IMO TYPE C TANK DATA LIST ¥ð ¡¿ (©ª £í©÷£í©ø ¤§ £« £­ ¡¿ ¡À ¡¾ ¡Â ¡Ã ^C ¡É ¢º ¤º
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1. SHI CP 11¸Å 2. SHI Comment_C-Type LNG Fuel Tank »ý»ê °³¼±¾ÆÀ̵ð¾î
query[0] = [Select HTML FROM IMO_STD Where headType=0 and (sid=0 or (sid=1 and jNo=3)) Order By sid, headType, jNo, rNo]
IMO TYPE C - STANDARD SIZE and Volume Table
Head Type ; Spherical-Head

Material Selection for IMO TYPE C TANK (ÀçÁúÀ» ¼±ÅÃÇϼ¼¿ä,) Unit : MPa
MATERIALWeld Metal(¿ëÁ¢ºÀ°­µµ)Allowable Membrane Stress(f) (by IGC, IGF)
Tensile
Re (=St)		Yield
Rm (=Sy)		Div.1
S		f = Min(Rm/A, Re/B) f (Mpa) A B
A1106(Hign Mn) 660400 N/A f = Min(660/3.5, 400/1.5) 188.6 3.51.5
A553-TYPE1 690420187.0f = Min(690/3.0, 420/1.5) 230.0 3.01.5
LT-FH32(TM) 440~570315 N/A f = Min(440/3.0, 315/1.5) 146.67
LT-FH36(TM) 490~630355 N/A f = Min(490/3.0, 355/1.5) 163.33
SA240-304 515205138f = Min(515/3.5, 205/1.5) 136.66 3.51.5
SA240-304L 485170115f = Min(485/3.5, 170/1.5) 113.33
SA240-316 515205138f = Min(515/3.5, 205/1.5) 136.66
SA240-316L 485170115f = Min(485/3.5, 170/1.5) 113.33
[Allowable Stress °è»ê ½Ä Âü°íÇϱâ]
Design Data :
Class SocietyLiquidMaterialHead TypeDesign Pressure
Po, MARVS(bar.g)		Design External
Pressure MAEP(bar.g)		Corrosion
Allowance
CA (mm)		BOR Limit
(%/day)		Insulation Thk.
tInsu (mm)		Vacuum Ring
Pitch (mm)		Weld Metal
Tensile Stress
Rm (MPa)		Weld Metal
Yield Stress
Re (MPa)		Allowable Stress
f=Min(Rm/A, Re/B)
f = Min(660/3.5, 400/1.5)		REMARK
KR (Çѱ¹¼±±Þ)LNGA1106(Hign Mn)[HH] Hemi-Spherical Head4.00.450.750.354003500660400188.6
No.DescriptionSymbolTNO-1TNO-2TNO-3TNO-4TNO-5TNO-6TNO-7TNO-8TNO-9TNO-10TNO-11TNO-12TNO-13TNO-14TNO-15TNO-16TNO-17TNO-18Unit
1TANK In-DiameterDi =4000480058006000750080008000825085009000100009200110001125012000125001200012500mm
2Hemi-Spherical Depthz = 0.5*D200024002900300037504000400041254250450050004600550056256000625060006250mm
3Cylinder Straight Length (TL to TL : 10mm ´ÜÀ§¿Ã¸²)TL =132501615015060225301877019540245102724029580223001626031480242402772025160222302737024270mm
4Total Length ( Head End to End ), L = 2*z +TLL =172502095020860285302627027540325103549038080313002626040680352403897037160347303937036770mm
5Design Liquid LevelDLL =33273993481649946226664066516862707274718270765491229338994810347995510355mm
6
7Gross Volume, Vnom = Vcyl+VheadVnom =20035050075010501250150017502000180018002500300035003750375040004000m©ø
8Net Volume ( Vnet = 0.98*Vnom)Vnet =179.0313.3447.5671.3939.81118.81342.51566.31790.01611.01611.02237.52685.03132.53356.33356.33580.03580.00.98*Vnom
