清华大学学报(自然科学版)2025,Vol.65Issue(4):664-671,8.DOI:10.16511/j.cnki.qhdxxb.2024.27.056
基于Byram模型的地表可燃物碳消耗量预测模型研究
Study on a predictive model for carbon consumption of surface fuels based on the Byram model
摘要
Abstract
[Objective]The frequency and intensity of forest fires have increased considerably in recent years,driven largely by human activities and climate change.Vast quantities of carbon-containing substances released during forest fires exacerbate climate change through a positive feedback loop.Surface fires,the most common type of forest fire,account for more than half of the total emissions from forest fires.Accurate estimation of carbon emissions from surface fires is therefore essential for understanding their impact on carbon sinks and assessing the role of forest fires in driving climate change.[Methods]This study constructed indoor combustion beds to investigate the relationship between surface fire behavior and carbon consumption during the combustion of surface fuels in a planted Pinus koraiensis forest.Fuel beds were prepared with varying fuel loadings(0.4 kg·m-2,0.8 kg·m-2,1.2 kg·m-2,and 1.6 kg·m-2)and fuel moisture contents(5%,10%,and 15%).Combustion experiments were conducted across 144 plots under varying slope conditions(0°,10°,20°,and 30°).The rate of spread,flame length,and fuel consumption during surface fire spread were measured,and fireline intensity was calculated using the Byram model.After the experiments,all combustion residues were collected,and their carbon content was determined using the dry burning method,enabling the calculation of carbon consumption from the fuel.A predictive model for fuel carbon consumption was developed by combining the fuel consumption parameters from the Byram fireline intensity equation with the observed fire behavior data.The model parameters were calibrated using the experimental results.[Results]All 144 combustion experiments produced low-intensity surface fires.Most variable interactions significantly influenced the four forest fire behavior characteristics,except for the interaction between fuel load and moisture content,which mainly affected fuel consumption.The four measured fire behavior characteristics increased with higher fuel loads.As fuel moisture content increased,spread rate,flame length,and fireline intensity decreased,although moisture content did not have a significant effect on fuel consumption.Under low slope conditions(0°~20°),the spread rate and fireline intensity increased gradually with the slope.However,when the slope exceeded 20°,these characteristics increased substantially.Flame length also increased with slope,while fuel consumption decreased.Initially,the model predicted surface fire fuel carbon consumption with limited accuracy,yielding R2=0.59,MAE=0.22 kg·m-2,and MAPE=73.00%.After refitting the model parameters using data from the combustion tests,predictive accuracy improved considerably,with R2=0.60,MAE=0.10 kg·m-2,and MAPE=30.99%.[Conclusions]The factors examined in this study generally align with the principles of forest burning,though under specific conditions,fire behavior characteristics may deviate from expected patterns.Refitting the model parameters using laboratory combustion data significantly enhanced the model's applicability and accuracy in predicting carbon consumption from surface fuel burning in Pinus koraiensis plantation forests.关键词
林火行为特征/可燃物碳消耗量/Byram火线强度方程/参数拟合Key words
forest fire behavior characteristics/fuel carbon consumption/Byram fire intensity model/parameters fitting分类
信息技术与安全科学引用本文复制引用
耿道通,杨光,宁吉彬,马尚炯..基于Byram模型的地表可燃物碳消耗量预测模型研究[J].清华大学学报(自然科学版),2025,65(4):664-671,8.基金项目
国家自然科学基金面上项目(32371881) (32371881)
中央高校基本科研业务费专项资金资助(2572024AW15,2572023CT01) (2572024AW15,2572023CT01)
