贵州省小汇水流域暴雨洪水计算
1 计算适用范围F=式中:
104
LJ1/3F1/4300
F=
Km2
104
成立km2
104
^
0.25
)
F~汇水面积
26.47
/(0.01611^0.3333333×30L=J=F=
不成立26.470.01611104
km2
km
=32.819384式中:~几何特征值
L~主河道长度J~主河道坡降F~汇水面积
2 雨洪计算
2.1 修订1式,要求25F3002.2 修订2式,要求10F252.3 修订3式,要求F102.1 修订1式
设计标准下洪峰流量计算:
成立不成立不成立
[注:若此处为成立的话,跳到2.1计算][注:若此处为成立的话,跳到2.2计算][注:若此处为成立的话,跳到2.3计算]
[注:只有以上两个条件都成立,方可用此表进行洪峰流量计算]
Qp0.4810.571f0.233J0.149F0.(CKpH24)1.143××(0.48
×
×
0.43^
^0.
0.571 0.2010.872^
×0.223
1××0.153
690.43^0.1324)^2.76
1.143=43.136165m3/s式中:1~汇流系数类别大类分类Ⅰ1流域主要特征[注:取值如下表,三都取0.38比较合理]1典型代表地区平均变化范围黔中地区0.3350.240.430.380.32~0.360.22~0.260.41~0.450.36~0.4Ⅰ1丘山主,中等或部分强岩溶,植被较差Ⅰ2丘山间谷坝,强岩溶,植被较差Ⅱ皮甲河流域平桥站以上松坎河流域Ⅱ1高山间山丘区,少量岩溶植被差松坎站以上黔东北部分Ⅱ2山区间山丘,少量岩溶,植被一般或较好地区Ⅱ
Ⅱ3山区间山丘,非或少量岩溶,植被好fF/L2黔东南部分地区/26.470.3120.29~0.32f~流域形状系数104=0.1484313J~主河道坡降F~汇水面积C~洪峰径流系数产流相应汇流分类分类Ⅰ1Ⅰ2流域特性项目丘山间谷坝、平均C中等岩溶、植被较差变化范围山区、少量岩溶、植被差平均C变化范围0.650.52~0.770.720.61~0.810.660.53~0.770.760.63~0.850.810.74~0.880.770.66~0.850.820.74~0.880.860.8~0.940.820.74~0.880.860.79~0.910.0.84~0.920.860.83~0.910.880.83~0.920.910.87~0.940.880.83~0.920.910.87~0.940.930.9~0.950.910.87~0.940.930.9~0.950.940.92~0.960.930.9~0.95C=0.786100[注:取值如下表,如没有对应值可用内插法]150200250300400500   Hf(mm)ⅠⅡ1Ⅱ1Ⅱ2(三都推荐)Ⅱ2山区或部分山平均C区:中等岩溶Ⅱ3植被较好变化范围Hf~造峰降雨量[注:计算如下表,其中三都平均年24小时最大降雨量取110mm,三都雨损取35mm,三都县在CV24=0.4,CV24=0.45的情况下各频率下Hf及C的取值如下表]P(%)KPHPHfCKPHPHfC0.13.040.22.820.332.660.52.5312.3122.0851.78101.53201.28500.91备注CV24=0.4CV24=0.4CV24=0.4CV24=0.4CV24=0.45CV24=0.45CV24=0.45334.4310.2292.6278.3254.1228.8195.8168.3140.8100.1299.4275.2257.6243.3219.1193.8160.8133.3105.865.10.883.43743390.870.8630.8550.8350.8140.7810.7330.6730.5833.142.942.792.522.251.831.61761411.310.345.4323.4306.9277.2247.5201.3310.4288.4271.9242.2212.5166.3144.197.9109.162.90.20.8830.8750.8690.8540.830.7860.750.680.578CV24=0.45[注:KP查上表可得,HP=KP X 平均年24小时最大降雨量,Hf=HP-雨损,(三都县南西,CV24=0.4,北面可用CV24=0.45,Cs一律用Cs=3.5CV)。]
Kp~皮尔逊Ⅲ型曲线的模比系数
Kp1.830.455.00%
CV=
设计频率P=
H24~年最大24小时点雨量均值(mm)H24110mm[注:取值如下表,
三都属多雨区,建议取值110mm]
