SUVIDYA INSTITUTE OF TECHNOLOGY Mumbai : 400055
SAMPLE DESIGN CALCULATION - VESSEL SUPPORTED ON LUGS REFEREN REFERENCE CE
PRESSU PRESSURE RE VESS VESSEL EL DESIGN DESIGN MANUA MANUAL L BY BY D.R.M D.R.MOSS OSS - (PROC (PROCEDU EDUCE CE 3-7, 3-7, #2)
SEISMIC DESIGN - VESSEL SUPPORT OF LUGS IN THIS CALCULATION, EFFECT DUE TO WIND LOAD IS IGNORED AS EUIPMENT IS LOCATED WITHIN BUILDING. DESIGN CHEC! IS CONDUCTED FOR SEISMIC LOAD
D
SHELL OUTSIDE DIAMETER
90.00 in
A
LENGTH OF R.F. AD
!".00 in
B
# IDTH OF R.F. AD
!1.00 in
C
# IDTH OF $ASE LATE
1%.00 in
E
HEIGHT OF LUG SUORT
!&.00 in
F
THI'(NESS OF $ASE LATE
1.00 in
G
THI'(NESS OF GUSSETS
0.5) in
H
DISTAN'E $ET# EEN T# O GUSSETS
"
LEASE REFER A$O*E S(ET'H
!.00 in
M
LEASE REFER A$O*E S(ET'H
!.50 in
, $
+ $'D , D - !
15.00 in
1!.00 in
W
# EIGHT OF *ESSEL , OERATING 'ONDITION
)0000.00 /b
N
NO. OF LUG SUORTS
%&
THI'(NESS OF SHELL
0.5 in
%'
THI'(NESS OF AD
0.5 in
4 No.
SUVIDYA INSTITUTE OF TECHNOLOGY Mumbai : 400055
SAMPLE DESIGN CALCULATION - VESSEL SUPPORTED ON LUGS REFERENCE
PRESSURE VESSEL DESIGN MANUAL BY D.R.MOSS - (PROCEDUCE 3-7, #2)
SEISMIC DESIGN - VESSEL SUPPORT OF LUGS IN THIS CALCULATION, EFFECT DUE TO WIND LOAD IS IGNORED AS EUIPMENT IS LOCATED WITHIN BUILDING. DESIGN CHEC! IS CONDUCTED FOR SEISMIC LOAD
CALCULATE FORCES FIND OUT BASE SHEAR ( V ) SITE
MUM$AI INDIA
8ONE
III
(A& '* '*+* /01 0 IS4563-22)
8
2ONE FA'TOR
I
IMORTAN'E FA'TOR +Tab/3 , ) , IS:1"9&,!00!-
1
R
RESONSE REDU'TION FA'TOR +Tab/3 , % , IS:1"9&,!00!-
4
S$9/
A*ERAGE RESONSE A''ELERATION 'O,EFFI'IENT
0.1)
!.5
'/. ).4.5 , IS:1"9& , !00! Soi/ , M3ium oi/ i3
A:
DESIGN HORI2ONTAL A''ELERATION SE'TRUM
A:
2 6 I R 6 +Sa7-
0.01)
LATERAL FORCES (F:) F:
A8 . #
9)0 /b
HORI8ONTAL SHEAR PER LUG (V:) V:
F8 N
!40 /b
VERTICAL FORCE (F1) F1
#
)0000.00 /b
VERTICAL SHEAR PER LUG (V1) V1
F N
15000 /b
SUVIDYA INSTITUTE OF TECHNOLOGY Mumbai : 400055 SAMPLE DESIGN CALCULATION - VESSEL SUPPORTED ON LUGS
REFERENCE PRESSURE VESSEL DESIGN MANUAL BY D.R.MOSS - (PROCEDUCE 3-7, #2) SEISMIC DESIGN - VESSEL SUPPORT OF LUGS ALL LUGS ARE MOUNTED OFF-CTR W.R.T PRICIPLE AIS
VERTICAL LOAD ON LUGS -- ( SIDE CONDITON ), (2) 2
*
15000 /b
LONGITUDINAL MOMENT ( ML) ML
! . +a-
1"0000 /b.in
CIRCUMFERENTIAL MOMENT (MC) MC
*8 . +a-
!""0 /b.in
2C4
H; !.G
1).1! in
2C2
E
!&.00 in
24
$
!1.00 in
22
A
!".00 in
4
!'1 !
