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Effect of particle size and moisture on flow performance of loblolly pine anatomical fractions: Experimental findings and model predictions

Journal Article · · Biomass and Bioenergy
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  1. Idaho National Laboratory (INL), Idaho Falls, ID (United States)
  2. Idaho National Laboratory (INL), Idaho Falls, ID (United States); Texas A & M Univ., College Station, TX (United States)
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The rising energy demand has highlighted biomass as a promising next-generation energy source. However, commercializing biomass-derived energy faces challenges, particularly in handling biomass feedstock. Factors like particle size, shape, moisture content, and surface roughness significantly impact biomass flowability. This study addresses a crucial knowledge gap by examining the effects of particle size and moisture content on the flow behavior and shear properties of different anatomical fractions of loblolly pine (Pinus taeda). The bulk shear behavior was examined using a Schulze ring shear tester, while flow performance was tested through gravity-driven flow experiments in a variable wedge-shape hopper. Results were incorporated into empirical and machine learning-based flow prediction models to evaluate their accuracy and limitations. The study found that samples with higher moisture content show higher unconfined yield strength. The critical arching distance increased with particle size, e.g., from approximately 13 and 33 mm for 2- and 6-mm whole chips, respectively at a 32-degree inclination angle. Conversely, the flow rate decreased for a given hopper opening as particle size increased. For instance, at a 60-mm hopper opening and a 32-degree inclination angle, the mass flow rates for 2- and 6-mm whole chips were 7.83 and 6.42 tonne/h, respectively. The empirical model consistently overpredicted the mass flow rate for all anatomical fractions, while the machine learning model more accurately predicted the central tendency of flow rate but was insensitive to varying tissue proportions. These novel findings provide comprehensive characterization of anatomical fractions, reveal significant combined effects of particle size and moisture content on biomass flow behavior, and demonstrate a better predictive accuracy of a machine learning model, all of which are useful for optimizing material handling strategies and biomass utilization technologies in the industry.
Research Organization:
Idaho National Laboratory (INL), Idaho Falls, ID (United States)
Sponsoring Organization:
USDOE Office of Energy Efficiency and Renewable Energy (EERE), Office of Sustainable Transportation. Bioenergy Technologies Office (BETO); USDOE Office of Nuclear Energy (NE)
Grant/Contract Number:
AC07-05ID14517
OSTI ID:
3013005
Report Number(s):
INL/JOU--25-84347
Journal Information:
Biomass and Bioenergy, Journal Name: Biomass and Bioenergy Journal Issue: na Vol. 205; ISSN 0961-9534
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

References (39)

On the challenges facing the handling of solid biomass feedstocks: On the Challenges Facing the Handling of Solid Biomass Feedstocks journal January 2018
Powders and Bulk Solids: Behavior, Characterization, Storage and Flow book January 2021
Flow Properties of Commonly Used Food Powders and Their Mixtures journal July 2012
Arching in hoppers: II. Arching theories and critical outlet size journal August 1995
Physical properties of solid biomass journal May 2011
New approaches to measuring biochar density and porosity journal July 2014
Effect of grinder configuration on forest biomass bulk density, particle size distribution and fuel consumption journal October 2015
Capillary suspensions: Particle networks formed through the capillary force journal December 2014
Influence of feedstock variability on thermal decomposition of forest residue in a screw feeder for high temperature conversion journal June 2023
Flow and shear descriptors of preconsolidated food powders journal January 2006
Relationship between particle scale capillary forces and bulk unconfined yield strength journal November 2003
Shear and flow behavior of pharmaceutical blends — Method comparison study journal April 2011
Experimental investigation of wall pressure and arching behavior under surcharge pressure in mass-flow hoppers journal May 2014
An investigation of the effect of particle size on discharge behavior of pulverized coal journal November 2015
Feeding properties and behavior of hammer- and knife-milled pine journal October 2017
An experimental evaluation of powder flow predictions in small-scale process equipment based on Jenike's hopper design methodology journal November 2017
Characterization of shear behaviour in consolidated granular biomass journal March 2018
An investigation into the flowability of fine powders used in pharmaceutical industries journal August 2018
Determination of the flow/no-flow transition from a flat bottom hopper journal December 2019
Predicting the critical outlet width of a hopper using a continuum finite element method model journal November 2019
Effects of surface roughness on liquid bridge capillarity and droplet wetting journal January 2021
Flow characterization of compressible biomass particles using multiscale experiments and a hypoplastic model journal May 2021
Flow behavior characterization of biomass Feedstocks journal July 2021
Characterization of particle size and moisture content effects on mechanical and feeding behavior of milled corn (Zea mays L.) stover journal June 2022
Rheological effects of moisture content on the anatomical fractions of loblolly pine (Pinus taeda) journal November 2022
Particle size and shape effect of Crumbler® rotary shear-milled granular woody biomass on the performance of Acrison® screw feeder: A computational and experimental investigation journal September 2023
A high-performance discrete-element framework for simulating flow and jamming of moisture bearing biomass feedstocks journal February 2025
Effects of particle size, distribution, and morphology on bulk shear behavior of milled loblolly pine journal May 2025
Flow and Arching of Biomass Particles in Wedge-Shaped Hoppers journal October 2021
Wedge-Shaped Hopper Design for Milled Woody Biomass Flow journal December 2022
Effects of the Moisture Content on the Flow Behavior of Milled Woody Biomass journal July 2023
Machine Learning Assisted Cross-Scale Hopper Design for Flowing Biomass Granular Materials journal April 2025
Effect of particle shape on particle flow and heat transfer behavior based on computational fluid dynamics-discrete element modeling journal February 2025
Comparative Evaluation of Flow for Pharmaceutical Powders and Granules journal February 2008
Multiscale Shear Properties and Flow Performance of Milled Woody Biomass journal July 2022
Breeding for Climate Change Resilience: A Case Study of Loblolly Pine (Pinus taeda L.) in North America journal April 2021
Analyzing Potential Failures and Effects in a Pilot-Scale Biomass Preprocessing Facility for Improved Reliability journal May 2024
Friction and Shear Properties of Pine Biomass and Pellets journal August 2020
Physical, chemical and mechanical properties of Pinus sylvestris wood at five sites in Portugal journal August 2017

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09 - BIOMASS FUELS
Anatomical fractions
Biomass
Flow model
Flowability
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