雨区分统计历时类多雨区参数H2411024小时CV240.551小时[60分钟]H60'CV60'一般雨区较少雨区1000.5430.43900.45380.33少雨区800.4350.35470.47校核标准下洪峰流量计算:
Qp0.35710.922f0.36J0.240F0.716(CKpH24)1.23×
0.357
×
×
0.43^
^0.716
0.922
0.1484313^
0.869
×
0.362.79
×
0.01611^
×
0.24)^
104
×(1101.23
=821.05943m3/s
2
10.43式中:1~汇流系数[注:取值同设计标准]
f~流域形状系数fF/L2104/26.47
J~主河道坡降F~汇水面积C~洪峰径流系数
C=
0.869
[注:查下表可得]
=0.1484313
Hf~造峰降雨量[注:计算如下表,其中三都平均年24小时最大降雨量取110mm,
三都雨损取35mm,三都县在CV24=0.4,CV24=0.45的情况下各频率下Hf及C的取值如下表]P(%)KPHPHfCKPHPHfC0.13.040.22.820.332.660.52.5312.3122.0851.78101.53201.28500.91备注CV24=0.4CV24=0.4CV24=0.4CV24=0.4CV24=0.45CV24=0.45CV24=0.45334.4310.2292.6278.3254.1228.8195.8168.3140.8100.1299.4275.2257.6243.3219.1193.8160.8133.3105.865.10.883.43743390.870.8630.8550.8350.8140.7810.7330.6730.5833.142.942.792.522.251.831.61761411.310.345.4323.4306.9277.2247.5201.3310.4288.4271.9242.2212.5166.3144.197.9109.162.90.20.8830.8750.8690.8540.830.7860.750.680.578CV24=0.45[注:KP查上表可得,HP=KP X 平均年24小时最大降雨量,Hf=HP-雨损,(三都县南西,CV24=0.4,北面可用CV24=0.45,Cs一律用Cs=3.5CV)。]
Kp~皮尔逊Ⅲ型曲线的模比系数
Kp2.790.45
CV=
设计频率P=0.50%
[注:查《工程水文学(第三版)》附表2可得,其表适合三都的部分如上(三都县南西,CV24=0.4,北面可用CV24=0.45,Cs一律用Cs=3.5CV)。注意:最左端值不是CS而是CV]
H24~年最大24小时点雨量均值(mm)
H24110mm[注:取值同设计标准]
2.2 修订2式
设计标准下洪峰流量计算:
Qp0.25410.922f0.36J0.240F0.819(CKpH24)1.23×
0.254
×
×
0.38^
^0.819
0.922
0.1484313^
0.786×0.361.83×
0.01611^
×0.24)^104
×(1100.381.23=442.48053m3/s式中:1~汇流系数类别大类分类Ⅰ1流域主要特征[取值如下表,三都取0.38比较合理]1典型代表地区平均变化范围黔中地区0.3350.240.430.380.312Ⅰ1丘山主,中等或部分强岩溶,植被较差Ⅰ2丘山间谷坝,强岩溶,植被较差0.32~0.360.22~0.260.41~0.450.36~0.40.29~0.32Ⅱ皮甲河流域平桥站以上松坎河流域Ⅱ1高山间山丘区,少量岩溶植被差松坎站以上黔东北部分Ⅱ2山区间山丘,少量岩溶,植被一般或较好地区黔东南部分Ⅱ3山区间山丘,非或少量岩溶,植被好地区f~流域形状系数fF/L2104/26.47=0.1484313J~主河道坡降F~汇水面积C~洪峰径流系数产流相应汇流分类分类Ⅰ1Ⅰ2流域特性项目丘山间谷坝、平均C中等岩溶、植被较差变化范围山区、少量岩溶、植被差平均C变化范围0.650.52~0.770.720.61~0.810.760.63~0.850.810.74~0.880.820.74~0.880.860.8~0.940.860.79~0.910.0.84~0.920.880.83~0.920.910.87~0.940.910.87~0.940.930.9~0.950.930.9~0.950.940.92~0.96C=0.786100[注:取值如下表,如没有对应值可用内插法]150200250300400500   