saddle excel calculation as per lp zick analysisFull description
calculator
pipingDescription complète
Saddle Design
pipingFull description
Zick Analysis for Saddle SupportDescription complète
Zick Analysis for Saddle Support
Descripción: Design of Saddle Supports
saddle design as per BS5500
Descripción completa
Descripción: Manejo de Soluciones
senaDescripción completa
norahDescripción completa
tubod colapsibles, tecno 1Descripción completa
MCQ ECS2602
comunicaciones
BqDeskripsi lengkap
Descripción completa
Descrição completa
1 (1)Full description
Page
L1
L4
g
g
a
tw
a tr
H1
tb H3
H
x
x
Ws L3
H2
y
ts
y
L4 (Typ.)
L2
B Lb
Vessel Outside Diameter W rapper Plate Thickness Saddle Included Angle Wrapper Plate Included Angle W rapper Plate W idth Height from Saddle base to Vessel CL Saddle Stiffener Thickness W eb Plate Thickness Saddle W idth Base Plate W idth Distance from Saddle CL to outer Anchor Bolt CL Base Plate Thickness Base Plate Length Distance from Outer Stiffener CL to Vessel CL Distance from CL of web to CL of Anchor Bolt Distance from edge of W eb to edge of Base
Do tr 2 a 2 (g + a) Wr H ts tw Ws Wb B tb Lb L2 L3 L4
Maximum Bending Stress in Wrapper Plate b1 x q x b^2/tr^2
fbr
=
#REF!
N/mm^2
#REF!
Shear Stress in Saddle Wrapper Plate P/(2 x tr)
fsr
=
#REF!
N/mm^2
#REF!
Bearing Stress in Wrapper Plate P/tw
fpr
=
#REF!
N/mm^2
#REF!
Angle b 180 - a Maximum Reaction Load at Saddle (FPSO Motion)
=
Consider a 1mm wide strip of Wrapper Plate Load/unit Width R/Rr x (1 + Cosb
)/(( 3.14159 b-
) + (bCos
)x b ( Sin
Load per unit area of Wrapper Plate P/Wr
))
STRESSES IN BASE PLATE (Compressive Loading) Assume that the saddle is sufficiently rigid to distribute the compressive load uniformly over the total base plate area. Consider a 1mm wide strip of Base Plate Load per unit width of Base Plate R/L
P
=
#REF!
N/mm width
Load per unit area P/Wb
q
=
#REF!
MPa
Ref Roark & Young Table 26 Case 10a for
a b a/b b1
= = = =
341.0 70.5 4.837 2.105
mm mm
Maximum Bending Stress in Base Plate b1 x q x b^2/tb^2
fbb
=
#REF!
N/mm^2
#REF!
Shear Stress in Saddle Base Plate P/(2 x tb)
fsr
=
#REF!
N/mm^2
#REF!
Bearing Stress in Base Plate P/tw
fpr
=
#REF!
N/mm^2
#REF!
2.094
Rads
Page
Lateral Tensile Stress in Saddle Horizontal Load in Saddle is given by
Fh
=
W x K9
2a
=
120
Deg
Hence
K9
=
0.88
(Ref BS5500 App G.3.3.2.6)
Therefore
Fh
=
#REF!
N
Maximum Saddle Height that can resist Fh Do/6
H4
=
203
Actual Height used for calculation of Tensile Stress Min. of H4 or H3-tb
H5
=
203
Area resisting Fh H5 x tw +Wr x tr
Ash
=
1829
mm^2
Tensile Stress in Saddle Fh/Ash
fts
=
#REF!
N/mm^2
H1
=
1065
mm
tw(min)
=
5.91
mm
Saddle Included Angle
#REF!
WEB PLATE Maximum Height of Web and Outer Stiffeners Ref. BS 449 Clause 27f for Grade 43 steel Minimum permissible thickness of Web H1//180