带刚性环耳座的计算（HGT 20582-2020）



带刚性环耳座的计算

项目号 ITEM NO.

Calculation of Support Lugs with Rings

文件号 DOC. NO.

注：

计算依据：

HG20582-2020

1

黄色的背景是需要输入的项，蓝色字体为结果。如果出现红色文字，则说明计算不通过或超过适用范围。

This calculation is prepared referring to HG20582-2020

2

容器计算外径如果有护笼需要手动输入。

Do‘=Do+400

5100

3

“圆筒壳体壁厚扣除壁厚附加量后的厚度”当压力较高时，应当考虑内压与支座应力的叠加

此时建议取0或者取“圆筒壳体壁厚扣除设计厚度”

1.设计条件 Design Condition

圆筒壳体的名义厚度 Nominal thickness of shell

δ=

20

mm

垫板的名义厚度 Nominal thickness of pad

δ1=

10

mm

扣除因内压或外压计算需要厚度（计算厚度）及扣除厚度附加量（腐蚀余量及厚度负偏差）后圆筒富余厚度 Efective thickness of shell

δ0=

3

mm

垫板壁厚扣除壁厚附加量后的厚度 Effective thickness of pad

δ01=

9.7

mm

筋板的厚度扣除壁厚附加量后的厚度 Effective thickness of gusset

δ4=

19.7

mm

刚性环的有效厚度 Effective thickness of rings

T=

30

mm

刚性环的宽度 Width of rings

B=

250

mm

垫板加强宽度 The Strengthen width of pad

C=

100

mm

圆筒壳体外径 Outside diameter of shell

D0=

4500

mm

垫板的外径 Outside diameter of pad

D01=

4520

mm

支座外直径The diameter of support plate

Dob=

5300

mm

地震影响系数 Seismic coefficient

α=

0.12

基本风压 Basic wind pressure

qo=

550

Pa

地面粗糙度类别 Ground roughness category (输入A、B、C 或 D)

A

保温厚度 Thickness of insulation

tk=

100

mm

筒体有效当量直径 Equivalent diameter of shell

De=

4700

mm

设备高度 Height of equipment

H=

14000

mm

耳座底板下表面到设备重心的距离                                                            Distance from bottom of lower ring to centroid of equipment

h1=

2260

mm

设备质心离地面高度 Height from ground to centroid of equipment

Z=

20000

mm

耳式支座数目 Number of lug supports

n=

8

耳式支座的高度 Height of lug supports

h=

500

mm

设备操作时质量 Operating mass of equipment

mo=

300000

kg

设备试验时质量 Hydro test mass of equipment

mt=

500000

kg

偏心载荷 Eccentric load

Ge=

10000

N

偏心距离 Eccentric length

Se=

4000

mm

附加水平推力 Additional Horizontal load

FL=

2000

N

水平推力距支座底板的距离 Distance of FL to bottom plate of support

h2=

3000

mm

地脚螺栓中心圆直径 Anchor bolt circle diameter

Db=

5000

mm

反力Fb至壳体外壁的距离                                                          Distance from reaction force Fb to outer surface of shell

b=

250

mm

筋板材料的设计温度下许用应力 Allowable stress of gusset material at design temperature

[σr]=

117

MPa

刚性环材料设计温度下的许用应力 Allowable stress of ring material at design temperature

[σ]=

117

Mpa

刚性环材料常温下的许用应力  Allowable stress of ring material at room temperature

[σ]0=

147

Mpa

2.载荷计算 Load Calculation

风压高度变化系数f Wind pressure coefficient f

地面粗糙度类别                 Ground roughness category

A

f=0.794Z0.24

(Z≤5m时，f=1.17)

1.63

B

f=0.479Z0.32

(Z≤10m时，f=1.00)

C

f=0.2244Z0.44

(Z≤15m时，f=0.74)

D

f=0.0798Z0.60

(Z≤30m时，f=0.62)

水平地震力 Horizontal seismic load

操作时Operation

Pe=α×mo×g=

352800

N

水压试验时Hydro test:

Pe'=

0

N

水平风载荷 Horizontal wind load

操作时Operation

Fw=1.2×f×qo×H×De×10-6=

70768.10

N

水压试验时Hydro test:

Fw'=0.3Fw=

21230.43

N

作用于设备的水平力 Horizontal load acting on the vessel

操作时Operation

Fh=max(Fw，Pe+0.25Fw)

