Designing optimal supply chains for anaerobic bio-digestion/energy generation complexes with distributed small farm feedstock sourcing

Anaerobic bio-digestion/energy generation (ABD/EG) complexes that use animal waste have become increasingly important as renewable energy sources and logistics considerations are essential as animal biomass is of costly transportation due to its high weight per unit of energy generated. To ensure ov...

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Bibliographic Details
Published in:Renewable energy 2016-05, Vol.90, p.46-54
Main Authors: Mayerle, Sérgio Fernando, Neiva de Figueiredo, João
Format: Article
Language:English
Subjects:
Anaerobic digestion
Animals
Biogas
Biomass
Biomass energy
Biomass supply optimization
Facilities location
Farms
Feedstock
Mathematical models
Optimal scheduling
Optimization
Supply chains
Wastes
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Summary:Anaerobic bio-digestion/energy generation (ABD/EG) complexes that use animal waste have become increasingly important as renewable energy sources and logistics considerations are essential as animal biomass is of costly transportation due to its high weight per unit of energy generated. To ensure overall economic viability it is necessary to take into account the supply chain network when designing such a complex for at least two main reasons. First, these complexes provide power from energy sources which otherwise would go to waste and a well-designed supply chain network will significantly lower long-term operating costs. Second, because they provide an outlet for farm manure (their feedstock), these complexes allow farmers to expand production capacity whenever environmentally sound animal waste disposal is an active constraint to operations. This paper presents a methodology to design a supply chain which maximizes contribution and minimizes gas loss in the commonly found configuration in which feedstock providers are numerous small farms without on-site bio-digestion units, i.e., a configuration in which in-natura biomass is transported from those small farms to supply a nearby ABD/EG complex serving the region. The paper details three layers of analysis for designing optimal animal waste supply for anaerobic bio-digestion, including model formulation and mathematical solution for each stage. The broadest layer in the methodology is the identification of the optimal ABD/EG complex positioning given farm locations and consequent biomass transportation costs. The middle layer is the specification of the optimal logistics and transportation system, including the prioritization of supplying farms. The operational layer includes scheduling optimal biomass collection from each farm to minimize biogas loss. •We present a methodology for optimal bioenergy supply logistics systems design.•We provide mathematical models and analytical solutions for each of three stages in optimal supply chain design.•Optimal location of biomass anaerobic bio-digestion/energy generation complex is determined.•Supplying farms to maximize contribution of the system are selected.•Biomass collection is scheduled to minimize biogas loss.
ISSN:0960-1481
1879-0682
DOI:10.1016/j.renene.2015.12.022