摘要
通过分析大跨度化工控制室的特点和抗爆设计中需要考虑的因素,提出了结构减重和加强节点连接等优化方案,并运用抗爆仿真技术对这些方案进行了评估和分析。仿真结果表明,结构减重、加强节点连接和采用防爆玻璃等方案均能有效提高控制室的抗爆性能和安全性。在此基础上,进一步讨论了控制室抗爆设计的进一步研究方向和改进措施。
By analysing the characteristics of large-span chemical control chambers and the factors to be considered in blast-resistant design,optimisation options such as structural weight reduction and strengthening of nodal connections are proposed,and these options are evaluated and analysed by using blast-resistant simulation techniques.The simulation results show that structural weight reduction,strengthening of node connections and the use of blast-resistant glass can effectively improve the blast resistance and safety of the control room.On this basis,the paper further discusses further research directions and improvement measures for the blast-resistant design of control chambers.
作者
刘松
王晖
赵英伟
LIU Song;WANG Hui;ZHAO Ying-wei(Yantai Jianlian Survey and Design Review Service Center,Yantai 264000,China;Yantai Chemical Design Institute Co.Ltd.,Yantai 264000,China)
出处
《工程建设与设计》
2024年第14期13-15,共3页
Construction & Design for Engineering
关键词
抗暴设计
大跨度
化工控制室
结构优化
blast-resistant design
large-span
chemical control room
structural optimisation
