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1、-*浅滩航道整治课程设计说明书治课程设计说明书班 级姓 名 学 号指导教师目录1.滩险概况及整治方案12.设计标准确实定和推算12.1.设计水位12.2.浅滩根本水尺设计水位42.3.其它水尺设计水位52.4.用比降法确定各断面的设计水位62.5.床沙粒径确实定62.6.断面、和断面、之间的河床糙率73.整治工程设计83.1.整治线宽度计算83.2.整治线的布置93.3.整治建筑物的布置103.4.挖槽确实定104.水力计算114.1.航道的冲刷校核114.1.1.确定计算横断面114.1.2.确定各计算断面水面曲线114.1.3.绘制水流平面图124.1.4.流速比拟164.2.设计水位时挖
2、槽稳定性校核165.坝的纵横断面的设计和工程量计算175.1.材料选用及粒径确定185.2.丁坝的断面尺寸185.3.坝根的保护185.4.坝头处理185.5.丁坝坝基处理185.6.丁坝坝面的防护措施196.挖槽纵横断面设计和工程量计算19. z.-1. 滩险概况及整治方案 该浅滩为平原河流顺直河段上的过渡段沙质浅滩,因为上游有一江心洲,导致上游水流分汊形成分汊河道,洪水期来自上游的大量泥沙淤积在汊道出口两水流交汇处,在退水时又不能被水流全部带走,因此在枯水期形成碍航浅滩。能满足航深要求的上、下深槽宽而浅,且水深相差不大,曲率甚小,但经多年观察,深槽仍然变化不大,根本稳定;上、下边滩低坦,过
3、渡段河面宽阔,水流分散。采取整治筑坝和疏浚相结合的工程措施进展整治。其具体整治措施为:沿溪线布置挖槽,吸引水流,增加航深;两岸用对口丁坝束窄过渡段河面宽度,抬高边滩,稳固中、枯水河槽及其主流方向,加大流速,提高水流输沙能力,确保挖槽稳定。2. 设计标准确实定和推算2.1. 设计水位由1963年长江上游*基站日平均水位表得1963年水位保证率曲线计算表:1963年水位累计频率计算表(表1)序号水位区间出现次数累计次数保证率%序号水位区间出现次数累计次数保证率%1110.272084813.152010.2721115916.163010.2722137219.734120.552398122.1
4、95130.8224109124.936030.82251310428.497030.82261612032.888141.1271913938.089371.92281915843.2910182.19293118951.7811192.47301620556.16123123.29311722260.82134164.38322224466.85143195.21332226672.88152215.75341428076.71165267.12352230282.74173297.95364434694.79184339.04371235898.081974010.96387365100
5、在该曲线上可找得1963年保证率为95%的水位为30.29m。根据1955年到1974年的水文资料可得表2,作出累计频率曲线并按P-III型曲线求矩适线法配线图2,可得到当Cs=3Cv时,理论曲线与实测点的拟合程度最好,所以取保证率为95%的水位为30.2m,即为基站的设计水位。*水位站保证率为95%的水位累计频率计算表表2序号按大小排列年份保证率为P=95%的水位(m)最枯水位起ymK=y/y*K-1(K-1)2P=m/(n+1)*100%1197031.051.231.980.980.964.762197330.91.081.740.740.559.523196230.780.961.55
6、0.550.314.294196130.740.921.480.480.2319.055196830.670.851.370.370.1423.816196930.660.841.350.350.1228.577196030.60.781.260.260.0733.338196430.460.641.030.03038.19195530.40.580.93-0.07042.8610195930.380.560.9-0.10.0147.6211196730.380.560.9-0.10.0152.3812197430.350.530.85-0.150.0257.1413196330.290.47
7、0.76-0.240.0661.914195630.260.440.71-0.290.0866.6715195730.260.440.71-0.290.0871.4316196530.260.440.71-0.290.0876.1917197230.230.410.66-0.340.1280.9518195830.170.350.56-0.440.1985.7119197130.140.320.52-0.480.2390.4820196629.840.020.03-0.970.9495.24平均30.4410.621合计6.66E-164.19按P-III型曲线配线时,其理论计算表如表3,其中
8、根据的值查表所得,而 ,理论累计频率计算表表3Cv=0.4696Cs=2CvCs=3CvCs=4Cvp(%)p1Kp1Zp1p2Kp2Zp2p3Kp3Zp30.015.823.7332.146.874.2332.457.984.7532.770.14.4453.0931.745.093.3931.935.773.7132.1212.9832.431.313.272.5431.43.552.6731.4851.8681.8830.991.941.9131.011.991.9331.02101.341.6330.831.331.6230.831.311.6230.8350-0.3540.8330.
9、34-0.220.930.38-0.290.8630.3575-0.730.6630.23-0.730.6630.23-0.720.6630.2390-1.1420.4630.11-1.040.5130.14-0.920.5730.1795-1.3380.3730.05-1.170.4530.1-0.980.5430.1699-1.6330.2329.96-1.320.3830.06-1.040.5130.142.2. 浅滩根本水尺设计水位 基站与浅滩的相关计算表如下表4,并以此为依据推求表示浅滩设计水位与基站设计水位的相关关系的回归方程,即水位相关法。基站和浅滩水位相关计算表表4项次基站*浅
10、滩y*-*y-y*(*-*)2(y-y*)2(*-*)(y-y*)132.2831.350.40.570.160.320.23232.6731.610.790.830.620.690.66333.1232.281.241.51.542.251.86433.2232.611.341.831.83.352.45533.0532.271.171.491.372.221.74632.8131.840.931.060.861.120.99732.5831.750.70.970.490.940.68832.3331.290.450.510.20.260.23932.2131.150.330.370.110
11、.140.121032.1130.920.230.140.050.020.03113230.850.120.070.0100.011231.9530.820.070.040001331.8830.78000001431.8430.7-0.04-0.0800.0101531.8130.64-0.07-0.1400.020.011631.830.55-0.08-0.230.010.050.021731.7630.53-0.12-0.250.010.060.031830.730.44-1.18-0.341.390.120.41931.5830.37-0.3-0.410.090.170.122031.5630.32-0.32-0.460.10.210.152131.5430.3-0.34-0.480.120.230.162231.530.27-0.38-0.510.140.260.1
