自动喷水灭火系统实用技术研究
|
摘要
由于经济状况和技术条件所限制,我国的消防给水系统一直以消火栓给水系统为主;随着经济的持续高速发展,自动喷水灭火系统以其灭火效率高、投资少、管理简单,尤其是能在火灾初期火势小、火势不稳定时就自动喷水灭火等优点,在工程建设中得到了广泛的应用。我国的综合实力不断增强,应当建立以自动喷水灭火系统为主的消防体系。本文对自动喷水灭火系统的几个主要方面进行了阐述,并提出一些见解。
1)自动喷水灭火系统历史悠久、应用效果良好,分为闭式系统和开式系统。闭式系统的各种类型中,重复启闭预作用系统集目前各种闭式系统的优点于一身,是闭式系统的发展方向。开式系统中的细水雾技术,能够代替气体灭火剂防治高技术领域和重大工业危险源的特殊火灾,不会对臭氧层造成破坏,展示了广阔的应用前景。
2)喷头是自动喷水灭火系统的核心部件,喷头技术的不断发展,为各种自动喷水灭火系统的出现奠定了基础。
3)传统的消防给水方式设备多、控制复杂、管理不便,而且无法避免超压问题,存在安全隐患。本文提出常高压系统和恒压系统两种给水方式,灭火时喷头的工作压力与消防水泵无关,只受高位水箱水面波动的轻微影响,保证了喷头工作压力和流量的恒定性、均匀性。
4)中小型娱乐场所的火灾事故不断发生,这类建筑的消防设施薄弱,加设传统的自动喷水灭火系统条件不充分,而且经济上承受不起。因此结合目前实际情况,对这类建筑提出增设简易自动喷水灭火装置的要求。
5)《自动喷水灭火系统设计规范》(GB50084-2001)相对原来的规范有了很大的变动,其中水力计算要求采用特性系数法。而工程中,设计周期越来越短,若能在初步设计中采用作用面积法就可以节省许多时间和精力。本文通过对中危险级Ⅰ级的几个典型例子进行验算,找出特性系数法和作用面积法的线性关系,对简化设计进行探讨。
Confined by the economical and technical condition,fire hydrant system is the main way of water supply for fire protection in our country;with the continually fast development of the economy,sprinkler system has been used widely in engineering for its several advantages:the high rate of fire extinguishing,less investment,simple managing,especially being able to put out the fire at the early time when it is faint or unstable. We should build a fire protection system which is mainly of the sprinkler system,for the global national power has become stronger.This dissertation focuses on several main aspects of sprinkler system and delivers some opinions.
1) Sprinkler system is historical and beneficial,being divided into close-type sprinkler system and open-type system.Of all the types of close-type sprinkler system,recycling preaction system has gained all the advantages and is the direction of development of close-type system.Of the open-type system,water mist can be partly substitute of gas fire extinguishant to put out especial fire in high technical and important industrial zone,it also does no harm to the Ozone Layer,having widely-used prospect.
2) Sprinkler is the core component of sprinkler system,the development of sprinkler is the base of the development of sprinkler system.
3) The traditional ways of water supply for fire protection has several disadvantages such as more equipments,complex controlling, disadvantageous management,and it can not avoid extra pressure which causes dangers.This dissertation brings forward constant high-pressure and constant-pressure systems,of which sprinkler's working pressure has nothing to do with the pumps and only lightly affected by the level of the water in the cistern,thus ensuring the Constance and equalty of the flow and the sprinkler's working pressure.
4) There are fire accidents in middling and small entertainment buildings from time to time in which fire protection establishments are not enough. And it is hard to add traditional sprinkler system to such buildings for economical reasons. According to the current situation,a simplified sprinkler system should be added to such buildings.
5) 《Code of design for sprinkler systems》 (GB50084-2001) has changed
much comparative to the former code,it supposes to calculate by the method of characteristic-coefficient.But nowadays the engineering period has become shorter and shorter.Had done hydraulic calculation by the method of working-area in the preliminary stage ,there would be much time and energy to save.This dissertation has concluded linear relationship between the method of characteristic-coefficient and working-area by calculating for some typical samples of the mid-dangerous rank I .
