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2005 OBP Biennial Peer Review

2005 OBP Biennial Peer Review. Biomass Storage for the Refining Industry Corey W. Radtke Biomass Feedstock Interface Platform November 14, 2005. Overview. Work Objective.

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2005 OBP Biennial Peer Review

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  1. 2005 OBP Biennial Peer Review Biomass Storage for the Refining Industry Corey W. Radtke Biomass Feedstock Interface Platform November 14, 2005

  2. Overview Work Objective • Objective – Decrease 2005 cost to $35/dry ton by 2015 for the purpose reducing sugar cost by almost 2 cents per lb, for all Billion Ton Vision Feedstocks • Budget – About $2M per year from 2004 -2006 • Current Partners – National Laboratories, Universities, Equipment Industry • Developing Partners – Agribusiness Commodity Companies, Regional Feedstock Centers Partnerships, Feedstock Interface to Biorefining Partners Note: Sugar conversion cost estimate reductions based on the 2005 post-enzyme subcontract conversion case.

  3. Pathway • Pathway Impact: • B-Level Milestone – Agriculture residue and energy crop feedstocks available to a biorefinery at $35/dry ton by 2015 • C-Level Milestones – Production($10.00), Harvest/Collect($12.50), Storage($1.75), Transport($8.00), Preprocessing ($2.75), System Integration • Cost and Quality Improvements (dry biomass first, wet second) Agriculture Residue Pathway Energy Crops Pathway

  4. Approach 1. DOE Multi-Year Technical Plan Barriers for Feedstock Supply can be grouped into: • Cost - $35 / try ton (Operational and Capital Costs) • Quality – dockage, composition, conversion efficiency (selective harvest, fractional milling, in-storage fractional conversion) • Quantity – biomass types (Billion Ton Study) 2. Develop preprocessing based feedstock supply systems that interface biorefining conversion processes to feedstock resources: • Corn Stover • Cereal Straw • Switchgrass

  5. Interim Stage Gate Overview

  6. Summarized Reviewer Comments • Complete INL-Storage portion of Stategate Reviewer’s Comments from FY05 review: • Stage Placement • Data Collection • Well Leveraged across several projects to get useful baseline data • Very important as we all agree that storage is inevitable • Appears that there is a method for statically relevant data, important to make sure that happens • Need to consider how the results can be applied to other systems • How can learnings be applied to multiple types of storage for the same site, e.g., different periods of time • Comment for all three storage projects [other storage projects at review] • Need to keep in mind the clear vision for how the material will get to the pile • There are three ensiling projects ISU/BMAP/Imperial that are all doing similar activities - INL should coordinate these project.

  7. DOE Response • Storage Research, FY05 • Please comment on the DOE response to the reviewers comments • Projected was extended beyond a baseline data collection action, and into an assessment of feedstock quality through wet and dry systems. • Investigation was performed in manner to ensure findings extend to other feedstocks and storage methods. • Harvest and assembly are included as part of an overall Feedstock Assembly write-up, putting the Storage section findings in overall context of biomass cost and quality as delivered to a Biorefinery. • Coordinating with Imperial project as appropriate to AOP.

  8. DOE Response • Storage Research, FY05; Key Findings of Dry Storage Systems • Bales and chopped pile stored outdoors for 1-year • revealed 0.85% and 3.67% dry matter losses, respectively • Loaves showed 14% dry matter loss, due to mechanical • loss and research nature (lack of practice) using of this • form of storage

  9. DOE Response • Storage Research, FY05; Key Findings of Dry Storage Systems • Visually damaged areas after 1-year of dry storage was less than 25% • in all storage systems. • Total sugar degradation (quality loss) was relatively insignificant.

  10. DOE Response • Storage Research, FY05; Key Findings of Wet Storage Systems • A host-pile approach was taken to Integrate all phases of Feedstock Assembly through wet storage

  11. DOE Response • Storage Research, FY05; Key Findings of Wet Storage Systems • Wet stored corn stover was tested for effects of treatment additives on Biorefinery-specific parameters • About 5% glucan was lost from stover stored in every treatment. • Some evidence for in-storage pretreatment of corn stover was found (this was baseline, not an optimization activity)

  12. DOE Response • Storage Research, FY05; Key Findings of Wet Storage Systems • Ethanol production from readily available sugars in storage, or “Fractional Conversion” • was identified as an impact item for future research • Necessary to marry with appropriate pretreatment infrastructure for recovery • Ungulate mimetic – overall, the process intensity for ethanol conversion may be proportional to the • recalcitrance of the feedstock

  13. Summary and Future Work

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