使用可燃物模型所产生的误差。
文中评述了森林可燃物分类、可燃物模型及其预测研究的现状,并简述了我国森林可燃物研究存在的问题与发展趋势。
This paper discussed the current status of the study on classification, modeling and prediction of forest fuel, and presented briefly the weakness and development tendency of the study on forest fuel.
基于上述试验研究,本文采用双组份分阶段一级反应动力学模型,分别计算了在空气和氮气两种气氛下固体可燃物的表观动力学参数。
Based on the previous TGA studies, double components multi-step first order reaction kinetic model was used to describe the process of pyrolysis of wood.
根据野外观测资料及气象站观测的气象因子,利用多元统计方法,建立了各可燃物类型地表可燃物含水率与其相关的气象因子之间的回归模型。
According to the measurement of dead fuel moistures and meterological factors in field, by the means of multi-factors statistics, the models of dead fuel moisture were developed.
针对常见可燃物在典型火场情形中的热解行为提出了一种考虑水分影响的数学模型。
A mathematical model of the wood pyrolysis based on typical materials in fire which includes effects of moisture is presented.
所以建立数学模型是研究森林可燃物含水率变化规律的核心问题,也是最常用的方法。
So, models describing the moisture content of forest fuels are an integral component of most fire behavior prediction systems.
所以建立数学模型是研究森林可燃物含水率变化规律的核心问题,也是最常用的方法。
So, models describing the moisture content of forest fuels are an integral component of most fire behavior prediction systems.
应用推荐