Hf(mm)ⅠⅡ1Ⅱ1Ⅱ2(三都推荐)Ⅱ2Ⅱ3山区或部分山平均C区:中等岩溶植被较好变化范围0.660.53~0.770.770.66~0.850.820.74~0.880.860.83~0.910.880.83~0.920.910.87~0.940.930.9~0.95Hf~造峰降雨量[注:计算如下表,其中三都平均年24小时最大降雨量取110mm,三都雨损取35mm,三都县在CV24=0.4,CV24=0.45的情况下各频率下Hf及C的取值如下表]P(%)KPHPHfCKPHPHfC0.13.040.22.820.332.660.52.5312.3122.0851.78101.53201.28500.91备注CV24=0.4CV24=0.4CV24=0.4CV24=0.4CV24=0.45CV24=0.45CV24=0.45334.4310.2292.6278.3254.1228.8195.8168.3140.8100.1299.4275.2257.6243.3219.1193.8160.8133.3105.865.10.883.43743390.870.8630.8550.8350.8140.7810.7330.6730.5833.142.942.792.522.251.831.61761411.310.345.4323.4306.9277.2247.5201.3310.4288.4271.9242.2212.5166.3144.197.9109.162.90.20.8830.8750.8690.8540.830.7860.750.680.578CV24=0.45[注:KP查上表可得,HP=KP X 平均年24小时最大降雨量,Hf=HP-雨损,(三都县南西,CV24=0.4,北面可用CV24=0.45,Cs一律用Cs=3.5CV)。]
Kp~皮尔逊Ⅲ型曲线的模比系数
Kp1.830.455.00%110mm[注:取值如下表,
CV=设计频率P=H24~年最大24小时点雨量均值(mm)
H24三都属多雨区,建议取值110mm]
雨区分统计历时类多雨区参数H2411024小时CV240.551小时[60分钟]H60'CV60'一般雨区较少雨区1000.5430.43900.45380.33少雨区800.4350.35470.47校核标准下洪峰流量计算:
Qp0.25410.922f0.36J0.240F0.819(CKpH24)1.23×
0.254
×
×
0.38^
^0.819
0.922
0.1484313^
0.869
×
0.362.79
×
0.01611^
×
0.24)^
104
×(1100.38
1.23
=841.00212m3/s
式中:1~汇流系数1[注:取值同设计标准]
f~流域形状系数fF/L2104/26.47
2
=0.1484313
J~主河道坡降F~汇水面积C~洪峰径流系数
C=
0.869
[注:查下表可得]
Hf~造峰降雨量[注:计算如下表,其中三都平均年24小时最大降雨量取110mm,
三都雨损取35mm,三都县在CV24=0.4,CV24=0.45的情况下各频率下Hf及C的取值如下表]P(%)KPHPHfCKPHPHfC0.13.040.22.820.332.660.52.5312.3122.0851.78101.53201.28500.91备注CV24=0.4CV24=0.4CV24=0.4CV24=0.4CV24=0.45CV24=0.45CV24=0.45334.4310.2292.6278.3254.1228.8195.8168.3140.8100.1299.4275.2257.6243.3219.1193.8160.8133.3105.865.10.883.43743390.870.8630.8550.8350.8140.7810.7330.6730.5833.142.942.792.522.251.831.61761411.310.345.4323.4306.9277.2247.5201.3310.4288.4271.9242.2212.5166.3144.197.9109.162.90.20.8830.8750.8690.8540.830.7860.750.680.578CV24=0.45[注:KP查上表可得,HP=KP X 平均年24小时最大降雨量,Hf=HP-雨损,(三都县南西,CV24=0.4,北面可用CV24=0.45,Cs一律用Cs=3.5CV)。]
Kp~皮尔逊Ⅲ型曲线的模比系数
Kp2.790.450.50%
CV=
校核频率P=
[注:查《工程水文学(第三版)》附表2可得,其表适合三都的部分如上(三都县南西,CV24=0.4,北面可用CV24=0.45,Cs一律用Cs=3.5CV)。注意:最左端值不是CS而是CV]
H24~年最大24小时点雨量均值(mm)
H24110mm[注:取值同设计标准]
2.3 修订3式设计标准下洪峰流量计算:
Qp0.48110.571f0.223J0.149F0.(C'Sp)1.143×
0.481
×
×
0.38^
^0.