1)自动喷水灭火系统历史悠久、应用效果良好,分为闭式系统和开式系统。闭式系统的各种类型中,重复启闭预作用系统集目前各种闭式系统的优点于一身,是闭式系统的发展方向。开式系统中的细水雾技术,能够代替气体灭火剂防治高技术领域和重大工业危险源的特殊火灾,不会对臭氧层造成破坏,展示了广阔的应用前景。
2)喷头是自动喷水灭火系统的核心部件,喷头技术的不断发展,为各种自动喷水灭火系统的出现奠定了基础。
3)传统的消防给水方式设备多、控制复杂、管理不便,而且无法避免超压问题,存在安全隐患。本文提出常高压系统和恒压系统两种给水方式,灭火时喷头的工作压力与消防水泵无关,只受高位水箱水面波动的轻微影响,保证了喷头工作压力和流量的恒定性、均匀性。
4)中小型娱乐场所的火灾事故不断发生,这类建筑的消防设施薄弱,加设传统的自动喷水灭火系统条件不充分,而且经济上承受不起。因此结合目前实际情况,对这类建筑提出增设简易自动喷水灭火装置的要求。
5)《自动喷水灭火系统设计规范》(GB50084-2001)相对原来的规范有了很大的变动,其中水力计算要求采用特性系数法。而工程中,设计周期越来越短,若能在初步设计中采用作用面积法就可以节省许多时间和精力。本文通过对中危险级Ⅰ级的几个典型例子进行验算,找出特性系数法和作用面积法的线性关系,对简化设计进行探讨。
Confined by the economical and technical condition,fire hydrant system is the main way of water supply for fire protection in our country;with the continually fast development of the economy,sprinkler system has been used widely in engineering for its several advantages:the high rate of fire extinguishing,less investment,simple managing,especially being able to put out the fire at the early time when it is faint or unstable. We should build a fire protection system which is mainly of the sprinkler system,for the global national power has become stronger.This dissertation focuses on several main aspects of sprinkler system and delivers some opinions.
1) Sprinkler system is historical and beneficial,being divided into close-type sprinkler system and open-type system.Of all the types of close-type sprinkler system,recycling preaction system has gained all the advantages and is the direction of development of close-type system.Of the open-type system,water mist can be partly substitute of gas fire extinguishant to put out especial fire in high technical and important industrial zone,it also does no harm to the Ozone Layer,having widely-used prospect.
2) Sprinkler is the core component of sprinkler system,the development of sprinkler is the base of the development of sprinkler system.
3) The traditional ways of water supply for fire protection has several disadvantages such as more equipments,complex controlling, disadvantageous management,and it can not avoid extra pressure which causes dangers.This dissertation brings forward constant high-pressure and constant-pressure systems,of which sprinkler's working pressure has nothing to do with the pumps and only lightly affected by the level of the water in the cistern,thus ensuring the Constance and equalty of the flow and the sprinkler's working pressure.
4) There are fire accidents in middling and small entertainment buildings from time to time in which fire protection establishments are not enough. And it is hard to add traditional sprinkler system to such buildings for economical reasons. According to the current situation,a simplified sprinkler system should be added to such buildings.
5) 《Code of design for sprinkler systems》 (GB50084-2001) has changed
much comparative to the former code,it supposes to calculate by the method of characteristic-coefficient.But nowadays the engineering period has become shorter and shorter.Had done hydraulic calculation by the method of working-area in the preliminary stage ,there would be much time and energy to save.This dissertation has concluded linear relationship between the method of characteristic-coefficient and working-area by calculating for some typical samples of the mid-dangerous rank I .