".0) in
2
!'! !
11.50 in
4
!1 !
10.50 in
2
!! !
14.00 in
CALCULATE RADIAL LOAD (;) ;
&. ML 4 . '!
1)%49.&%9% /b
STRESS CONCENTRATION FACTOR TO BE FOLLOWED FOR WELD AT ATTACHMENT 2*9 H
RATIO OF #ELD RADIUS TO ATTA'HEMNT
!
!
STRESS 'ON'ENTRATION FA'TOR F OR TENSION + 5,!0-
1.4
!<
STRESS 'ON'ENTRATION FA'TOR FOR $ENDING +5,!0-
1.!
STRESS CONCENTRATION FACTOR TO BE FOLLOWED FOR WELD AT END OF PAD *9%
RATIO OF #ELD RADIUS TO ATTA'HEMNT
1
!
STRESS 'ON'ENTRATION FA'TOR F OR TENSION + 5,!0-
1.5
!<
STRESS 'ON'ENTRATION FA'TOR FOR $ENDING +5,!0-
1.&
SUVIDYA INSTITUTE OF TECHNOLOGY SAMPLE DESIGN CALCULATION - VESSEL SUPPORTED ON LUGS
REFERENCE
PRESSURE VESSEL DESIGN MANUAL BY D.R.MOSS - (PROCEDUCE 3-7, #2) SEISMIC STRESS ANALYSIS
COMPUTE GEOMETRIC PARAMETER A% E/ +; A%%$:=%
A% E/ +; P$
R= > (D - %& ? %') 9 2 2
2 .@
% > ( %& ? %' )
45.00
in
R= > (D - %& ) 9 2
0.%0%
in
% > %&
)&.)40
> R= 9 % > C4 9R=
4
9
4
4.
2
COMPUTE EUIVALENT
"9.5
> 2 9R=
0.&1&
9
0.&%5
0.&4
2
0.5!)
4
2
4.
9
VALUE
4
0.0&%
2) 2
4
A% E/ +; A%%$:=%
A% E/ +; P$
;+* N
0.&!!
$
;+* N
0.!%"
<
;+* M
0.!!"
;+* M
0.!")
$
<
in
0.11%
0.0)1
2)
0.5
> 4 9R=
4
> C2 93R=
in
> R= 9 %
0.1%9
2
44.%5
;+* N
0.!)"
;+* N
0.!!&
;+* M
0.1%!
;+* M
0.!&1
COMPUTING STRESS FOR A RADIAL LOAD ( AT THE EDGE OF ATTACHMENT) MEMBRANE
F0/
VALUE FROM FIGURE
;+* N
0.&!!
@-47A
N R= 9 ;
1."
;+* N
0.!%"
@-47B
N R= 9 ;
).!
;+* M
0.!!"
@-45A
M 9 ;
0.045
;+* M
0.!")
@-45B
$
<
BENDING
M 9 ;
0.015
COMPUTING RADIAL LOAD AND MOMENTS ( AT THE EDGE OF ATTACHMENT) MEMBRANE
FORCES AND MOMENT
N
(N R= 9 ;) ; 9 R=
))9.9"
/b
N
(N R= 9 ;) ;9 R=
!&0%.)9
/b
M
(M 9 ;) ;
%5&.%!
/b.in
M
(M 9 ;) ;
!51.!4
/b.in
BENDING
COMPUTING RADIAL LOAD AND MOMENTS ( AT THE EDGE OF ATTACHMENT) MEMBRANE
STRESS CALCULATION %
1&!).4"
SI
!&0%.)9
> !.N %
45)9.00
SI
%5&.%!
> !<.M
10"5&.)0
SI
N
))9.9"
N
> !.N
BENDING M
%2
SUVIDYA INSTITUTE OF TECHNOLOGY
M
!51.!4
> .!.M %2
&)1%."%
SI
SUVIDYA INSTITUTE OF TECHNOLOGY Mumbai : 400055 SAMPLE DESIGN CALCULATION - VESSEL SUPPORTED ON LUGS
REFERENCE
PRESSURE VESSEL DESIGN MANUAL BY D.R.MOSS - (PROCEDUCE 3-7, #2) SEISMIC STRESS ANALYSIS
COMPUTE GEOMETRIC PARAMETER A% E/ +; A%%$:=%
A% E/ +; P$
R= > (D - %& ? %') 9 2
45.00
in
R= > (D - %& ) 9 2
% > ( %&2 ? %'2).@
0.%0%
in
% > %&
)&.)40
> R= 9 % > C4 9R=
4
9
4
4.
