Keywords

fast pyrolysis; biomass; chaparral; tar; light gases; high heating value; physicsbased fire simulation

Abstract

Pyrolysis of 24 samples of foliage from three U.S. regions with frequent wildland fires (Southeastern U.S., northern Utah and Southern California) was studied in a fuel-rich flat-flame burner system at 765 ◦C (for Southeastern U.S. samples) and 725 ◦C (for northern Utah and Southern California species), with a heating rate of approximately 180 ◦C/s. These conditions were selected to mimic the conditions of wildland fires. Individual plant samples were introduced to the high temperature zone in a flat-flame burner and pyrolysis products were collected. Tar was extracted and later analyzed by GC/MS. Light gases were collected and analyzed by GC/TCD. The estimated range for the average yields of tar and light gases were 48 to 62 wt% and 18 to 31 wt%, respectively. Apart from Eastwood’s manzanita (Arctostaphylos glandulosa Eastw.), aromatics were the major constituents of tar. The variations in the concentrations of tar compounds likely resulted from differences in biomass composition and physical characteristics of the foliage. The four major components of light gases from pyrolysis (wt% basis) were CO, CO2, CH4 and H2. Tar contributed more than 82% of the high heating value of volatiles. These data can be used to improve physical-based fire propagation models.

Original Publication Citation

Alizadeh, M. and T. H. Fletcher, “Pyrolysis of Foliage from 24 U.S. Plant Species with Recommendations for Physics-based Wildland Fire Models,” Fire, 8, 424 (2025).

Document Type

Peer-Reviewed Article

Publication Date

2025-10-31

Publisher

MDPI

Language

English

College

Ira A. Fulton College of Engineering

Department

Chemical Engineering

University Standing at Time of Publication

Full Professor

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