引文
[1]陈方肃,杜一民,高层建筑给水排水设计手册,湖南科学技术出版社,湖南,1998
[2] P NASH R A YOUNG.Automatic Sprinkler System For Fire Protection.2nd Edition. Paramount Publishing Limited 1991
[3]张菊良,黄晓家,自动喷水灭火系统的作用和设置,给水排水,27(2),2001:p66~70
[4]中华人民共和国国家标准,建筑设计防火规范,GBJ16-87(1997版)
[5] Loss prevention data,FMC, 1992,America
[6]刘江虹等,细水雾灭火技术及其应用,火灾科学,2000,2:p34-37
[7]高志石,高空间建筑物自动水喷淋保护的探讨,1999,3:p3~5
[8]李天荣,朱跃强,周忠民,高层建筑常高压自动喷水灭火系统设计探讨,给水排水,25(8),1999:p58~59
[9]上海金盾消防安全设备有限公司技术手册,2002
[10]姜文源等主编,刘文镔主审,水工业工程设计手册,建筑和小区给水排水,中国建筑工业出版社,2000
[10]张兆宪,蒋皓,姜文源,低压洒水喷头和简易自动喷水灭火装置,
[11]刘峰,娱乐场所自动喷水灭火系统简化设计探讨,www.gpszx.net
[12]黄晓家等,自动喷水灭火系统几个问题的辨析,27(9),2001,p66~69
[13]谢思姚等,自动喷水灭火系统设计中的几个问题,28(4),2002,p85~88
[14] NFPA13 Standard for the Installation of Sprinkler System. 1999 Edition. American
[15] NFPA15 Standard for Water Spray Fixed System for Fire Protection. 1996 Edition. American
[16]高斌,对《建筑设计防火规范》的探讨,28(5),2002,p90~91
[17]刘晓海,对防火设计规范的几点思考,27(10),2001,p72~73
[18]李天荣,严治军,易本福,建筑消防设备的现状和发展
[19]张菊良,对我国建筑防火技术体系的思考,26(2),2000,p61~63
[20]黄晓家,石峰,消火栓系统和消防泵的探讨,消防技术与产品信息,3,1999
[21]王峰,肖裔平,广东奥林匹克体育场自动喷水灭火系统设计及调试,28(3),2002,p56~58
[22]赵春岩,消防水泵启动方式探讨,23(4),1997,p47~48
[23]杨琦等,消防给水系统中消防泵自检方式的分析,28(3),2002,p66~69
[24] 柯水洲等,变频调速水泵几个问题的探讨,27(9),2001,p75~77
[25] 陈宪华,孙中山纪念馆预作用喷水灭火系统设计,28(3),2002,p63~65
[26] 方汝清等,预作用自动喷水系统的控制和运行,27(9),2001,p56~59
[27] 张天克,郭蕾,地下停车库自动喷水灭火系统,27(9),2001,p59~62
[28] 陈芬,高层建筑发电机房水喷雾系统设计,中国给水排水,18(3),2002,p56~58
[29] 冉海潮,常宏杰,水雾灭火系统的设计,火灾科学,
[30] 高压细水雾系统的研究—面向新世纪消防学术研讨会论文集[c].北京,中国消防协会,1999
[31] NFPA750,Standard on Water mist Fire Protection systems, 1996 Edition[s].
[32] 自动喷水灭火系统,www.shjd.com
[33] Sprinklers,www. vikingcorp.com
[34] 杨欣等,关于自动喷水灭火系统喷头安装问题探讨,消防技术与产品信息,4,2000,p13
[35] 水浩然,议自动喷水灭火系统喷头的布置间距,23(3),1997,p44~45
[36] 杨琦,自动喷水灭火系统喷头布置极限间距的探讨,23(10),1997,p48~49
[37] 江华生,自动喷水灭火系统施工中存在的问题,27(6),2001,p59~60
[38] Russell P. Eleming,P.E 《NFPA JOURNAL》January/February 1999
[39] 黄自勤,吴赳赳,自喷灭火系统中喷头的合理布置,中国给水排水,15(7),p34~35
[40] 王冬春,建筑消防给水设计的几个问题,27(8),2001,p63~66
[41] 林飞,超高层建筑消防给水系统应用水箱供水设计,IB china. com
[42] 赵基兴,建筑给排水实用新技术,同济大学出版社,2000
[43] 李天荣,何少林,兰为平,高层住宅消防给水系统设计探讨,给水排水,2002,Vol.28,No.8:80—82
[44] 中华人民共和国国家标准,高层民用建筑设计防火规范,GB50045—95(2001年版)
[45] BS DD 251:2000. Sprinkler systems for residential and domestic occupancies-- Code of practice
[46] Background Information, www. firesprinklers.org.uk
[47] 中华人民共和国国家标准,自动喷水灭火系统设计规范,GB50084—2001
[48] 黄秉政,浅议中、轻危险级喷水灭火系统的水力计算(上),28(2),2002,p96~101
[49] 黄秉政,浅议中、轻危险级喷水灭火系统的水力计算(下),28(3),2002,
p97~103
[50]姜文源,高层建筑消防给水的超压和泄压问题,25(9),1999,p45~46
[51]李天荣,杨文玲,罗宁,高层建筑恒压消防给水系统设计,22(10),1996,p46~47
[52]陈和苗,中危险级自喷系统的管网设计计算,中国给水排水,16(3),p34~35
[53] NFPA13E.Guide for Fire Department sprinkler installation. 1990,England