0.571
0.1484313^
0.77×0.22388.4×
0.01611^)^1.1430.380.149104
×(=759.49065m3/s式中:1~汇流系数类别大类分类Ⅰ1流域主要特征[注:取值如下表,三都取0.38比较合理]1典型代表地区平均变化范围黔中地区0.3350.32~0.36Ⅰ1丘山主,中等或部分强岩溶,植被较差ⅠⅡ皮甲河流域平桥站以上松坎河流域Ⅱ1高山间山丘区,少量岩溶植被差松坎站以上黔东北部分Ⅱ2山区间山丘,少量岩溶,植被一般或较好地区黔东南部分Ⅱ3山区间山丘,非或少量岩溶,植被好地区f~流域形状系数fF/L2104/26.47Ⅰ2丘山间谷坝,强岩溶,植被较差0.240.430.380.3120.22~0.260.41~0.450.36~0.40.29~0.32=0.1484313J~主河道坡降F~汇水面积
C'~特小流域洪峰径流系数
C'0.77[注:取值如下表,如没有对应值
可用内插法,三都县可近似取值0.77]土tF(km2)(h)高低山0.10.20.4Ⅱ中等0.612.50.01~11.01~55.01~2020.01~500.01~11.01~55.01~200.01~11.01~55.01~20丘陵平坦2040n=0.4(用于0.25~0.55)S(mm/h)70前期土壤水分对C'值修正数类前期土壤水分100200湿润干旱0.780.830.860.880.910.760.810.850.870.90.730.790.830.850.0.720.780.820.840.881.080.920.70.770.810.830.870.850.01~10020.01~5050.01~10020.01~500.690.760.810.830.8750.01~1000.650.730.780.810.85土类前期土壤水分tF(km)2n=0.7(用于0.55~0.85)S(mm/h)平坦204070前期土壤水分对C'值修正数(h)高低山0.10.20.40.01~11.01~55.01~2020.01~500.01~11.01~55.01~200.01~11.01~5丘陵100200湿润干旱0.870.870.90.910.930.80.840.870.0.910.760.810.850.870.90.730.790.830.850.1.080.92Ⅱ中等0.6Ⅱ中等
0.850.01~10020.01~5012.5表中:
5.01~200.710.780.820.840.8850.01~10020.01~500.690.760.810.830.8750.01~1000.610.70.760.790.831.080.92
n~暴雨衰减指数,全贵州省范围内n=0.45~0.55
S~雨力,在此使用年平均最大1小时设计雨量H60'[注:取值见下表]      雨区分统计历时类多雨区一般雨区较少雨区少雨区参数H24110100908024小时CV240.550.50.450.41小时[60分钟]H60'CV60'470.47430.43380.33350.35[注:三都县见下表选取]式中:Sp~设计暴雨雨力,即设计标准下最大1小时降雨量Sp88.4mm/h[注:依据设计频率值对应选取]583.71071.91075.22060.22061.60.32^5042.85041.8^0.9027.39025.8用“水文频率分析CAD系统”计算得出在CV=0.4下,各频率的年最大1小时降雨量如下表:频率P(%)0.010.10.20.512H24p176.3142.9132.5118.9108.697.8用“水文频率分析CAD系统”计算得出在CV=0.45下,各频率的年最大1小时降雨量如下表:频率P(%)0.010.10.20.5125H24p200.7159.8147.6131.1118.4105.788.4校核标准下洪峰流量计算:Qp0.48110.571f0.223J0.149F0.(C'Sp)1.143×0.481××0.5712.938E-06^0.872×0.22369×0.085)^^0.1490.08×(1.143=0.1158845m3/s210.43式中:1~汇流系数[注:取值同设计标准]f~流域形状系数fF/L20.08165/J~主河道坡降F~汇水面积=2.938E-06C'~特小流域洪峰径流系数Sp69mm/hC'0.77[注:取值同设计标准][注:三都县见上表选取]Sp~校核暴雨雨力,即校核标准下最大1小时降雨量[注:依据校核频率值对应选取][版权声明:本计算表由詹万熹于2008年7月制作,版权所有不得盗用,QQ:25540208]