370492.025

N

水压试验时Hydro test:

Fh'=Fw'=

21230.43

N

作用于设备耳座上的弯矩Overturning moment acting on lug

操作时Operation

M=Fh×h1=

837311976

N.mm

水压试验时Hydro test:

M'=Fh'×h1=

47980771

N.mm

支座处反力                       Reaction force at lug support

操作时Operation

457456.198

N

水压试验时Hydro test:

623798.077

N

支座处等效反力 The effect reaction force at lug support

Fbe=max(Fb, Fb'[σ]/[σ]0)=

496492.347

N

支座处作用于刚性环上的力                Radial force on rings

248246.174

N

耳座间夹角的一半 Half of included angle of adjacent two supports

θ＝π/n

0.3927

弧度 rad

3.惯性矩、形心计算 Calculation of Moment of Inertia and Centroid

圆筒体上有效加强宽度                      Effective width of shell

127.81

mm

垫板圆筒上有效加强宽度 Effective width of cylindrical pad

230.33

mm

垫板圆筒上计算取用有效加强宽度 Effective cal. width of pad

Lsi=min(Lsi',C+Lsi'/2,h/2+min(C,Lsi'/2))=

215.16

mm

组合截面的面积                              Area of composite cross section

9970.52

mm2

刚性环外缘至惯性轴的距离               Distance from outer peripherence to inertia axis

157.42

mm

Ds＝Do+2×（δ1+B-a）

4705.16

mm

Rs＝0.5×Ds

2352.58

mm

a1=a-0.5×B

32.42

mm

a2=B＋0.5×δ1-a

97.58

mm

a3=B+δ1+0.5×δ0-a

104.08

mm

4.69E+07

mm4

1.99E+07

mm4

4.15E+06

mm4

组合截面的惯性矩                        Moment of inertia of composite cross section

I=I1+I2+I3

7.10E+07

mm4

4.应力校核 Check of stresses

筋板高度The height of gussets

hg=h-T=

470.00

mm

筋板角度 The angle of gussets

β=atan(hg/((Dob-D01)/2-B))=

1.28

rad

筋板长度 The length of gussets

L2=hg/sinβ=

490.41

mm

惯性半径 radius of inertia

r=0.289δ4=

5.69

mm

筋板材料的压缩许用应力 The allowance compress stress of gussets

80.52

MPa

每个支座的筋板数The NO. of gussets for one lug

k=

2.00

筋板材料的最大压缩应力 The max. compress stress of gussets

FR=Fbe/(ksinβ)=

2.59E+05

N

基础板下表面到支耳装配焊缝中心长度The length from bottom plate to the weld center of lug

L1=(Dob-D01)sinβ/2=

373.77

mm

支座中性轴与底板下表面交点至容器外壁的距离The distance from neutral axis to outside of shell

b=

250.00

mm

偏心距 eccentric distance

e=(b-(Dob-D01)/4)sinβ=

52.71

mm

筋板最大压缩应力The max. compress stress of gussets

σc,max=FR/L1δ4+6eFR/L12δ4=

64.94

MPa

筋板应力校核 check stability of gussets

σc,max

≤

[σc]

So it's OK

支座处和两支座中间处刚性环组合截面上的应力校核 Check of stress in rings

支座处      At lug support

内力矩 Internal moment

-3.86E+07

N·mm

周向力 Circumferential force

3.00E+05

N

应力 Stress

115.70

MPa

σ1

≤

[σ]

So it's OK

两支座中间处        At middle of two supports

内力矩 Internal moment

1.95E+07

N·mm

周向力 Circumferential force

3.24E+05

N

应力 Stress

75.69

MPa

σ2

≤

[σ]

So it's OK

5. 当支座用于弹簧支撑时，支座底板计算. When the support supported by spring, the bottom plate calculation

底板厚度 The thickness of bottom plate

T3=

100

mm

支座处相邻两筋板间距The distance between ribs

L3=

400

mm

底板螺栓孔径The diameter of setting bolt hole

d=

93

mm

底板设计温度下许用应力Allowable stress of bottom plate at design temperature

[σ]Z=

117

MPa

底板长度The length of bottom plate

L2=(Dob-D01-2B)/2=

140.00

mm

底板最大应力The max. stress of bottom plate

σZ=FL3/((l2-d)T32)=

211.27

Mpa

σZ

≥

[σ]Z

底板应力校核不合格It is not safe.