| 火电厂液氨贮存风险评价中典型事故影响范围计算 |
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| 引用本文: | 韩宇超,聂峰.火电厂液氨贮存风险评价中典型事故影响范围计算[J].电力环境保护,2011,27(4):1-4. |
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| 作者姓名: | 韩宇超 聂峰 |
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| 作者单位: | 1. 中国电力工程顾问集团公司,北京,100011
2. 华东电力设计院,上海,200001 |
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| 摘 要: | 对火电厂液氨贮存风险评价中的三类典型事故(化学爆炸、管道泄漏和贮罐整体破裂)影响范围的计算方法进行了探讨。以某火电厂2×1000MW机组为例,当发生化学爆炸事故时,爆炸冲击波损害等级1、2、3、4的影响区域半径分别为78.3、156.6、391.5和1044m;管道泄漏和贮罐整体破裂所引发的中毒事故中,后者对环境的影响较大。若事故发生后10min内得到有效控制,则在F大气稳定度、1.5m/s风速条件下,贮罐整体破裂半致死浓度的影响区域半径(r值)为344.6m,大于管道泄漏r值(205.8m);若事故发生后不考虑控制措施,则在F大气稳定度、1.5 m/s风速条件下,贮罐整体破裂半致死浓度的影响区域半径r值为561 m。
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| 关 键 词: | 液氨贮存事故 风险评价 火电厂 |
Estimation of influence scope of typical accidents in liquid ammonia storage risk assessment in thermal power plant |
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| Abstract: | The estimation methods of influence scope of three typical accidents(chemical explosion,pipe leakage and tank overall rupture) in liquid ammonia storing in thermal power plant were discussed in this paper.Take a 2×1000MW thermal power plant for example,when a chemical explosion accident happened,the hazardous radiuses of the explosive blast damage Level 1~4 were 78.3,156.6,391.5 and 1044m respectively.Between the pipe leakage and tank overall rupture,the latter had a greater impact on the environment.If the accident can be controlled effectively in 10min after the accident happened,the hazardous radius(r) of the half lethal concentration is 344.6min F atmospheric stability and 1.5m/s wind speed conditions for the tank overall rupture accident,bigger than r(205.8m) for the pipe leakage accident.If no emergency measure was considered,the hazardous radius(r) of the half lethal concentration was 561min F atmospheric stability and 1.5m/s wind speed conditions for the tank overall rupture accident. |
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| Keywords: | liquid ammonia storage accident risk assessment thermal power plant |
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