Engineered plant biomass feedstock particles
Abstract
A novel class of flowable biomass feedstock particles with unusually large surface areas that can be manufactured in remarkably uniform sizes using low-energy comminution techniques. The feedstock particles are roughly parallelepiped in shape and characterized by a length dimension (L) aligned substantially with the grain direction and defining a substantially uniform distance along the grain, a width dimension (W) normal to L and aligned cross grain, and a height dimension (H) normal to W and L. The particles exhibit a disrupted grain structure with prominent end and surface checks that greatly enhances their skeletal surface area as compared to their envelope surface area. The L.times.H dimensions define a pair of substantially parallel side surfaces characterized by substantially intact longitudinally arrayed fibers. The W.times.H dimensions define a pair of substantially parallel end surfaces characterized by crosscut fibers and end checking between fibers. The L.times.W dimensions define a pair of substantially parallel top surfaces characterized by some surface checking between longitudinally arrayed fibers. The feedstock particles are manufactured from a variety of plant biomass materials including wood, crop residues, plantation grasses, hemp, bagasse, and bamboo.
- Inventors:
-
- Federal Way, WA
- Lake Forest Park, WA
- Issue Date:
- Research Org.:
- Forest Concepts, LLC (Auburn, WA)
- Sponsoring Org.:
- USDOE
- OSTI Identifier:
- 1029205
- Patent Number(s):
- 8034449
- Application Number:
- 12/907,526
- Assignee:
- CHO
- Patent Classifications (CPCs):
-
B - PERFORMING OPERATIONS B27 - WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL B27L - REMOVING BARK OR VESTIGES OF BRANCHES
Y - NEW / CROSS SECTIONAL TECHNOLOGIES Y10 - TECHNICAL SUBJECTS COVERED BY FORMER USPC Y10T - TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- DOE Contract Number:
- SC0002291
- Resource Type:
- Patent
- Country of Publication:
- United States
- Language:
- English
- Subject:
- 09 BIOMASS FUELS
Citation Formats
Dooley, James H, Lanning, David N, and Broderick, Thomas F. Engineered plant biomass feedstock particles. United States: N. p., 2011.
Web.
Dooley, James H, Lanning, David N, & Broderick, Thomas F. Engineered plant biomass feedstock particles. United States.
Dooley, James H, Lanning, David N, and Broderick, Thomas F. Tue .
"Engineered plant biomass feedstock particles". United States. https://www.osti.gov/servlets/purl/1029205.
@article{osti_1029205,
title = {Engineered plant biomass feedstock particles},
author = {Dooley, James H and Lanning, David N and Broderick, Thomas F},
abstractNote = {A novel class of flowable biomass feedstock particles with unusually large surface areas that can be manufactured in remarkably uniform sizes using low-energy comminution techniques. The feedstock particles are roughly parallelepiped in shape and characterized by a length dimension (L) aligned substantially with the grain direction and defining a substantially uniform distance along the grain, a width dimension (W) normal to L and aligned cross grain, and a height dimension (H) normal to W and L. The particles exhibit a disrupted grain structure with prominent end and surface checks that greatly enhances their skeletal surface area as compared to their envelope surface area. The L.times.H dimensions define a pair of substantially parallel side surfaces characterized by substantially intact longitudinally arrayed fibers. The W.times.H dimensions define a pair of substantially parallel end surfaces characterized by crosscut fibers and end checking between fibers. The L.times.W dimensions define a pair of substantially parallel top surfaces characterized by some surface checking between longitudinally arrayed fibers. The feedstock particles are manufactured from a variety of plant biomass materials including wood, crop residues, plantation grasses, hemp, bagasse, and bamboo.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {2011},
month = {10}
}
Works referenced in this record:
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journal, January 2008
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Mode of Failure Model for Cutting Solid Section Biomass
conference, January 2008
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