Biological Engineering 3(1): 37-69 © 2010 ASABE ISSN 1934-2799 37 Optimization of Miscanthus Harvesting and Handling as an Energy Crop: BioFeed Model Application Y. N. Shastri, A. C. Hansen, L. F. Rodríguez, K. C. Ting* ABSTRACT. The success of the bioenergy sector depends significantly on ensuring efficient and sustainable biomass feedstock production and provision, which requires a comprehensive systems theory based approach. BioFeed is a system-level model that has been proposed to optimize the feedstock production and provision activities. It has been applied in the past to study switchgrass production in Illinois. This work presents recent additions to the BioFeed model to enable a more accurate representation of various biomass production activities for energy crops. While maintaining the original model framework that focuses on farm-level design and operational issues in addition to storage and transportation logistics, new biomass packing and size reduction op- erations such as pelletization and grinding have been added. The selection and opera- tion of biomass handling equipment such as loaders, unloaders, and in-field transpor- tation equipment have also been incorporated. The addition of these new operations created the challenge of ensuring the logical validity of the operational sequence dur- ing model simulation. A superstructure of all possible operational sequences was de- veloped, and the biomass form at the output of every piece of equipment was tracked to ensure appropriate equipment selection. The model was then applied to a case study of Miscanthus production as the energy crop in southern Illinois. The results showed that the optimized delivered cost based on existing technology was about $45 Mg -1 . Biomass packing and storage were important components of the total cost distribution. The potential alternatives to reduce the delivered cost included using a single-pass mowing and baling operation, increasing the packing throughput capac- ity, and extending the harvesting window. Keywords. BioFeed, Biomass feedstock, Illinois, Miscanthus, Optimization. he importance of biomass feedstock production and provision in the success of the biomass-based energy sector has increasingly been highlighted in recent times (Perlack et al., 2005; DOE, 2008). Low energy density, seasonal avail- ability, and distributed supply create unique challenges that need to be addressed ef- Submitted for review in May 2010 as manuscript number BE 8589; approved for publication by the Bio- logical Engineering Editorial Board of ASABE in November 2010. The authors are Yogendra N. Shastri, ASABE Member Engineer, Visiting Research Assistant Profes- sor, Energy Biosciences Institute and Department of Agricultural and Biological Engineering, University of Illinois at Urbana-Champaign, Urbana, Illinois; Alan C. Hansen, ASABE Member Engineer, Professor, Luis F. Rodríguez, ASABE Member Engineer, Assistant Professor, and K. C. Ting, ASABE Fellow, Professor, Department of Agricultural and Biological Engineering, University of Illinois at Urbana- Champaign, Urbana Illinois. Corresponding author: Yogendra N. Shastri, 1206 W. Gregory Drive, 1119 IGB, Urbana, IL 61801; phone: 217-333-1775; fax: 217-244-3637; e-mail: yshast1@illinois.edu. T