1、图书分类号:密 级:毕业设计(论文)半岛蓝湾大酒店给水排水工程设计THE DESIGN OF BUILDING WATER AND WASTEWATER ENGINEERING FOR THE PENINSULA ISLAND RESORT HOTEL 学生姓名学院名称专业名称指导教师20xx年月日xxx学院学位论文原创性声明本人郑重声明: 所呈交的学位论文,是本人在导师的指导下,独立进行研究工作所取得的成果。除文中已经注明引用或参考的内容外,本论文不含任何其他个人或集体已经发表或撰写过的作品或成果。对本文的研究做出重要贡献的个人和集体,均已在文中以明确方式标注。本人完全意识到本声明的法律结果
2、由本人承担。论文作者签名: 日期: 年 月 日xxx学院学位论文版权协议书本人完全了解徐州工程学院关于收集、保存、使用学位论文的规定,即:本校学生在学习期间所完成的学位论文的知识产权归徐州工程学院所拥有。徐州工程学院有权保留并向国家有关部门或机构送交学位论文的纸本复印件和电子文档拷贝,允许论文被查阅和借阅。徐州工程学院可以公布学位论文的全部或部分内容,可以将本学位论文的全部或部分内容提交至各类数据库进行发布和检索,可以采用影印、缩印或扫描等复制手段保存和汇编本学位论文。论文作者签名: 导师签名: 日期: 年 月 日 日期: 年 月 日摘要自21世纪,高层建筑向着层数更多、设备更齐全、技术更先进
3、、功能更完善的方向发展,高层建筑已成为现代化大城市的一种标志。对于高层建筑来说,水量、供水的压力、供水的安全性以及排水的可靠性等都需要得到较高的保证。因此,对高层建筑给水排水工程的设计、施工以及管理等各方面都提出了更高的技术要求,必须采取新的技术措施才能确保建筑给水排水系统工况良好,满足高层建筑的各类功能要求。建筑给水排水属于应用工程,是整个建筑设计中相当重要的环节,也是建筑设计中必不可少的一部分。本文针对苏州电信局住宅楼,结合对设计标准、规范的理解,对该建筑的给水系统、消防系统、排水系统、热水系统,以及设计计算说明,进行初步的研究。根据设计资料,市政给水管网的水压为0.24MPa。本建筑地下
4、二层至地上四层由室外市政管网直接供水,五至十三层、十四至二十二层均各自采用变频调速泵加压给水。给水系统立管及引入管管材均采用钢塑复合管,入户管采用PP-R管。本建筑属一类建筑,设室内消火栓给水系统,该建筑防火等级属于中危险级级。在屋顶设实验消火栓装置;消火栓给水管网呈环状布置;室外设水泵结合器,保证消防的安全可靠性。商场、地下室设闭式自动喷淋系统。消防系统管材采用钢管。本设计室内排水系统采用合流制;污水经化粪池处理后直接排至室外排水管网。排水系统首层单独排放,并就近排出。排水立管设有伸顶通气管。地下室积水经地沟排入集水坑,再经过污水提升泵排至室外污水管网。排水管材采用UPVC管。根据设计资料,
5、本设计需为住宅用户供应热水。为保证同一用水点的冷、热水压力平衡,热水管道沿着给水管道布置;热水管材采用PP-R给水聚丙烯热水管,不做保温层。关键词 高层建筑;给水;排水;消防;热水IIAbstractEntering the 21st century,high-rise building move toward much more layer,better equipment, more functional,more advanced technology.High-rise building has become a symbol of modern metropolis.So for h
6、igh-rise building water supply and drainage engineering,higher requirements have put forward to design,construction,and management,new technical measures must be taken to ensure that the building water supply and drainage system is working good,and meet the functional requirements of high-rise build
7、ings. Building water and drainage engineering belongs to application engineering,it is a very important link in the whole building design,and is also essential part of the design.In this article,I combined with the understanding of design standards,specifications, discussed the construction of water
8、 supply systems,drainage systems,fire systems,hot water systems,in the form of design calculations about Suzhou Telecommunication Office Building.According to the design data,water pressure of urban water supply pipe network is 0.24MPa.From-2 to 4,the building is watered directly by outdoor municipa
9、l pipe network,5 to 13,14 to 22 layers are all used in variable frequency speed governing pump pressurized.Riser pipe and bring the water supply system are made of steel-plastic composite pipe,entrance pipe are made of pp-r pipe.This building is a building located indoor fire hydrant water supply sy
10、stems,the building fire protected level is level.Fire hydrant water supply pipe network layout annularly;fire pump starts the button put in the inside of the fire box,it can started fire pump directly;In the outdoor,it set up underground water pump combines to ensure fire safety and reliable.Mall,ba
11、sement located close the automatic sprinkler system.Fire protection system pipe use steel pipe.This design use the indoor and outdoor drainage system combined sewer;The toilet sewage wastewater discharge to an outdoor drainage pipe network after septic tanks.First floor drainage systemdischargesingl
12、y,and exhaust to the outdoors.High vertical sewer pipe has extended outtakes.Stagnant water in the basement drain through the trench line to set the puddle,and then flow through the sewage lift pump to an outdoor urban sewage network.The drainage pipe in this design use UPVC pipe.According to the in
13、formation of design,this requires to supply hot water for residential users.In order to ensure the same balance of hot/cold pressure water,hot water pipes arranged along the water supply pipe;The hot water pipe use pp-r water supply and hot water polypropylene pipe,and are not insulated.Keywords hig
14、h-rise building water fire fighting drainage hot waterIII目 录1 绪论11.1 工程概况11.2设计条件11.2.1给水水源11.2.2排水条件11.2.3热源情况11.2.4卫生设备11.2.5建筑图纸11.2.6气象资料11.3 设计任务12 设计说明书32.1建筑给水工程3 2.1.1 建筑分区3 2.1.2给水方式3 2.1.3给水系统的组成4 2.1.4增压、贮存设备的选择4 2.1.5管材及附件的选用4 2.1.6管道的布置与敷设52.2建筑消防工程62.2.1设计基本参数62.2.2室内消火栓系统方案比选62.2.3消火栓
15、的分区及减压措施72.2.4消火栓系统的组成72.2.5贮存、增压设备的选用72.2.6水泵接合器82.2.7室内消火栓管网布置82.2.8消防立管及消火栓的布置82.2.9室内消火栓系统管材92.2.10自动喷水灭火系统设计92.3建筑排水工程102.3.1排水水质及其特点102.3.2排水方案和排水系统类型的确定102.3.3排水系统的组成112.3.4排水管材112.3.5排水管道布置及敷设112.3.6室外排水管道布置122.4建筑热水工程132.4.1热水供应系统类型132.4.2热源的选择142.4.3热水制备系统的选择142.4.4热水系统的组成14I2.4.5管材及附件的选用142.4.6管道的布置与敷设153 设计计算书16 3.1建筑给水工程163.1.1生活用水量计算163.1.2给水管网的水力计算173