[54] BS5306-Part. Rules for automatic sprinkler installation. 1990,England
[55] Report on Fire Tests of Fine Water Spray Systems in a Simulated Ship's Engine Room[R],Danish Institute of Fire Technology, 1993
[56] Project Hulvul. Waterfog Ebaluation Trials[R],British Ministry of Defense,Navy, Yard, 1988
[57] Lunger,J.R..Water Mist Fire Protection[C].Bethesda,MD:david W. Taylor Naval Ship R&D Center, 1979
[58] A.Jones,P.F. Nolan. Discussions on the use of fine water sprays or mists for fire suppression[J].J.Loss Prev. Process Iud, 1995,8(1)17~22
[59] William Grosshandler,Darren Lowe. Protection of Data Processing Equipment with Fine Water Sprays [R].Gaithersburg,MD:NISTIR5514.National Institute of standards and technology, 1994
[60]王志飞,自动喷水灭火系统消防水箱供水时的若干问题探讨,福建给排水,2002年,1期,p7
[61]高新飞,利用EXCEL电子表格进行喷淋计算,福建给排水,2001年,3期,p3~7
[62]李东明,自动消防系统设计安装手册,中国计划出版社,1996,北京
[63]刘文镔主编,给水排水工程快速设计手册3—建筑给水排水工程,中国建筑工业出版社,1999
[64]陈秀生主编,给水排水设计手册,第2册,建筑给水排水,中国建筑工业出版社,2001
[65]张永胜,自动喷水灭火系统,消防技术与产品信息增刊,1997
[66]聂梅生等,给水排水工程快速设计手册—建筑和小区给水排水[M]北京,中国建筑工业出版社,2000
[67]蒋永昆主编,高层建筑消防设计手册,同济大学出版社,1995
[68]蒋永昆主编,中国消防工程手册,中国建筑工业出版社,1998
[2] P NASH R A YOUNG.Automatic Sprinkler System For Fire Protection.2nd Edition. Paramount Publishing Limited 1991
[3]张菊良,黄晓家,自动喷水灭火系统的作用和设置,给水排水,27(2),2001:p66~70
[4]中华人民共和国国家标准,建筑设计防火规范,GBJ16-87(1997版)
[5] Loss prevention data,FMC, 1992,America
[6]刘江虹等,细水雾灭火技术及其应用,火灾科学,2000,2:p34-37
[7]高志石,高空间建筑物自动水喷淋保护的探讨,1999,3:p3~5
[8]李天荣,朱跃强,周忠民,高层建筑常高压自动喷水灭火系统设计探讨,给水排水,25(8),1999:p58~59
[9]上海金盾消防安全设备有限公司技术手册,2002
[10]姜文源等主编,刘文镔主审,水工业工程设计手册,建筑和小区给水排水,中国建筑工业出版社,2000
[10]张兆宪,蒋皓,姜文源,低压洒水喷头和简易自动喷水灭火装置,
[11]刘峰,娱乐场所自动喷水灭火系统简化设计探讨,www.gpszx.net
[12]黄晓家等,自动喷水灭火系统几个问题的辨析,27(9),2001,p66~69
[13]谢思姚等,自动喷水灭火系统设计中的几个问题,28(4),2002,p85~88
[14] NFPA13 Standard for the Installation of Sprinkler System. 1999 Edition. American
[15] NFPA15 Standard for Water Spray Fixed System for Fire Protection. 1996 Edition. American
[16]高斌,对《建筑设计防火规范》的探讨,28(5),2002,p90~91
[17]刘晓海,对防火设计规范的几点思考,27(10),2001,p72~73
[18]李天荣,严治军,易本福,建筑消防设备的现状和发展
[19]张菊良,对我国建筑防火技术体系的思考,26(2),2000,p61~63
[20]黄晓家,石峰,消火栓系统和消防泵的探讨,消防技术与产品信息,3,1999
[21]王峰,肖裔平,广东奥林匹克体育场自动喷水灭火系统设计及调试,28(3),2002,p56~58
[22]赵春岩,消防水泵启动方式探讨,23(4),1997,p47~48
[23]杨琦等,消防给水系统中消防泵自检方式的分析,28(3),2002,p66~69
[24] 柯水洲等,变频调速水泵几个问题的探讨,27(9),2001,p75~77
[25] 陈宪华,孙中山纪念馆预作用喷水灭火系统设计,28(3),2002,p63~65
[26] 方汝清等,预作用自动喷水系统的控制和运行,27(9),2001,p56~59
[27] 张天克,郭蕾,地下停车库自动喷水灭火系统,27(9),2001,p59~62
[28] 陈芬,高层建筑发电机房水喷雾系统设计,中国给水排水,18(3),2002,p56~58
[29] 冉海潮,常宏杰,水雾灭火系统的设计,火灾科学,
[30] 高压细水雾系统的研究—面向新世纪消防学术研讨会论文集[c].北京,中国消防协会,1999
[31] NFPA750,Standard on Water mist Fire Protection systems, 1996 Edition[s].