9Vhead = ¥ðD©ø / 6Vhead =33.557.9102.2113.1220.9268.1268.1294.0321.6381.7523.6407.7696.9745.5904.81022.7904.81022.7m©ø
10Vcyl = ¥ðD©÷ / 4 * LVcyl =166.5292.1397.8636.9829.1981.91231.91456.01678.41418.31276.42092.32303.12754.52845.22727.33095.22977.3m©ø
11Storage Ratio = Vnet / Vnom * 100Sratio =89.589.589.589.589.589.589.589.589.589.589.589.589.589.589.589.589.589.5%
12Static Head Pressure, Ps = ¥ñgh(h=DLL)Ps =0.01630.01960.02360.02450.03050.03260.03260.03360.03470.03660.04060.03750.04470.04580.04880.05070.04880.0508MPa
13[ASME] Total Design Pressure, P = Po+Ps P_ASME =0.41630.41960.42360.42450.43050.43260.43260.43360.43470.43660.44060.43750.44470.44580.44880.45070.44880.4508MPa
14[ASME] Cylinder Shell Thicknesst_Cyl = 5.176.17.277.519.329.949.9410.2510.5611.1912.4511.4413.7414.0715.0515.7115.0515.71mm
15[ASME] Hemi-Spherical Head Thicknesst_HHead = 2.963.424.014.135.035.345.345.495.655.966.596.097.247.47.898.227.898.22mm
16[ASME] Cylinder Shell Thk (Vacuum Ring Pitch: 3.5m )t_CylPe = 10.011.012.012.514.014.514.514.515.015.016.015.517.017.017.518.017.518.0mm
17[ASME] Allowable External Pressure(Shell), Pe < Pa_CylPa_Cyl = 0.05250.05190.0490.05190.0510.05070.05070.04810.05030.04730.04860.04970.050.04850.04760.04830.04760.0483MPa
18[ASME] Allowable External Pressure(Head ), Pe < Pa_HeadPa_Head = 0.09980.08290.06980.06890.06880.06880.06880.06890.06890.06890.06880.06880.06880.06890.06890.06890.06890.0689MPa
19[Class] Dynamic Pressure(Ship Motion) Pgd(max) =0.13630.13960.14360.12450.13050.13260.13260.13360.13470.13660.12060.13750.12470.12580.12880.13070.12880.1308MPa
20[Class] Total Design Pressure, P = Po+Pgd(max)P_Class =0.53630.53960.54360.52450.53050.53260.53260.53360.53470.53660.52060.53750.52470.52580.52880.53070.52880.5308MPa
21[Class] Cylinder Shell Thicknesst_Cyl = 6.457.639.129.1111.3212.0712.0712.4412.8213.5814.5713.8816.0816.4617.618.3717.618.37mm
22[Class] Hemi-Spherical Head Thicknesst_HHead = 3.594.184.934.926.036.46.46.596.787.157.657.318.48.599.169.559.169.55mm
23[LR] Cylinder Shell Thk (Vacuum Ring: 3.5m )t_CylPe = 10.011.512.513.014.515.015.015.515.516.017.016.018.018.019.019.019.019.0mm
24[DNV-GL] Hemi-Spherical Head Thk (For Vacuum )
Pc=2.4*Et*(t-c/Ro)©÷/ 3.7 [DNV-GL Pt4-Ch7]		t_HeadPe = 3.153.624.224.345.245.545.545.695.846.146.746.267.347.497.948.237.948.23mm
25[LR] Allowable External Pressure (Shell DNV-GL, LR, GV)Pcr = 0.04730.0530.04940.05210.05050.04930.04930.05130.04880.04910.04940.04710.05010.04790.04960.0470.04960.047MPa
26[NK] Allowable External Pressure (ClassNk equal ASME Div2. )Pa_div2 = 0.02040.02270.02760.02630.03580.04030.04030.03860.04080.04540.04640.0440.05140.04980.05660.05710.05660.0571MPa
27PUF Insulation VolumeVinsu =98.05140.11166.36233.58265.87296.18348.81391.64432.04376.02349.93497.49512.64578.62587.66571.84622.2605.01m©ø
28Min. Thickness for Internal Pressure
¡¡tMinPo(DNV-GL) = 3+Di/1500+CA		tMinPo =6.426.957.627.758.759.089.089.259.429.7510.429.8811.0811.2511.7512.0811.7512.08mm
29Min. Thickness for Internal Pressure, (IGC_LR_ASME)tMinBase =3.03.03.03.03.03.03.03.03.03.03.03.03.03.03.03.03.03.0mm
30Min. Thickness for External Pressure, tMinPe = Do/850
ASME SECTION II, PART D - SUBPART 3 (METRIC), FIG. G		tMinPe = 5.466.47.577.819.5710.1610.1610.4610.7511.3412.5111.5713.6913.9914.8715.4614.8715.46mm
31
32[Calc] Shell Thickness tCyl =6.457.639.129.1111.3212.0712.0712.4412.8213.5814.5713.8816.0816.4617.6018.3717.6018.37mm
33[Calc] Head Thickness tHead =6.426.957.627.819.5710.1610.1610.4610.7511.3412.5111.5713.6913.9914.8715.4614.8715.46mm
34Nominal Shell Thickness (º¥µù¸¶ÁøÆ÷ÇÔ)tu_Cyl =7.008.009.509.5012.0013.0013.0013.0013.5014.5015.5014.5017.0017.0018.5019.0018.5019.00mm
35Nominal Head Thickness (¼ºÇü¸¶ÁøÆ÷ÇÔ)tu_Head =7.007.508.508.5010.5011.0011.0011.5011.5012.0013.5012.5014.5015.0015.5016.5015.5016.50mm
36Shell Thickness Margin, tMarginCyl = tuCyl - tCyltMarginCyl =0.550.370.380.390.680.930.930.560.680.920.930.620.920.540.900.630.900.63mm
37Head Thickness Margin, tMarginHead = tuHead - tHeadtMarginHead =0.580.550.880.690.930.840.841.040.750.660.990.930.811.010.631.040.631.04mm
38
39
40Shell Segment ¼ö·®sQty =4.05.05.07.06.06.08.09.09.07.05.010.08.09.08.07.09.08.0sheets
41Shell Segment WidthsWidth =3337.53250.03032.03232.863145.03273.333076.253037.783297.783200.03272.03158.03042.53091.113157.53190.03052.223046.25mm
42Shell Cutting Plan Length, @SegmentWidth * sQty=cpLength =@3337.5x4 EA =
13350		@3250.0x5 EA =
16250		@3032.0x5 EA =
15160		@3232.86x7 EA =
22630		@3145.0x6 EA =
18870		@3273.33x6 EA =
19640		@3076.25x8 EA =
24610		@3037.78x9 EA =
27340		@3297.78x9 EA =
29680		@3200.0x7 EA =
22400		@3272.0x5 EA =
16360		@3158.0x10 EA =
31580		@3042.5x8 EA =
24340		@3091.11x9 EA =
27820		@3157.5x8 EA =
25260		@3190.0x7 EA =
22330		@3052.22x9 EA =
27470		@3046.25x8 EA =
24370		mm
43Actual inertia moment of Saddle RingIg_Saddle =93387.099304.0163003.0163696.0380938.0397566.0397566.0611519.0622941.0646530.01049092.01010293.01436487.01603172.01678416.01970352.01678416.01970352.0cm4
44Saddle Ring (Qty)
Saddle Ring (Size)		SRqty =
SIZE =		2 S/Rings
T600x22+300x22		2 S/Rings
T600x22+300x22		2 S/Rings
T700x23+300x23		2 S/Rings
T700x23+300x23		2 S/Rings
T900x25+350x25		2 S/Rings
T900x25+350x25		2 S/Rings
T900x25+350x25		2 S/Rings
T1000x30+400x30		2 S/Rings
T1000x30+400x30		2 S/Rings
T1000x30+400x30		2 S/Rings
T1200x30+400x30		2 S/Rings
T1200x30+400x30		2 S/Rings
T1300x32+430x32		2 S/Rings
T1350x32+450x32		2 S/Rings
T1350x32+450x32		2 S/Rings
T1400x34+470x34		2 S/Rings
T1350x32+450x32		2 S/Rings
T1400x34+470x34		Rings
45Vacuum Ring (Qty)
Vacuum Ring (Size)		VRqty =
SIZE = 		5 V/Rings
FB150x20		6 V/Rings
FB200x20		5 V/Rings
FB230x25		8 V/Rings
FB230x25		7 V/Rings
T300x15+100x15		7 V/Rings
T300x15+100x15		9 V/Rings
T300x15+100x15		9 V/Rings
T300x15+100x15		10 V/Rings
T300x15+100x15		8 V/Rings
T300x15+100x15		6 V/Rings
T300x15+100x15		11 V/Rings
T300x15+100x15		8 V/Rings
T350x15+200x15		10 V/Rings
T350x15+200x15		9 V/Rings
T350x15+200x15		8 V/Rings
T400x20+250x15		9 V/Rings
T350x15+200x15		8 V/Rings
T400x20+250x15		Rings
46Vacuum Ring @pitchVR_pitch =@2810¡¿4
+2¡¿1005		@2830¡¿5
+2¡¿1000		@3270¡¿4
+2¡¿990		@2930¡¿7
+2¡¿1010		@2800¡¿6
+2¡¿985		@2920¡¿6
+2¡¿1010		@2810¡¿8
+2¡¿1015		@3160¡¿8
+2¡¿980		@3060¡¿9
+2¡¿1020		@2900¡¿7
+2¡¿1000		@2850¡¿5
+2¡¿1005		@2950¡¿10
+2¡¿990		@3180¡¿7
+2¡¿990		@2860¡¿9
+2¡¿990		@2900¡¿8
+2¡¿980		@2890¡¿7
+2¡¿1000		@3170¡¿8
+2¡¿1005		@3180¡¿7
+2¡¿1005		mm
47Required inertia moment of Stiff. Ring
¡¡Ix = 0.18 * D * Pe_MPa * L * Ds©÷ / E ¡¿10E-5		Ix = 1018.41760.63108.13440.26725.18164.68164.68952.39792.611627.715948.512418.421231.422708.627568.431158.427568.431158.4cm4
48Actual inertia moment of Vacuum RingIg =1118.62637.85002.45031.813654.914459.414459.414537.614925.715676.316522.215733.233953.834086.336106.758209.436106.758209.4cm4
49 Ix / Ig < 1.0 OK0.90.70.60.70.50.60.60.60.70.71.00.80.60.70.80.50.80.5
50Weight Summary
51¡¡1) Shell WeightwShell =11.52318.03223.60835.01945.78755.45668.07377.33789.40977.71968.686109.598118.822137.911145.582138.312157.544150.092ton
52¡¡2) Head WeightwHead =2.7624.2617.0517.54714.56617.36217.36219.30320.49123.97133.29326.09243.26946.81955.04463.5855.04463.58ton
53¡¡3) Saddle Rins(Inside)WsaddleRing =4.6535.7728.0568.47714.21615.63515.63520.40621.15122.66328.10325.55535.26537.31441.17646.73941.17646.739ton
54¡¡4) Vacuum Rings(Inside)WvacuumRing =1.6182.7483.7466.5097.257.89410.09211.0412.49510.6549.30215.08117.7422.68222.5228.59622.5228.596ton
55¡¡5) Swash Bulk Head and AttachmentWbulkHead =5.7997.199.22110.02214.15315.99515.99516.61617.37818.95822.05719.525.58326.38229.8131.73229.8131.732ton
56¡¡6) Saddle(CS/Bottom)Wsaddle_CS =3.1944.9537.1997.79812.10913.88313.88314.95416.02518.56125.05919.63634.75137.74948.87957.1848.87957.18ton
57¡¡7) Accessory(CS/PlatForm)Waccy_CS =ton
58¡¡8) PUF ( Insulation ) Winsu = Vinsu * Density [ 40 kg/m©ø]Winsu =3.9225.6046.6549.34310.63511.84713.95215.66617.28215.04113.99719.920.50623.14523.50622.87424.88824.2Ton
59Empty Steel Weight(1~7)Wempty =33.47148.5665.53584.715118.716138.072154.992175.322194.231187.567200.497235.362295.936332.002366.517389.013379.861402.119Ton
60at Operating ConditionWoper =89.5156.65223.75335.65469.9559.4671.25783.15895.0805.5805.51118.751342.51566.251678.151678.151790.01790.0Ton
61at Hydrostatic-test ConditionWtest =200.0350.0500.0750.01050.01250.01500.01750.02000.01800.01800.02500.03000.03500.03750.03750.04000.04000.0Ton
62Dynamic Pressure due to Ship mortion)PgdMax =bar.g
63Surface Area Calculation for Net Weight
64Shell Plate Surface Area (OD ±âÁØ)suf_Shell =m2
65Head Plate Surface Area (OD ±âÁØ)suf_Head =m2
66
67
68
69Surface Area TotalSAream2
Weight Summary[Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ][Á¶ ȸ]Unit
[TNO-4] Tank Size : ©ª6000 x 22530 (L = 28530 mm ) Weight Summary
4. Tank Capacity : 750 £í©ø
¡¡Head Type ; [HH] Spherical-Head		 Tank Size : ©ª6000 x 22530 (L = 28530 mm )Plate ¹ßÁÖÆø(Max) : 3400 mm
Head Plate Surface Area(Ç¥¸éÀû) : 113.097 m©÷		Head Type ;
[HH] Spherical-Head
No.NameMATERIALSIZE
t x W X L (mm)		Quantity
(SHT)		Weight
(kg)		Ç¥¸éÀû
£í©÷/ pcs		RemarkSKETCH
1Shell Plate (Center Part ÀϹݺÎ)A1106(Hign Mn)9.503,2339,4431022,76730.52922±æÀ̺ÐÇÒ: @3232.86¡¿7 shts = 22630 > 22530 mm

2Shell Plate (Saddle Support Part)A1106(Hign Mn)11.503,2339,443411,02430.52922¿øÁÖºÐÇÒ: L=¥ð¡¿©ª6011.5 = 18886mm / 2ºÐÇÒ= 9443mm
3Shell Plate (Dome Reinforcement)A1106(Hign Mn)11.503,4004,00011,22813.60000Dome Part
4[HH] Hemi-Head Plate (Side)A1106(Hign Mn)8.502,3602,002164,43666.47695Angle = (#4WP: 36¨¬, CP : 38.182¨¬) [deg]
5[HH] Hemi-Head Plate (Center)A1106(Hign Mn)8.502,8315,66343,11146.62039Angle = (#4WP: 36¨¬ + 54¨¬ : #5WP,CP) = 90¨¬ [deg]
60000(Head Plate Ç¥¸éÀû)Surface Area : 113.097 m©÷
7Wear Plate and ÁöÁö±Ý±¸(Fix / Sliding)A1106(Hign Mn)11.501,2009,47922,05411.37480For Saddle Support
800008
9SWASH Bulk Head ( Baffle Plate - Hole Áß·® Æ÷ÇÔ )A1106(Hign Mn)10.003,8225,70023,42021.78540Baffle Plate Net Surface Area = 18.64256 £í©÷(Hole ¸éÀûÆ÷ÇÔ)
10Bulk Head (Baffle Stiffener Plate)A1106(Hign Mn)15.001,2009,49522,68311.3940010
11Bulk Head (U-BAND Spring : Ãæ°Ý¿ÏÈ­±Ý±¸)A1106(Hign Mn)25.00400660361,8650.26400
12Vacuum Ring (FB230x25)A1106(Hign Mn)25.00230075,7274.16900A = ¥ð¡¿ (OD 6000©÷- ID : 5540©÷) / 4 = 4.169 m©÷
13Saddle Ring (Rib)A1106(Hign Mn)23.00200677327820.13540
140000
15Saddle Ring (Web) T700x23+300x23A1106(Hign Mn)23.00677024,08811.32100A = ¥ð¡¿ (OD 6000©÷- ID : 4646©÷) / 4 = 11.321 m©÷
16Saddle Ring (Flange) T700x23+300x23A1106(Hign Mn)23.0030016,72321,8125.01690L = ¥ð ¡¿ (©ª5323 ) = 16723 mm
17Saddle Ring (Rib Plate)A1106(Hign Mn)23.00138654325230.09058
180000
190000
200000
21Saddle Support (Base Plate)DH32 OR A516-6035.008407,80023,6006.55200Base Plate : t35 mm
22Saddle Support (Rib & Etc)DH32 OR A516-6029.003,0486,05014,19818.44040Rib Plate Thick. J=29.0 (mm) , tg=29.0 (mm)
230000
240000
[ONLY] Shell and head Plate Quentity35 sht
Total Weight73,319kg

Vacuuring Ring (Stiffener) Size : FB230x25¡¡
Tank OD (Da) = 6019 mm, Shell Plate: t9.5 x W:262.6mm W=1.1*SQRT(D*t)
( IxReqd = 3440.2 < 5031.8 = IxActual ) OK
MembbdA=b*dYA*Yh=ABS(y-C1)A*h©÷Ig = b*d©ø/12SKETCH
No.(cm)(cm)(cm©÷)(cm)(cm©ø)(cm)(cm©ù)(cm©ù)
22.523.057.512.45715.883.62755.172534.79
126.260.9524.950.47511.858.351739.991.88
SUM¢² = 82.45 727.73 2495.162536.67
C1 = ¢²(AY) / ¢²(A) (¹«°ÔÁ᫐ À§Ä¡) C1 = 8.826cm ¹«°ÔÁ߽ɿ¡¼­ FLANGE ÇÏ´Ü ±îÁö ¶³¾îÁø °Å¸®
C2 = H - C1 C2 = 15.124cm ¹«°ÔÁ߽ɿ¡¼­ FLANGE »ó´Ü ±îÁö ¶³¾îÁø °Å¸®
¢²(A) = Sum of Section Area (´Ü¸éÀû) ¢²(A)=82.45cm©÷ ´Ü¸éÀû (ºø±ÝÀüü)
Ix = ¢²(Ah©÷) + ¢²(Ig)Ix =5031.83cm©ùXÃà ´Ü¸é2Â÷¸ð¸àÆ® (Moment of inertia)
Zx = Ix / Max(C1, C2) Zx = 332.71cm©øXÃà ´Ü¸é°è¼ö(Section Modulus)
Iy = ¢²(Iy)Iy = 1463.54cm©ùYÃà ´Ü¸é2Â÷¸ð¸àÆ®(Moment of inertia)
Zy = ³ªÁß¿¡ ¹«°ÔÁ᫐ À§Ä¡°¡ Áß¾Ó ?? Zy = 96.77cm©øYÃà ´Ü¸é°è¼ö (Section Modulus)
Rx = SQRT( Ix / A ) Ry = 7.81cm XÃà ȸÀü¹Ý°æ
Ry = SQRT( Iy / A ) Ry = 4.21cm YÃà ȸÀü¹Ý°æ
Ring ´Ü¸éÀû (Shell Á¦¿Ü)ARing = 57.5cm©÷ Ring ´Ü¸éÀû (Shell Á¦¿Ü)
Ring ¿øÁÖ±æÀÌ Leng = 10.0mRing ±æÀÌ(m)
Ring ´ÜÀ§Áß·® (kg/m), WTm = 45.14kg/m´ÜÀ§Áß·®(kg/m)
Ring Weight, Shell(1) Á¦¿Ü Áß·®WT = 451.38kgRing 1 PCS Áß·®(kg)
Saddle Ring Size : T700x23+300x23¡¡
Tank OD (Da) = 6019 mm, Shell Plate: t9.5 x W:262.6mm W=1.1*SQRT(D*t)
( IxReqd = 3440.2 < 163695.5 = IxSadAct ) OK
MembbdA=b*dYA*Yh=ABS(y-C1)A*h©÷Ig = b*d©ø/12SKETCH
No.(cm)(cm)(cm©÷)(cm)(cm©ø)(cm)(cm©ù)(cm©ù)
