舰船舱室火灾下结构热力响应及极限强度研究  

作　　者：郝军凯 薛鸿祥[2] 黄捷 梁乐 杨尚升 苗怡然 喻巧 王宇阳 HAO Junkai;XUE Hongxiang;HUANG Jie;LIANG Le;YANG Shangsheng;MIAO Yiran;YU Qiao;WANG Yuyang(Science and Technology on Reactor System Design Technology Laboratory,Nuclear Power Institute of China,Chengdu 610213,China;State Key Laboratory of Ocean Engineering,Shanghai Jiao Tong University,Shanghai 200240,China)

机构地区：[1]中国核动力研究设计院核反应堆系统设计技术重点实验室,四川成都610213 [2]上海交通大学海洋工程国家重点实验室,上海200240

出　　处：《应用科技》2022年第3期1-10,共10页Applied Science and Technology

摘　　要：舰船在维修、巡逻和战斗时,由于人员操作失误或遭受攻击易发生舱室火灾,从而可能造成极为严重的后果。本文选取典型舰船舱室结构,以油池模拟可燃物,采用火灾动力学模拟器(fire dynamics simulator, FDS)仿真软件,模拟不同火灾面积及通风条件下的舱室火灾场景,分析不同火灾场景下的舱室火灾发展规律。将环境温度映射至甲板板架结构有限元模型,考虑结构的初始缺陷和材料的高温热力学特性,采用顺序热力耦合算法,计算对比不同火灾工况下板架结构的热力响应与剩余强度。总结了氧气控制型、燃料控制型和过渡型等3种火灾类型下结构响应特点,发现大型火灾在前期对结构威胁较大,过渡型火灾在中后期威胁更大。本文研究工作可为实际火灾场景下的舰船等结构抗火设计与安全评估提供参考。During the maintenance, patrol and combat of ships, cabin fire is easy to occur due to human error or attack,which may cause extremely serious consequences. This paper selects a typical ship cabin structure, and simulates the combustible with oil pool. FDS fire dynamics simulation software is used to simulate cabin fire scenes under different oil pool areas and ventilation conditions, and the development law of cabin fire under different fire scenes is analyzed.The ambient temperature is mapped to the finite element model of the deck grillage structure. Considering the initial defects of the structure and the high-temperature thermodynamic characteristics of the materials, the sequential thermodynamic coupling algorithm is adopted to calculate and compare the thermal response and residual strength of the deck grillage under different fire conditions. The structural response characteristics under three types of fire, including oxygen control type, fuel control type and transitional type, are summarized. It is found that large oil pool fire poses a great threat to the structure in the early stage, while transitional type fire poses a great threat to the structure in the middle and late stage. The research work in this paper can provide reference for fire resistant design and safety evaluation of ships and other structures under actual fire situation.

关 键 词：舱室火灾 甲板板架 火灾场景 热力响应 极限强度 火灾仿真 热力耦合 火灾类型 

分 类 号：U663[交通运输工程—船舶及航道工程]