[32] 自动喷水灭火系统,www.shjd.com
[33] Sprinklers,www. vikingcorp.com
[34] 杨欣等,关于自动喷水灭火系统喷头安装问题探讨,消防技术与产品信息,4,2000,p13
[35] 水浩然,议自动喷水灭火系统喷头的布置间距,23(3),1997,p44~45
[36] 杨琦,自动喷水灭火系统喷头布置极限间距的探讨,23(10),1997,p48~49
[37] 江华生,自动喷水灭火系统施工中存在的问题,27(6),2001,p59~60
[38] Russell P. Eleming,P.E 《NFPA JOURNAL》January/February 1999
[39] 黄自勤,吴赳赳,自喷灭火系统中喷头的合理布置,中国给水排水,15(7),p34~35
[40] 王冬春,建筑消防给水设计的几个问题,27(8),2001,p63~66
[41] 林飞,超高层建筑消防给水系统应用水箱供水设计,IB china. com
[42] 赵基兴,建筑给排水实用新技术,同济大学出版社,2000
[43] 李天荣,何少林,兰为平,高层住宅消防给水系统设计探讨,给水排水,2002,Vol.28,No.8:80—82
[44] 中华人民共和国国家标准,高层民用建筑设计防火规范,GB50045—95(2001年版)
[45] BS DD 251:2000. Sprinkler systems for residential and domestic occupancies-- Code of practice
[46] Background Information, www. firesprinklers.org.uk
[47] 中华人民共和国国家标准,自动喷水灭火系统设计规范,GB50084—2001
[48] 黄秉政,浅议中、轻危险级喷水灭火系统的水力计算(上),28(2),2002,p96~101
[49] 黄秉政,浅议中、轻危险级喷水灭火系统的水力计算(下),28(3),2002,
p97~103
[50]姜文源,高层建筑消防给水的超压和泄压问题,25(9),1999,p45~46
[51]李天荣,杨文玲,罗宁,高层建筑恒压消防给水系统设计,22(10),1996,p46~47
[52]陈和苗,中危险级自喷系统的管网设计计算,中国给水排水,16(3),p34~35
[53] NFPA13E.Guide for Fire Department sprinkler installation. 1990,England
[54] BS5306-Part. Rules for automatic sprinkler installation. 1990,England
[55] Report on Fire Tests of Fine Water Spray Systems in a Simulated Ship's Engine Room[R],Danish Institute of Fire Technology, 1993
[56] Project Hulvul. Waterfog Ebaluation Trials[R],British Ministry of Defense,Navy, Yard, 1988
[57] Lunger,J.R..Water Mist Fire Protection[C].Bethesda,MD:david W. Taylor Naval Ship R&D Center, 1979
[58] A.Jones,P.F. Nolan. Discussions on the use of fine water sprays or mists for fire suppression[J].J.Loss Prev. Process Iud, 1995,8(1)17~22
[59] William Grosshandler,Darren Lowe. Protection of Data Processing Equipment with Fine Water Sprays [R].Gaithersburg,MD:NISTIR5514.National Institute of standards and technology, 1994
[60]王志飞,自动喷水灭火系统消防水箱供水时的若干问题探讨,福建给排水,2002年,1期,p7
[61]高新飞,利用EXCEL电子表格进行喷淋计算,福建给排水,2001年,3期,p3~7
[62]李东明,自动消防系统设计安装手册,中国计划出版社,1996,北京
[63]刘文镔主编,给水排水工程快速设计手册3—建筑给水排水工程,中国建筑工业出版社,1999
[64]陈秀生主编,给水排水设计手册,第2册,建筑给水排水,中国建筑工业出版社,2001
[65]张永胜,自动喷水灭火系统,消防技术与产品信息增刊,1997
[66]聂梅生等,给水排水工程快速设计手册—建筑和小区给水排水[M]北京,中国建筑工业出版社,2000
[67]蒋永昆主编,高层建筑消防设计手册,同济大学出版社,1995
[68]蒋永昆主编,中国消防工程手册,中国建筑工业出版社,1998
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |