Journal
BIOFUELS-UK
Volume 7, Issue 1, Pages 57-67Publisher
TAYLOR & FRANCIS LTD
DOI: 10.1080/17597269.2015.1118780
Keywords
fast pyrolysis; biofuels; biochemicals; hydrocarbon chemicals; techno-economic analysis
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Funding
- NSF EPSCoR [EPS-1101284]
- Bio-economy Institute at Iowa State University
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This study evaluates the techno-economic feasibility of three product portfolios from a biomass fast pyrolysis biorefinery: biofuel, biochemicals, and hydrocarbon chemicals. The biorefinery design is based on the fast pyrolysis and five-stage fractionation system developed by Iowa State University. It can produce drop-in transportation fuels (biofuel scenario); infrastructure materials such as bioasphalt and bio-cement, and dextrose (biochemicals scenario); and hydrocarbon aromatics and olefins (hydrocarbon chemicals scenario). Bio-oil is fractionated into five stage-fractions and upgraded through different pathways based on the chosen portfolio. Minimum product-selling prices (MPSP) are calculated using a 30-year discounted cash flow rate of return analysis spreadsheet. Uncertainty analysis via Monte-Carlo analysis is used to determine the maximum investment cost (MIC) and the net present value (NPV) distribution. We estimate MPSPs of US$ 3.09/gallon for biofuels, $ 433.7/MT for biochemicals, and $ 773.5/MT for hydrocarbon chemicals. The mean MICs are $ 162 MM, $ 610 MM, and $ 366.24 MM, and the net present value distributions are $-243.42 +/- 268.9 MM, $ 503.83 +/- 429 MM, and $ 242.44 +/- 30.1. Biofuel, biochemical, and hydrocarbon chemical portfolios have 18%, 100%, and 100% chance that net present values are positive respectively, which indicates that producing biochemicals and hydrocarbon chemicals could be more competitive than producing biofuels alone.
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