0.&1&
9
0.&%5
0.5!)
4
0.0)1
COMPUTE EUIVALENT
"9.5
> 2 9R=
2
2)
2
4.
9
VALUE
4
0.0&%
2) 2
4
A% E/ +; A%%$:=%
A% E/ +; P$
;+* N
0.&!!
$
;+* N
0.!%"
<
;+* M
0.!!"
;+* M
0.!")
$
<
in
0.11%
0.&4
2
0.5
> 4 9R=
4
> C2 93R=
in
> R= 9 %
0.1%91111111
2
44.%5
;+* N
0.!)"
;+* N
0.!!&
;+* M
0.1%!
;+* M
0.!&1
COMPUTING STRESS FOR A RADIAL LOAD ( AT THE EDGE OF PAD) MEMBRANE
F0/
VALUE FROM FIGURE
;+* N
0.!)"
@-22A
N R= 9 ;
!.%
;+* N
0.!!&
@-22B
N R= 9 ;
".5
;+* M
0.1%!
@-23A
M 9 ;
0.04)
;+* M
0.!&1
@-23B
$
<
BENDING
M 9 ;
0.014
COMPUTING STRESS FOR A RADIAL LOAD ( AT THE EDGE OF PAD) MEMBRANE
FORCES AND MOMENT
N
(N R= 9 ;) ; 9 R=
1004.9) /b
N
(N R= 9 ;) ;9 R=
&1)&.%% /b
BENDING M
(M 9 ;) ;
M
(M 9 ;) ;
%%0.4% /b.in
!&4.49 /b.in
COMPUTING STRESS FOR A RADIAL LOAD ( AT THE EDGE OF PAD) MEMBRANE
STRESS CALCULATION %
&014."9
SI
&1)&.%%
> !.N %
"!!5."1
SI
%%0.4%
> !<.M
!40&".%1
SI
N
1004.9)
N
> !.N
BENDING M
%2
SUVIDYA INSTITUTE OF TECHNOLOGY Mumbai : 400055
M
!&4.49
> .!<.M %2
%&1).1&
SI
SUVIDYA INSTITUTE OF TECHNOLOGY Mumbai : 400055
SAMPLE DESIGN CALCULATION - VESSEL SUPPORTED ON LUGS REFERENCE
P*&&* V&& D&0/ M$$ < D0& R. M+&&
COMBINED STRESS ANALYSIS - LUG SUPPORT WITH REINFORCEMENT PAD (AT THE EDGE OF ATTACHMENT)
STRESS DUE TO
6
45
27
N
6
45
27
1&!).4"
1&!).4"
1&!).4"
1&!).4"
10"5&.)0
10"5&.)0
10"5&.)0
10"5&.)0
!%0.00
!%0.00
!%0.00
!%0.00
42@.5
42@.5
42@.5
42@.5
MEMBRANE N
45)9.00
45)9.00
45)9.00
45)9.00
RADIAL LOAD , ; M BENDING M
&)1%."%
&)1%."%
&)1%."%
&)1%."%
> P. R= 9 %& INTERNAL PRESSURE , P > P. R= 9 2 %&
T+%$
1&5.00
1&5.00
1&5.00
1&5.00
5324.5
5324.5
5324.5
5324.5
COMBINED STRESS ANALYSIS - LUG SUPPORT WITH REINFORCEMENT PAD (AT THE EDGE OF RF PAD)
STRESS DUE TO
6
45
27
6
&014."9
N
45
&014."9
27
&014."9
&014."9
MEMBRANE N
"!!5."1
"!!5."1
"!!5."1
"!!5."1
RADIAL LOAD , ; M
!40&".%09)%% !40&".%09)%% !40&".%09)%% !40&".%09)%%
BENDING M
%&1).1!90&!& %&1).1!90&!& %&1).1!90&!& %&1).1!90&!&
> P. R= 9 %&
!%0
!%0
!%0
!%0
27323.
