电力充油设备火灾动力学实验平台OA
Experimental platform for fire dynamics in oil-filled electrical equipment
电力充油设备广泛应用于变电站/换流站和水电工程,是保障电力供应的关键设施.与此同时,充油设备火灾事故频发,常造成重大人员伤亡和财产损失.本质上,充油设备火灾是底部油池火、侧壁流淌火及顶部射流火等多种火灾模式组合燃烧现象.前人研究多集中于单一模式的火灾动力学实验,很少关注多种火灾模式组合燃烧下火灾典型特征参量演化规律、预测模型等关键科学问题,给电力充油设备火灾防控及消防救援任务带来巨大挑战.鉴于此,该研究设计搭建了电力充油设备火灾动力学实验平台,复现了充油设备火灾场景,利用质量损失速率测量系统、温度测量系统、辐射热流测量系统及图像采集系统,明确了充油设备火灾基本燃烧现象、典型阶段及形态特征,揭示了火焰高度、火焰温度、火焰辐射等典型特征参量的演化规律.该研究成果进一步丰富了液体可燃物燃烧理论,为充油设备火灾防治提供了有力的科技支撑.
[Objective]Oil-filled electrical equipment is widely used in substations/converter stations and hydropower projects as key facilities for securing power supply.However,transformer oil leaks from the rupture,accumulates at the base of oil-filled equipment,and encounters an ignition source,forming an external heat source that leads to a fire in the oil-filled equipment.Notably,heat from this external source is transferred back to the equipment via conduction,convection,radiation,and other pathways.This accumulated internal heat causes oil from ruptured oil-filled equipment to be sprayed and ignited by an external heat source,forming a jet fire.The transition to a jet fire triggers nonlinear shifts in the system's original state,leading to further deterioration in the degree of fire hazard.As fire incidents involving oil-filled equipment pose a major safety hazard in the electric power industry,effective and reliable prevention and control strategies must rely on a precise understanding of their dynamics.Therefore,a comprehensive and profound understanding of the characteristics of oil-filled equipment jet fire dynamics under the influence of external heat sources is of practical importance for improving the fire prevention and control capabilities of the electric power industry and for developing major fire monitoring and early warning technologies.In essence,once internal transformer oil leaks and burns,fire development mainly experiences two typical stages:first,the instability of oil-filled equipment combustion under the influence of an external heat source to form a jet fire,and second,the formation of a jet fire,which considerably changes the typical characteristics of the fire parameters.An oil-filled-equipment fire is a combination of combustion phenomena of multiple fire modes,such as bottom pool fire,sidewall flow fire,and top jet fire.[Methods]Previous studies have focused on single-mode fire dynamics experiments.Little attention has been paid to key scientific issues,such as the evolution of typical fire characteristics and the prediction of fire behavior under combined combustion of multiple fire modes,which have posed considerable challenges for the prevention and control of fires in electric-power charging equipment and fire rescue missions.In view of oil-filled equipment jet fire accidents and their complex fire characteristics,issues in electric power fire prevention and control remain serious challenges.Fundamental scientific questions regarding these dynamics remain unresolved,necessitating further theoretical studies to address the safety challenges they pose.[Results]In this study,we designed and constructed an experimental platform to simulate the fire dynamics of oil-filled electrical equipment.By integrating the measurement systems for the mass-loss rate,temperature,radiation heat flux,and image acquisition,we clarified the basic combustion phenomena of these fires.Furthermore,we established the typical phases and morphological characteristics and revealed the evolution laws of the characteristic parameters,such as the flame height,flame temperature,and flame radiation.[Conclusions]We identified the catastrophic mechanism of oil-filled equipment jet fire at its essence,further enriching the theory of fire dynamics and providing strong scientific and technological support for enhancing fire prevention and control strategies within the power industry.
孙瑞邦;张新伟;尚峰举;刘畅
清华大学 安全科学学院,北京 100084清华大学 安全科学学院,北京 100084国网安徽省电力有限公司电力科学研究院,安徽 合肥 230601国网电力工程研究院有限公司,北京 100069||中国电力科学研究院有限公司,北京 100192
资源环境
电网充油设备池火流淌火射流火
gridoil-filled equipmentpool firestream firejet fire
《实验技术与管理》 2026 (2)
9-16,8
国家电网公司科技项目(5200-202455115A-1-1-ZN)
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