6 苏州华新大厦给排水设计毕业论文
2022-04-11 20:58:09
论文总字数:30628字
摘 要
本设计给水系统采用分区供水方式,分为三个区。负二层至二层为I区,由市政管网直接供水;三层至十一层为II区,采用变频泵加压供水;十二层至机房设备层为III区,采用变频泵加压供水。不锈钢生活水箱设在负二层泵房内。排水系统采用污、废水合流制,除WL-4、WL-6采用专用通气管外,其他各排水立管均采用伸顶通气管系统。负二层、负一层生活污水通过污水泵加压提升排放至室外检查井。根据规范规定,本设计属于一类公共建筑,室内消火栓系统流量为40L/s,水枪充实水柱取13m,消火栓栓口压力应不小于0.35MPa,且不大于0.5MPa。消火栓管网在室内成环状管网,竖管管径均为DN100,环网管径为DN200。在屋顶设试验消火栓一个,每个室内消火栓箱内均设有远距离启动消防泵的按钮。由于是公共建筑,本设计采用湿式自动喷水灭火系统,负二层泵房内设3组报警阀组,各层均设水流指示器和信号阀。负二层、负一层为中危II级,一层至十九层为中危I级。消防水池设在负二层,设置两个,分别在发生火灾时为消火栓系统和自动喷水灭火系统供水。消防水箱设在屋顶水箱间内,贮存有10min的自动喷水灭火系统和消火栓系统的用水量。出于美观等因素考虑,雨水系统采用内排式重力流排放。
关键词:给水系统 排水系统 消火栓系统 自动喷水灭火系统 雨水系统
The water supply and drainage design of Suzhou Huaxin Building
Abstract
The design of water supply system is partitioned water supply, divided into three zones. Negative story to story as I district, directly by the municipal water supply pipe network; three to ten layer of Zone II, variable frequency pump pressurized water; twelve stories to room equipment layer III area, variable frequency pump pressure water supply. Stainless steel water tank located in the living negative two pumping stations. This design uses sewage drainage system, wastewater Combined, except WL-4, WL-6 using a dedicated vent tube, other drain standpipe are used each stretch top vent system.Negative story, the negative layer of sewage through the sewage lift pump discharge pressure to the outside manholes. According to specification, the design belongs to a class of public buildings, indoor fire hydrant system flow rate of 40L / s, take the gun enrich the water column 13m, fire hydrant bolt port pressure should not be less than 0.35MPa, and not more than 0.5MPa.Hydrant pipe network in the interior into a ring network, standpipe diameter are DN100, ring network diameter of DN200. A fire hydrant located on the roof test. Each box has a fire hydrant fire pump remote start button. Because it is a public building, the design uses a wet sprinkler system. Negative two pumping stations equipped with three groups of alarm valve. The layers are set to signal valve and flow indicator. Automatic sprinkler system in negative story, negative one for the medium risk class II, in one to nineteen as I moderate risk level. Fire pond located in the negative story, set two, respectively, in the event of a fire hydrant system and automatic sprinkler system to water. Fire water tank located in the roof-top water tanks, water storage has a sprinkler system and fire hydrant system of 10min. For the consideration of the factors such as the beautiful, the rainwater system uses the discharge type gravity flow.
Keywords: the water supply system drainage system fire hydrant system
Automatic water spraying fire extinguishing system rainwater system
目录
摘要 I
Abstract II
第一章 设计说明书 1
1.1建筑给水系统设计 1
1.1.1给水系统选择 1
1.1.2室内给水系统组成 1
1.1.3给水管道的布置与敷设 1
1.2建筑排水系统设计 2
1.2.1排水方案的选择 2
1.2.2排水系统的组成 2
1.2.3通气管 2
1.2.4排水管道及设备安装 3
1.2.5关于清扫口、检查口 3
1.3建筑消火栓系统设计 4
1.3.1消火栓的组成 4
1.3.2消火栓的布置 4
1.4建筑自动喷水灭火系统设计 4
1.4.1自动喷水灭火系统的组成 4
1.4.2自动喷水灭火系统的布置场所 5
1.5建筑雨水系统设计 5
1.5.1雨水排水系统选择 5
1.5.2雨水排水系统的组成 5
1.5.3雨水管道的敷设与布置 5
第二章 计算说明书 6
2.1给水系统计算 6
2.1.1用水量计算 6
2.1.2生活水箱容积计算 7
2.1.3给水管网水力计算及加压水泵计算 7
2.2排水系统计算 16
2.2.1排水设计秒流量 16
2.2.2排水管管径确定 17
2.2.3集水池、集水坑容积计算 24
2.3消火栓系统计算 24
2.3.1屋顶消防水箱 24
2.3.2消防水池贮水量计算 25
2.3.3消火栓的布置 25
2.3.4水力计算 26
2.3.5消火栓消防泵选择 29
2.3.6消火栓减压计算 30
2.3.7消防水箱安装高度校核 31
2.3.8屋顶消防水箱增压设施的选择与计算 32
2.3.9水泵接合器选定 32
2.4自动喷水灭火系统计算 32
2.4.1自动喷水灭火系统设计数据: 32
2.4.2喷头选用与布置 32
2.4.3水力计算(特性系数法) 33
2.4.4自动喷水灭火系统消防泵选择 35
2.4.5减压孔板计算 35
2.4.6消防水箱安装高度校核 37
2.4.7增压设施的计算与选择 38
2.4.8水泵接合器选定 39
2.5雨水系统计算 39
2.5.1汇水面积计算 39
2.5.2雨水量计算 40
2.5.3雨水斗选用 41
2.5.4复核立管的排水能力 41
参考文献 42
第一章 设计说明书
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