设计条件如下表所列 计算情况123闸门开启全开0.51上游水位19.519.519.5堰顶水头14.514.514.5H7.57.57.5e/H10.0666670.133333下泄流量计算表(自由出流) 计算情况e/H出流状态B360360360Q=1.62σB H7.57.57.53/2
下泄流量(M/s)11978.693自由出流11孔流20.066666667孔流30.133333333下泄流量计算表(孔口出流) 出流e/H计算状态情况自由出流1120.066666667孔流30.133333333孔流B360360360开度0.51u(M/s)3 下泄流量00.5881283.8960.5762515.389表中下泄流量
当为自由出流时
Q=1.62σB H3/2 (M3/s) 当为孔口出流时
Q=?eB (2gH)1/2 (M3/s) ?=0.6-0.18(e/H) 四、下游排水渠水深计算
下泄流量所对应的水深计算表 计算情况闸门上游开启水位1全开19.520.519.53119.5下游水头14.514.514.5H下泄流量下游水位17197.511978.697.51283.8967.52515.389
11
五、消力池深度的计算
假定消力池为矩形断面,二维水流,消力池进口宽度为417.6米,出口宽度为417.6米,计算时均假定消力池进口、出口宽度为417.6米;则计算过程见下表:
的水跃计算表(开度0.50米)
一、消力池的深度确定Q128412841284128412841284128412841284128412841284128412841284B417.6417.6417.6417.6417.6417.6417.6417.6417.6417.6417.6417.6417.6417.6417.6q3.0747133.0747133.0747133.0747133.0747133.0747133.0747133.0747133.0747133.0747133.0747133.0747133.0747133.0747133.074713上游水位202020202020202020202020202020消力池底闸底板高程高程VTohcEhc\12120.3843398.007540.275-0.050322.51481114.30456120.3843395.702980.924-3.545731.05506815.48025120.3843394.527280.917-2.50141.06275315.47843120.3843394.529110.916-2.497151.06385815.47815120.3843394.529380.915-2.49161.06496315.47788120.3843394.529660.915-2.491831.06496315.47788120.3843394.529660.915-2.491831.06496315.47788120.3843394.529660.915-2.491831.06496315.47788120.3843394.529660.915-2.491831.06496315.47788120.3843394.529660.915-2.491831.06496315.47788120.3843394.529660.915-2.491831.06496315.47788120.3843394.529660.915-2.491831.06496315.47788120.3843394.529660.915-2.491831.06496315.47788120.3843394.529660.915-2.491831.06496315.47788120.3843394.529660.915-2.491831.064963hs'555555555555555△Z-0.0549-0.4119-0.4057-0.4048-0.4039-0.4039-0.4039-0.4039-0.4039-0.4039-0.4039-0.4039-0.4039-0.4039-0.4039d-2.30456-3.48025-3.47843-3.47815-3.47788-3.47788-3.47788-3.47788-3.47788-3.47788-3.47788-3.47788-3.47788-3.47788-3.47788 12
的水跃计算表(开度1.00米)
一、消力池的深度确定Q251525152515251525152515251525152515251525152515251525152515B417.6417.6417.6417.6417.6417.6417.6417.6417.6417.6417.6417.6417.6417.6417.6q6.022516.022516.022516.022516.022516.022516.022516.022516.022516.022516.022516.022516.022516.022516.02251上游水位202020202020202020202020202020消力池底闸底板高程高程VTo12120.7528148.0289113.34823120.7528146.6806813.51767120.7528146.5112513.51767120.7528146.5112513.48555120.7528146.5433713.45258120.7528146.5763313.41873120.7528146.6101813.45258120.7528146.5763313.48555120.7528146.5433713.45258120.7528146.5763313.45258120.7528146.5763313.45258120.7528146.5763313.45258120.7528146.5763313.45258120.7528146.5763313.45258120.7528146.57633hc0.550.60.60.590.580.570.580.590.580.580.580.580.580.580.58E-0.21191-0.13858-0.07759-0.010720.0443860.0990050.021909-0.033380.0443860.0332960.0332960.0332960.0332960.0332960.033296hc\3.4038743.2251873.2251873.2593033.2941963.3298983.2941963.2593033.2941963.2941963.2941963.2941963.2941963.2941963.294196hs'555555555555555△Z-0.0777-0.0959-0.0959-0.0922-0.0885-0.0849-0.0885-0.0922-0.0885-0.0885-0.0885-0.0885-0.0885-0.0885-0.0885d-1.34823-1.51767-1.51767-1.48555-1.45258-1.41873-1.45258-1.48555-1.45258-1.45258-1.45258-1.45258-1.45258-1.45258-1.45258?=0.95
E0=上游水位-2.0+消力池深度+(q/h)2/(2g) ?Z=q2/19.6{1/(0.95ht)2-1/(1.05hc”)2} d=1.05hc”-(ht+?Z)
13
通过以上计算可以得出消力池深度需要0米,为安全计设计时取消力池深度为500毫米。 六、消力池长度的计算
Lj=1.034748L=0.724324
Lj=18.72795L=13.10956
消力池长度取为20.00米。 七、海漫设计
1、海漫长度的计算
海漫长度计算按《水闸设计规范》P44 公式进行计算
Lp?Kq?H?106.55?38.00(m)
海漫长度取为40米。 2、海漫结构设计
海漫前15米采用500毫米厚钢筋混凝土结构,后25米采用浆砌块石。海漫内均应设排水孔,垫层采用400g土工布一层,上铺200毫米厚碎石层。 八、防冲槽设计
1、冲刷坑深度的计算
tp?0164.Kqmax11.?4.42?0164.?4.50(m) t1/6126.1/6d()0.005()d0.005冲刷坑低于海漫末端4.50-1.26=3.24(M)
2、冲刷坑的防冲措施
冲刷坑的防冲措施采用板桩加抛石来处理,每米断面抛石10立方米。
九、下游护坡
下游护坡同上游护坡。
14
第五章 闸室稳定计算
闸室稳定计算的内容主要有以下四方面: 1、渗透稳定 2、水平抗滑稳定 3、地基的稳定 4、抗倾稳定和抗浮稳定 一、渗透稳定计算
1、渗透稳定验算
渗透计算采用直线比例法。地下轮廓线从钢筋混凝土铺盖至消力池前端,水平长度有85米。 设计情况取为如下两种:
设计工况1、挡上游设计工况2、挡上游校核工况上游水位(米)19.520下游潮位(米)14.514.5水位差(米)55.5
根据以上数据可得,最大的水位差为校核时的情况,具体数字为5.5米。据此可的平均渗透坡降J=5.5/85=0.0.065,参照《水闸设计规范(SD133-84)C值取为3~4,则临界地下轮廓线的长度为L=C*H=(3~4)×5.5=(16.5~22)米<85米,防渗长临界地下轮廓线的长度基本满足所布置的地下轮廓线的长度。
在出口处(海漫段)加设反虑层,则渗透稳定应不成问题。
2、底板下渗透压力分布计算
底板下渗透压力分布计算方法采用直线比例法,计算时忽略垂直防
15