Stochastic optimization of a multi-feedstock lignocellulosic-based bioethanol supply chain under multiple uncertainties

An integrated multi-feedstock (i.e. switchgrass and crop residue) lignocellulosic-based bioethanol supply chain is studied under jointly occurring uncertainties in switchgrass yield, crop residue purchase price, bioethanol demand and sales price. A two-stage stochastic mathematical model is proposed...

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Vydáno v:Energy (Oxford) Ročník 59; s. 157 - 172
Hlavní autoři: Osmani, Atif, Zhang, Jun
Médium: Journal Article
Jazyk:angličtina
Vydáno: Kidlington Elsevier Ltd 15.09.2013
Elsevier
Témata:
Applied sciences
bioethanol
Biomass
biorefining
case studies
cost effectiveness
crop residues
Crops
Demand
Energy
ethanol
ethanol production
Exact sciences and technology
Facility location
feedstocks
finance
gasoline
Lignocellulosic-based bioethanol supply chain
Mathematical analysis
Mathematical models
Natural energy
North Dakota
Optimization
Panicum virgatum
prices
Residues
sales
Stochastic mixed integer linear programming
stochastic processes
Stochasticity
supply chain
Sustainability
Switchgrass
Uncertainty
North Dakota
Facility location
Lignocellulosic-based bioethanol supply chain
Sustainability
Switchgrass
Stochastic mixed integer linear programming
Stochastic model
Monocotyledones
Gramineae
Angiospermae
Supply
Spermatophyta
Biofuel
Biomass
Panicum virgatum
ISSN:0360-5442
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Shrnutí:An integrated multi-feedstock (i.e. switchgrass and crop residue) lignocellulosic-based bioethanol supply chain is studied under jointly occurring uncertainties in switchgrass yield, crop residue purchase price, bioethanol demand and sales price. A two-stage stochastic mathematical model is proposed to maximize expected profit by optimizing the strategic and tactical decisions. A case study based on ND (North Dakota) state in the U.S. demonstrates that in a stochastic environment it is cost effective to meet 100% of ND's annual gasoline demand from bioethanol by using switchgrass as a primary and crop residue as a secondary biomass feedstock. Although results show that the financial performance is degraded as variability of the uncertain parameters increases, the proposed stochastic model increasingly outperforms the deterministic model under uncertainties. The locations of biorefineries (i.e. first-stage integer variables) are insensitive to the uncertainties. Sensitivity analysis shows that “mean” value of stochastic parameters has a significant impact on the expected profit and optimal values of first-stage continuous variables. Increase in level of mean ethanol demand and mean sale price results in higher bioethanol production. When mean switchgrass yield is at low level and mean crop residue price is at high level, all the available marginal land is used for switchgrass cultivation. •Two-stage stochastic MILP model for maximizing profit of a multi-feedstock lignocellulosic-based bioethanol supply chain.•Multiple uncertainties in switchgrass yield, crop residue purchase price, bioethanol demand, and bioethanol sale price.•Proposed stochastic model outperforms the traditional deterministic model under uncertainties.•Stochastic parameters significantly affect marginal land allocation for switchgrass cultivation and bioethanol production.•Location of biorefineries is found to be insensitive to the stochastic environment.
Bibliografie:http://dx.doi.org/10.1016/j.energy.2013.07.043
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ISSN:0360-5442
DOI:10.1016/j.energy.2013.07.043