Date of Award

2013

Degree Type

Thesis

Department

Agricultural and Biological Engineering

Committee Chair

Dennis R. Buckmaster

Committee Co-Chair

Daniel R. Ess

Committee Member 1

Keith W. Johnson

Abstract

A flailing knife shredder was designed and tested as an alternative to a hammermill for processing biomass. The machine was comprised of two cylinders with four rungs, each with five free-swinging blades. Each of the two cylinders had adjustable clearance hoods and variable speed drives. Energy usage, output characteristics and device capacities were compared with corn stover processed at moisture contents (MC) of 10%, 35% and 50% wet basis (WB). The hammermill produced a more uniform particle size distribution in comparison to the shredder. Accessibility, indicated by conductivity index, to plant constituents, revealed that the method of treatment was not-significant (p

When processing material at 10% and 35% MC WB, the flailing knife shredder achieved material accessibility of 65% and 71% respectively to the level of the hammermill with similar material. While lower moisture material had decreased levels of material accessibility in the shredder in comparison to the hammermill, the specific energy to process the same amount of material was 23% and 171% more with the hammermill at moisture contents of 10% and 35% WB respectively.

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