| 自动消防水炮的喷水强度分布特性及其控火性能研究 |
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| 引用本文: | 姚斌,宋群立,刘炳海,吴龙标.自动消防水炮的喷水强度分布特性及其控火性能研究[J].火灾科学,2007,16(4):220-225. |
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| 作者姓名: | 姚斌 宋群立 刘炳海 吴龙标 |
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| 作者单位: | 1. 中国科学技术大学火灾科学国家重点实验室,合肥,230026
2. 安徽省蚌埠市消防支队,233000 |
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| 摘 要: | 喷水强度是决定自动喷水灭火系统性能的重要参数.自动消防水炮在火灾早期可以快速响应,探测火源位置并自动喷水扑灭火灾.但如果由于某些因素不能及时响应,控制火灾的发展就是该系统的主要目标.传统的自动消防水炮研究只考虑射程和流量,没有考虑喷水的强度分布特性.本文将喷水强度引入自动消防水炮的控火性能研究,通过实验研究其在不同射程处的喷水强度分布特性,并参照不同危险等级的场所控制火灾所需的喷水强度参数来推算其有效保护区域和可控制的最大火源功率.研究结果表明:自动消防水炮在有效射程内,不同射程点的喷水强度、有效保护面积有所不同,喷水强度分布具有不均匀性.自动消防水炮应在火灾发展到最大有效保护面积之前自动或手动启动,才能达到有效控制火灾的目的.对于本文研究的某特定类型水炮,在20m至40m的射程范围内,应用于不同火灾危险等级场所,最大有效保护区域面积和可控制的最大火源功率均随射程增加而增加;而在40m至50m的射程范围内,应用于轻危险等级场所,最大有效保护区域面积随射程增加而增加,而其它危险等级场所的最大有效保护区域面积随射程增加而降低.
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| 关 键 词: | 自动消防水炮 喷水强度 控制火灾 有效保护区域 自动 消防水炮 喷水 强度分布特性 火性能 研究 Water Capability Fire Control 保护面积 应用 范围 类型 启动 手动 火灾发展 不均匀性 有效射程 结果 火源功率 |
| 文章编号: | 1004-5309(2007)-0220-06 |
| 收稿时间: | 2007-08-20 |
| 修稿时间: | 2007-10-15 |
Water Density Distribution and Fire Control Capability of Auto-Regulative Water Gun |
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| YAO Bin,SONG Qun-li,LIU Bing-hai and WU Long-biao.Water Density Distribution and Fire Control Capability of Auto-Regulative Water Gun[J].Fire Safety Science,2007,16(4):220-225. |
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| Authors: | YAO Bin SONG Qun-li LIU Bing-hai and WU Long-biao |
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| Institution: | State Key Laboratory of Fire Science,USTC,HeFei 230026,China;Bengbu Fire Protection Bureau 233000,China;State Key Laboratory of Fire Science,USTC,HeFei 230026,China;State Key Laboratory of Fire Science,USTC,HeFei 230026,China |
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| Abstract: | Water density is the determinate parameter for fire control.Auto-regulative Water Gun(AWG) can be used to detect a fire at early stage and inject water directly to fire source.However,if AWG cannot quickly response as designed due to management or system failure,fire control will be the main manually operation purpose,like the sprinkler system..Conventional research on AWG system is focused on injection distance and flow rate,without distribution characteristics of water density considered.In present paper,water density was used to study the fire control capability of AWG.The water density distribution was measured with water containers placed at various locations along the AWG injection direction,and the effective fire protection area and maximum fire to be controlled were deduced by referred to the required critical water density for various class fire control using sprinkler.For a design growing fire,e.g.a t-square fire,the required latest activation time for AWG system can be determined.The fire can be controlled before reaching the effective protection area.Results indicate that water density and effective protection area vary with injection distance.The water coverage shape are different between axial and radius directions.Water density distribution is non-uniform and decreases with the injection distance.For this study,the maximum effective protection area increases with injection distance from 20 to 40m.While from 40 to 50m(the maximum injection distance),the maximum effective protection area increases with injection distance for a fire of light risk class,and decreases for the fire of other risk classes. |
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| Keywords: | autcFregulative water gun water density fire control effective fire protection area |
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