设计规范:设计压力:P10000Pa500 Pa设计温度:T90°C设计风压:ω0550 Pa设计雪压 Px200 Pa附加荷载:Ph1250 Pa地震烈度:7度罐壁内径:D 23m罐壁高度: H121.2m充液高度:Hw19.44m液体比重:ρ 1罐顶半径: Rs23m焊缝系数:Φ 0.9腐蚀裕量:C21.5 mm钢板负偏差:C10.3 mm假设所有本设计所有钢板的负偏差相同,如有不同,区别对待。罐壁尺寸、材料及许用应力如下:高度(m)名义厚度tn(mm)材料设计[σ ]d(MPa)σ s(MPa)σ b(MPa)水压试验[σ ]t(MPa)重量(kg)11.9716Q345R21034551023017891.021.9714Q345R21034551023015653.331.9712Q345R21034551023013415.941.9712Q345R21034551023013415.951.9710Q345R21034551023011179.061.9710Q345R21034551023011179.071.978Q345R2103455102308942.481.976Q345R2103455102306706.291.976Q345R2103455102306706.2101.976Q345R2103455102306706.2111.26Q345R2103455102304085.0总重:mt######## 大罐设计计算书从下至上分段号2. 罐壁分段及假设壁厚:1.设计基本参数:GB50341-2003《立式圆筒形钢制焊接油罐设计规范》注:对于油罐罐壁厚度需满足“最小公称厚度要求”第 1 页计算结果:从下至上分段数计算液位高度H(m)计算壁厚td(mm)120.90 14.08218.9312.91316.9611.73414.9910.56513.029.38611.05 8.2179.087.0487.115.8695.144.69103.173.51111.202.34计算结果:从下至上分段数计算液位高度H(m)计算壁厚tt(mm)120.911.52 218.93 10.44 316.969.37 414.998.30 513.027.23 611.056.15 79.085.08 87.114.01 2)水压试验厚度计算:注:对于D<15m的油罐罐壁最小公称厚度≥5mm.3. 罐壁计算:1)设计厚度计算(储存介质): 1ttσ0.3)D(H4.9tC 21dCCσD0.3Hρ4.9t第 2 页95.142.94 103.171.86 111.20.79 11.46mm设计外载荷1.59 KPath =6mm顶板腐蚀裕量 C 2':1mm5800 kg!!!!!!!!!!!!Pa =136.81N/m24956Pa 式中:206000MPa23000mm4.7 mm15.10mm15.10mm6787.8mm100 mm10mm2000mm15.38mmEt— — 设计温度下材料的弹性模量顶板及加强筋(含保温层)总质量 md =Rs— — 拱顶球面半径th— — 顶板有效厚度t1m— — 纬向肋与顶板的折算厚度tm— — 带肋球壳的折算厚度h1— — 纬向肋宽度4. 罐顶计算(自支撑式拱顶):ths = 0.42* Rs + C2 + C1 =Pw = Ph + Px + Pa =注:按...
