【正文】 (4)浪壓力 kNPwk ? 表 22 作用于副壩的各力和力矩大小及方向表 荷載 垂直力（ kN） 水平力（ kN） 力臂 (m) 力矩（ kN根據(jù)地質(zhì)勘測資料，壩基巖石為堅硬、有微裂隙的巖體，砌石體飽和強度較高，取摩擦系數(shù) f =。 kNTHHUUU )(2)( 2121 ??????????? ?? (23) (4)泥沙壓力 Psk )245(21 22 nnnsk tghP ?? ?? ? (24) 式中： γ n — 泥沙浮容重，取γ n =7 KN/ m3 hn — 計算點以上的淤積高度，取 hn =, φ n— 泥沙內(nèi)摩擦角，取 φ n =25o kNtgtghP nnnsk )245(21 2222 ??????? ?? ?? (5)浪壓力 Pwk 浪高波長按官廳水庫公式計算 波高和平均波長 3/120201020 0 07 ????????? ? vgDvvgh b (25) 15/420207020 ????????? ? vgDvvgL m (26) 式中： hb— 波高（當 250~2020 ?vghb時，為累計頻率為 5%的波高 %5h ；當 1000~25020 ?vgh b為 河北工程大學畢業(yè)設(shè)計 6 累計頻率為 10%的波高 %10h ）， m； Lm— 平均波長， m； V0— 計算最大風速（基本組合可采用重現(xiàn)期 50年的最大風速，特殊組合可采用多年最大風速）， m/s；有資料可知 V0= m/s。 (2)大壩結(jié)構(gòu)復合。壩基不存在滲漏破壞的可能性。場區(qū)普遍分布，厚度 :,平均 。多年平均汛期降雨占年雨量的 75%以上。經(jīng)調(diào)洪演算，不同設(shè)計標準的洪水位及相應(yīng)的最大泄流量如下： 20 年一遇的最高洪水位為 ，最大泄量為 ； 200 年一遇的最高洪水位為 ，最大泄量為 。 水庫樞紐主要包括：主壩、副壩、溢流壩和放水洞等建筑物。經(jīng)計算得大壩在某些工況下不滿足抗滑穩(wěn)定要求。河北工程大學畢業(yè)設(shè)計（論文） 1 設(shè) 計 總 說 明 PS 水庫位于河北省沙河市境內(nèi)，屬海河流域滏陽河系沙洺河支流。 壩體抗滑穩(wěn)定計算是重力壩設(shè)計的一項重要內(nèi)容，其目的是驗算壩體沿壩基面的抗滑穩(wěn)定安全度， 利用公式判別大壩是否滿足抗滑穩(wěn)定要求。 河北工程大學畢業(yè)設(shè)計（論文） 2 General description of design PS reservoir in Hebei province Shahe city within the boundaries, the Haihe River Valley of Minghe River tributary of Fuyang River engineering problems as follows (1)The dam foundation against sliding of dam does not meet the requirements, the serious leakage of high water level. (2) The crest elevation does not meet the requirements of the code in the standard. (3) The discharge valve damage. (4)The dam downstream energy dissipation facilities. The identification of the dam belongs to the three kind of dam. PS reservoir reinforcement design is according to the actual project preliminary design, the main contents include the calculation of stability against sliding of dam, dam foundation stress posite, spillway discharge capacity and energy dissipation and other parts. Calculation on stability against sliding of gravity dam is an important issue in the design, its purpose is to check dam along the interface between dam and foundation stability against sliding of dam safety, using the formula for judging whether meet the requirements of stability against calculation of dam in some cases do not meet the requirements of stability against sliding. Stress analysis to test the dam in construction and using period whether meet the strength requirements, use of material mechanics method testing stress whether meet the calculation of dam in some cases do not meet the requirements. Spillway flow capacity calculation and energy dissipation calculation based on design code for Spillway SL2532020 calculation, to meet the requirements. The final project reinforcement design, which does not meet the requirements of operation and meet the design requirements, the dam is strengthened. Key words: antisliding stability, stress posite, flow capacity and energy dissipation. 河北工程大學畢業(yè)設(shè)計（論文） 1 目 錄 1 綜合說明 ................................................................................................................................... 1 工程概況 ................................................................................................................................. 1 水文 ................................................................................................................................. 1 流域概況 ................................................................................................................ 1 氣象 ...................................................................................................................... 1 水文 ...................................................................................................................... 2 泥沙 ...................................................................................................................... 2 工程地質(zhì)條件 ................................................................................................................... 2 結(jié)論及建議： ................................................................................................................. 2 工程除險設(shè)計 ................................................................................................................... 3 2 水庫大壩現(xiàn)狀情況校核 ............................................................................................................... 4 正常蓄水位下的壩體抗滑穩(wěn)定計算與壩基處應(yīng)力計算 ....................................................... 4 主壩抗滑穩(wěn)定計算與壩基應(yīng)力計算 .......................................................................... 4 副壩抗滑穩(wěn)定計算與壩基應(yīng)力計算 .......................................................................... 8 溢流壩抗滑穩(wěn)定計算與基應(yīng)力計算 ........................................................................ 10 設(shè)計洪水位下的抗滑穩(wěn)定計算與壩基應(yīng)力計算 ............................................................... 12 主壩抗滑穩(wěn)定計算與壩基應(yīng)力計算 ........................................................................ 12 副壩抗滑穩(wěn)定計算與壩基應(yīng)力計算 ........................................................................ 14 溢流壩抗滑穩(wěn)定計算與壩基應(yīng)力計算 .................................................................... 15 校核洪水位下的抗滑穩(wěn)定計算與壩基應(yīng)力計算 ............................................................... 18 主壩抗滑穩(wěn)定計算與壩基應(yīng)力計算 ........................................................................ 18 副壩抗滑穩(wěn)定計算與壩 基應(yīng)力計算 ........................................................................ 20 溢流壩抗滑穩(wěn)定計算與壩基應(yīng)力計算 .................................................................... 22 地震情況下正常蓄水位時的壩體抗滑穩(wěn)定計算與壩基處應(yīng)力計算 .................................... 24 主壩抗滑穩(wěn)定計算與壩基應(yīng)力計算 .....................................................