给水管网课程设计
说明书
姓 名:彭岳强 学 号:0836240043 班 级:给排水工程二班
目 录
Ⅰ. 给水管网课程设计任务书·········································3 一、 设计项目·····················································3 二、 设计任务·····················································3 三、 设计资料·····················································3 Ⅱ. 给水管网设计计算说明书·········································5 一、 输配水系统布置···············································5 二、 设计用水量及调节构筑物相关计算 ······························5
1 设计用水量计算············································5 2 设计用水量变化规律的确定··································7 3 清水池、水塔调节容积的计算·································7 三、 经济管径确定················································10
1 沿线流量及节点流量·······································10 2 初始分配流量·············································12 3 管径的确定···············································13 四、 管网水力计算···············································13
1 初步分配流量·············································13 2 管网平差·················································14 3 控制点与各节点水压的确定·································18 4 泵扬程与水塔高度的计算···································20 五、 泵的选择···················································20 1 最高时工况初选泵·········································20 2 消防工况校核·············································21 3 水塔最大转输工况校核······································22 4 事故工况校核·············································23 5 泵的调度··················································24 六、 成果图绘制··················································- 参考文献··································································25
Ⅰ. 给水管网课程设计任务书
一、 设计项目
湖南某城给水管网工程设计
二、 设计任务
根据所给资料,应完成下列任务:
(1)、进行输配水系统布置,包括确定输水管、干管网、调节水池(如果设置的话)的位置和管网主要附件布置;
(2)、求管网、输水管、二级泵站的设计用水量与调节水池的容积; (3)、计算确定输水管和管网各管段管径; (4)、进行管网水力计算;
(5)、确定二级泵站的设计扬程,如果有水塔,确定水塔的设计高度;
(6)、确定二级泵站内水泵的型号与台数(包括备用泵),并说明泵站在各种用水情况下的调度情况;
(7)、画出管网内4~6个节点详图。
三、 设计原始资料
1、城市总平面图一张(1:5000);设计年限按10年考虑。 2、城市概况
(1)规划人口为12万人,用水普及率为95%,室内均有卫生设备,但无淋浴设备,房屋平均层数为6~7层。
(2)该城市有工业企业,其位置见城市总体规划布置图,用水量情况见下表:
表1:集中用水量情况统计表 序号 用户名称(人数) 生产用水量(班次)生产用水复率 要求水压 (M Pa) (m3/班) 1 NO.1企业(500) 1800(2) 25 0.25 2 NO.2企业(700) 1200(3) 30 0.25 3 火车站(50) 800 -- 0.25 企业每班有60%的员工需淋浴,热车间及重污染车间职工按35%算。 (3)其他
1浇洒绿地、道路设计用水量按8L/s计。 ○
2未遇见水量及管网漏失水量可按坐高日用水量的15~25%计算。 ○
3消防用水量不计入最高日最高时用水量。 ○
(4)城市用水每小时用水量占最高日用水量百分比情况见下表1所示 该城市每小时用水量占最高日用水量百分比情况表 时间 0~1 1~2 2~3 3~4 4~5 5~6 6~7 7~8
占最高日用水量(%) 时间 1.89 1.81 1.86 2.19 2.08 3.85 5.28 5.53
8~9
占最高日用水量(%) 时间 6.35
16~
17 17~18 18~19 19~20 20~21 21~22 22~23 23~24
占最高日用水量(%) 6.04 5.62 5.25 5.83 4.61 4.18 2.16 1.77
9~10 5.13 10~
11 11~12 12~13 13~14 14~15 15~16
5.08 5.46 5.26 4.48 3.58 4.35
上述流量计算后按学号再加上10*4、气象资料
学好后两位(注:四舍五入取整)
年平均气温为17.2?C,最热月平均气温34.3?C,最冷月平均气温1.8?C,年平均降水量1327.3mm,常年主导风向西北风,风速1.8m/s。 5、水文地质资料
该城市地震烈度:5级;地下水深:地面以下3m见地下水;冰冻深度:0.2m
Ⅱ. 给水管网设计计算说明
第一节 输配水系统布置
根据所给资料,结合城镇规划并考虑经济性和供水可靠性的要求,决定了采用城区环状给水、郊区及河边树状给水的布置形式,在高地布置水塔,水厂至管网双管输水。
第二节 设计用水量及其调节构筑物相关计算
1 设计用水量计算:
基本数据:
由原始资料该城市位于湖南,在设计年限内人口数12万,查《室外排水设计规范》
可知该城市位于一分区,为中小城市。
城市的未预见水量和管网漏失水量按最高日用水量的20%计算; 1.1 居民最高日生活用水量Q1 :
Q1=qNf
Q1―—城市最高综合生活用水,m3/d; q――城市最高综合用水量定额,L/(cap.d); N――城市设计年限内计划用水人口数; f――城市自来水普及率,采用f=95%
所以: Q1.1 =12000×200×95%/1000 =22800 m3/d 1.2 工业区的用水量计算
Q2=∑q2B2(1-f)
Q2=1800*2*(1-0.25)+1200*3*(1-0.3)+800*1
=6020 m3/d
1.3 工业企业职工的生活用水和淋浴用水量:
Q3=∑(q3aN3a+ q3bN3b)/1000 m3/d
Q3=(500*60%*40+500*60%*35%*60+700*60%*40+700*605%*60+50*60%*40+50