Biomass materials have a wide range of moisture contents that are subjected to varying temperature, pressures, and forces which traditional metrics provide little-to-no value for the engineering design of hoppers, feeders and mixers. Many of the reported failures at advanced biofuel and bioproducts production facilities are due in part to feedstock handling related problems resulting from a lack of useful and accurate engineering data.
Forest Concepts, led by Dr. Jim Dooley, CTO, in collaboration with Penn State University’s Dr. Virendra Puri, has an overall project goal to contribute to the design and operation of reliable, cost effective, continuous feeding of biomass feedstocks into various reactors typical of integrated biorefineries.
For the past 30 plus years, Dr. Puri has greatly advanced the modeling of compression, flowability, and storage of particulate materials while Dr. Dooley has made significant advances in low energy processing of uniform, flowable precision feedstocks from a variety of high moisture biomass.
“We appreciate DOE Bioenergy Technologies Office support for this important project. The new biomass characterization and flowability properties tools that will result should enable our engineers and others in the bioeconomy to improve process on-stream time and reduce operational risks associated with flowability issues,“stated Dr. Dooley.
A component of the project will be to design and build a large scale CTT for commercial use in predicting biomass flows through feedstock handling systems, and final validation of the predictive model including all feedstock handling infeed and outfeed unit operations will be performed using Amaron Energy’s mobile pyrolysis unit in Salt Lake City.