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输电通道地表典型植被燃烧特性试验研究OA

Experimental study on the combustion characteristics of typical surface vegetation in power transmission corridors

中文摘要英文摘要

地表可燃物是引发山火和输电通道跳闸的基础因素,研究其燃烧特性有利于山火防控和输电通道安全运行.该文以灌木丛、针叶和阔叶3种输电通道地表典型植被为研究对象开展燃烧特性试验,分析不同堆积厚度下输电通道地表典型植被燃烧过程中火焰蔓延特性、质量损失速率、温度分布特征和烟气体积分数特性及其演变规律.研究结果表明:输电通道地表典型植被燃烧过程可分为初始、发展、全盛和熄灭阶段;火焰蔓延呈圆弧形扩展趋势,且火焰高度、质量损失速率和温度峰值均随堆积厚度的增加而升高;CO2体积分数变化呈"陡升—缓降"趋势,而CO体积分数在初始和熄灭阶段呈集中释放的阶段性特征;在相同堆积厚度下,针叶具有最高的燃烧强度、火焰高度、质量损失速率和更明显的多峰波动特征.该文研究结果可为输电通道火灾风险评估与防控提供参考.

[Objective]In recent years,global climate change and intensified human activities have significantly increased surface fire risk in power transmission corridors spanning mountainous and forested areas,posing a serious threat to the safe and stable operation of modern power grids.Surface vegetation serves as the primary fuel for ground fires and wildfires,directly influencing the flame spread velocity,fire development stages,and combustion intensity.Therefore,investigating the combustion characteristics of surface vegetation is crucial for improving wildfire prevention systems,enhancing the accuracy of fire behavior predictions,and ensuring the operational reliability of transmission infrastructures.However,current research on the combustibility and fire behavior of various surface fuels in transmission corridors remains insufficient,particularly in terms of comparative analyses across different vegetation types and accumulation thicknesses.There is a pressing need for systematic experimental studies to reveal the heat release mechanisms,fire growth,and gas emission characteristics of these vegetation types.[Methods]This study aimed to experimentally explore the combustion characteristics of typical surface vegetation in transmission corridors under varying accumulation thicknesses,compare differences in fire behavior among vegetation types,and identify key parameters,including flame spread patterns,mass loss rate evolution,temperature distributions,and gas volume fraction dynamics.The combustion characteristics of different types of surface vegetation in transmission corridors were investigated through small-scale experiments.A self-designed 1 m2 small-scale combustion platform was constructed and equipped with cameras,a thermocouple array,a high-precision electronic balance,and gas sensors to collect key combustion data,including flame behavior,temperature distribution,mass loss,and gas volume fractions,during the tests.Three typical vegetation types—shrubs,coniferous litter(pine needles),and broadleaf litter(maple leaves)—were selected as the research objects.For each vegetation type,three accumulation thicknesses(10,15,and 20 cm)were specified.Under an ambient wind speed of 1 m/s,key parameters,including flame morphology,flame height,mass loss rate,temperature distributions,and smoke gas volume fraction,were recorded and analyzed to reveal the spatiotemporal evolution of their combustion characteristics.[Results]The results showed that the combustion process of typical surface vegetation in transmission corridors could be divided into four stages:initial,development,peak,and extinguishment.Flame propagation exhibited an arc-shaped outward expansion pattern.As the accumulation thickness increased,the flame height,mass loss rate,and peak temperature also increased.The CO2 volume fraction followed a"sharp rise-gradual decline"trend,whereas the volume fraction of CO exhibited a phased characteristic of concentrated release in the initial and extinguishing stages.The volume fractions of both CO and CO2 increased with increasing accumulation thickness.At the same accumulation thickness,flame heights ranked from highest to lowest as coniferous litter,shrubs,and broadleaf litter.Among them,coniferous litter exhibited the highest combustion intensity,greatest flame height,maximum mass loss rate,and most pronounced multipeak fluctuation behavior.[Conclusions]This study reveals the combustion characteristics of typical surface vegetation in transmission corridors under varying accumulation thicknesses.This study also systematically analyzes the differences in flame spread characteristics,thermal behavior,and gas emissions across vegetation types.The findings provide a robust experimental basis for assessing surface fire risk,modeling fire behavior,and developing wildfire warning strategies for power transmission corridors.

彭俊杰;安伟光;刘畅

中国矿业大学煤矿瓦斯与火灾防治教育部重点试验室,徐州 221116||中国矿业大学煤矿灾害防控全国重点试验室,徐州 221116中国矿业大学煤矿瓦斯与火灾防治教育部重点试验室,徐州 221116||中国矿业大学煤矿灾害防控全国重点试验室,徐州 221116国网电力工程研究院有限公司,北京 100053

资源环境

输电通道地表植被火焰蔓延特性质量损失温度分布烟气体积分数

transmission corridorsurface vegetationfire spread characteristicsmass losstemperature distributionsmoke volume fraction

《清华大学学报(自然科学版)》 2026 (3)

553-562,10

北京市自然科学基金项目(8232014)江苏省重点研发计划项目(BE2023049)江苏省创新能力建设计划项目(BM2022013)中国矿业大学科研发展基金项目(2024GNYZ5002)

10.16511/j.cnki.qhdxxb.2025.26.048

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