请参考如下格式,M表示书籍,C表示会议论文,J表示期刊,寻找不易,还望及时采纳 [1]Chow W K Application of Computational Fluid Dynamics: Fire safety awareness for gas station in dense urban areas with wind effects[C]//ASME 2004 Heat Transfer/Fluids Engineering Summer C American Society of Mechanical Engineers, 2004: 1187-[2]Hao X, Feng X Fuzzy synthetic evaluation of gas station safety[M]//Fuzzy Information and Engineering Springer Berlin Heidelberg, 2010: 481-[3]Jing-cheng L, Hong-tu W, Wen-hua L, et Study on Safety Assessment of Gas Station Based on Fuzzy Theory[M]//Advances in Control and C Springer Berlin Heidelberg, 2012: 391-[4]Cai L, Yao A, Li Y Study on safety management and reconcile mechanism of human factors in natural gas fuelling station[C]//World Automation Congress (WAC), IEEE, 2012: 1-[5]Alliat I, Chelhaoui S, Perrette L, et Hydrogen refuelling Example of a safety study for a hydrogen-natural gas refuelling station[C]//Proceedings of the 16th world hydrogen energy [6]Chermanne J GBR-4: concept of a 1,200 MWe-gas breeder nuclear power P A study concerned with safety and economics of the GBR[J] Atomwirtsch A 1974, 19(11):540-542[7]Uzelac D, Savović Z Selection of safety devices for natural gas stations[J] Gas, 2003, 8(2-3): 34-[8]Yang J M, Ko B S, Park C, et Design and implementation of an integrated safety management system for compressed natural gas stations using ubiquitous sensor network[J] Korean Journal of Chemical Engineering, 2013: 1-[9]Feng W, Xiang X, Jia G, et Applying the Quantitative Risk Assessment (QRA) to Improve Safety Management of Oil and Gas Pipeline Stations in China[C]//2012 9th International Pipeline C American Society of Mechanical Engineers, 2012: 505-[10]Komori M, Yoshida T, Onoue K, et Safety study of hydrogen supply stations for the review of high pressure gas safety law in Japan[C]//Proceeding of the 2nd International Conference on Hydrogen S 2005: 8-