27323.
27323.
27323.
INTERNAL PRESSURE , P > P. R= 9 2 %&
T+%$
1&5
1&5
1&5
1&5
4@7.6
4@7.6
4@7.6
4@7.6
NOTES 1. ALL STRESS *ALUE IN A$O*E TA$LE IS IN SI. !. INTERNAL DESIGN RESSURE 'ONSIDERED IN A$O*E 'AL'ULATION IS &.0 $ARG RESULT MA : 1.0 ALLO#A$LE LIMIT FOR 'OM$INED STRESS IN 'ASE OF SEISMI' LOADING : 1.5 . S. E ? &0000 SI ALL STRESS ARE WELL WITHIN LIMIT H ENCE DESING IS SAFE
SUVIDYA INSTITUTE OF TECHNOLOGY
SAMPLE DESIGN CALCULATION - VESSEL SUPPORTED ON LUGS REFERENCE
P*&&* V&& D&0/ M$$ < D0& R. M+&&
DESIGN OF LUG SUPPORT MEMBERS
:
HEIGHT OF LUG SUORT
!&.00 in
+$'D , SHELL OD- !
1!.00 in
<
3;M
14.50 in
%<
THI'(NESS OF $ASE LATE
%
THI'(NESS OF 'OMRESSION LATE , NOT RO*IDED ANGLE OF 'ONTA'T
1.00 in 0 in )1 37
DISTAN'E $ET#EEN '.L. OF GUSSET
15.5) in
l
LENGTH OF $ASE LATE
1%.00 in
%/
GUSSET THI'(NESS
%&
SHELL THI'(NESS
0.5 in
%'
THI'(NESS OF R.F. AD
0.5 in
NO. OF GUSSETS ER LUG
(INDL> NOTE THAT #E HA*E NOT IN'LUDED 'OMRESSION LATE AND HEN'E DIMENSION @ AND IS NOT ALI'A$LE
0.5) in
! No
SUVIDYA INSTITUTE OF TECHNOLOGY Mumbai : 400055
SAMPLE DESIGN CALCULATION - VESSEL SUPPORTED ON LUGS REFERENCE
P*&&* V&& D&0/ M$$ < D0& R. M+&&
DESIGN OF GUSSETS AND BASE PLATE
7
ASSUMED THI'(NESS OF GUSSETS
*ERTI'AL LOAD ON LUG , REFER AGE & FOR ! ANGLE OF 'ONTA'T
0.5) in 15000 /b )1 37.
a
. SIN θ
1&110.0 /b
b
. 'OS θ
%!)0.0 /b
'
b. SIN θ / 2
).&4 in
A
7. '
&.55 in!
F
>IELD STRESS OF GUSSETS
&)000 SI
Fa
ALLO#A$LE A
14400 SI
Fb
ALLO#A$LE $ENDING STRESS : 0.). F
!1)00 SI
2
7. '! )
Mb
b n A
10!!."% /b.in
fa
a n. A
1"4%.0" SI
fb
Mb 2
&.%5 in&
!%!."9 SI
INDU'ED A
$
$EAM SUORT #IDTH UNDER $ASE LATE
l4
DISTAN'E $ET#EEN T#O GUSSETS $OLT HOLE DIAMETER
) in 15.00 in 0.9" in
BENDING MOMENT IN TENSION (M<) M<
.l / 6
4!500 /b.in
UNIFORM BEARING LOAD ON BASE PLATE ()
a. l
14%.0) SI
SUVIDYA INSTITUE OF TECHNOLOGY M=<$0 - @@
SAMPLE DESIGN CALCULATION - VESSEL SUPPORTED ON LUGS REFERENCE
P*&&* V&& D&0/ M$$ < D0& R. M+&&
DESIGN OF GUSSETS AND BASE PLATE BENDING MOMENT DUE TO BEARING LOAD M<
C. l1! 10
M<
GREATER MOMENT FROM TENSION OR $EARINGG
&&0"."! /b.in
4!500 /b.in
REUIRED BASE PLATE THIC!NESS (%<) bB
+ ). Mb +b , φ - Fb-0.5
0.9&5 in
%<
RO*IDED $ASE LATE THI'(NESS
HENCE DESIGN IS SAFE
,6,6,6,
1.00 in