330.02.369.069.84816.228.7657060.5930.42
22.367.7155.7134.85418.716.246068.859472.01
Shell26.260.9524.950.47511.8540.5741061.781.88
SUM¢² = 249.66 10246.76 104191.1759504.3
C1 = ¢²(AY) / ¢²(A) (¹«°ÔÁ᫐ À§Ä¡) C1 = 41.043cm ¹«°ÔÁ߽ɿ¡¼­ FLANGE ÇÏ´Ü ±îÁö ¶³¾îÁø °Å¸®
C2 = H - C1 C2 = 29.907cm ¹«°ÔÁ߽ɿ¡¼­ FLANGE »ó´Ü ±îÁö ¶³¾îÁø °Å¸®
¢²(A) = Sum of Section Area (´Ü¸éÀû) ¢²(A)=249.66cm©÷ ´Ü¸éÀû (ºø±ÝÀüü)
Ix = ¢²(Ah©÷) + ¢²(Ig)Ix =163695.47cm©ùXÃà ´Ü¸é2Â÷¸ð¸àÆ® (Moment of inertia)
Zx = Ix / Max(C1, C2) Zx = 3988.39cm©øXÃà ´Ü¸é°è¼ö(Section Modulus)
Iy = ¢²(Iy)Iy = 6677.24cm©ùYÃà ´Ü¸é2Â÷¸ð¸àÆ®(Moment of inertia)
Zy = ³ªÁß¿¡ ¹«°ÔÁ᫐ À§Ä¡°¡ Áß¾Ó ?? Zy = 162.69cm©øYÃà ´Ü¸é°è¼ö (Section Modulus)
Rx = SQRT( Ix / A ) Ry = 25.61cm XÃà ȸÀü¹Ý°æ
Ry = SQRT( Iy / A ) Ry = 5.17cm YÃà ȸÀü¹Ý°æ
Ring ´Ü¸éÀû (Shell Á¦¿Ü)ARing = 224.71cm©÷ Ring ´Ü¸éÀû (Shell Á¦¿Ü)
Ring ¿øÁÖ±æÀÌ Leng = 10.0mRing ±æÀÌ(m)
Ring ´ÜÀ§Áß·® (kg/m), WTm = 176.4kg/m´ÜÀ§Áß·®(kg/m)
Ring Weight, Shell(1) Á¦¿Ü Áß·®WT = 1763.97kgRing 1 PCS Áß·®(kg)
query[0] = [Select sid, headType, jNo, rNo, DESCR, SYMBOL, VALUE, UNIT FROM IMO_STD Where sid=2 and headType=0 and jNo=3 Order By sid, jNo, rNo]
getResult[2] = [
¹øÈ£0
sid		1
headType		2
jNo		3
rNo		4
DESCR		5
SYMBOL		6
VALUE		7
UNIT
12031TANK In-DiameterDi =6000.0mm
22032Hemi-Spherical Depthz = 0.5*D3000.0mm
32033Cylinder Straight Length (TL to TL : 10mm ´ÜÀ§¿Ã¸²)TL =22530.0mm
42034Total Length ( Head End to End ), L = 2*z +TLL =28530.0mm
52035Design Liquid LevelDLL =4994.0mm
62036  0.0 
72037Gross Volume, Vnom = Vcyl+VheadVnom =750.0m©ø
82038Net Volume ( Vnet = 0.98*Vnom)Vnet =671.30.98*Vnom
92039Vhead = ¥ðD©ø / 6Vhead =113.1m©ø
1020310Vcyl = ¥ðD©÷ / 4 * LVcyl =636.9m©ø
1120311Storage Ratio = Vnet / Vnom * 100Sratio =89.5%
1220312Static Head Pressure, Ps = ¥ñgh(h=DLL)Ps =0.0245MPa
1320313[ASME] Total Design Pressure, P = Po+Ps P_ASME =0.4245MPa
1420314[ASME] Cylinder Shell Thicknesst_Cyl = 7.51mm
1520315[ASME] Hemi-Spherical Head Thicknesst_HHead = 4.13mm
1620316[ASME] Cylinder Shell Thk (Vacuum Ring Pitch: 3.5m )t_CylPe = 12.5mm
1720317[ASME] Allowable External Pressure(Shell), Pe < Pa_CylPa_Cyl = 0.0519MPa
1820318[ASME] Allowable External Pressure(Head ), Pe < Pa_HeadPa_Head = 0.0689MPa
1920319[Class] Dynamic Pressure(Ship Motion) Pgd(max) =0.1245MPa
2020320[Class] Total Design Pressure, P = Po+Pgd(max)P_Class =0.5245MPa
2120321[Class] Cylinder Shell Thicknesst_Cyl = 9.11mm
2220322[Class] Hemi-Spherical Head Thicknesst_HHead = 4.92mm
2320323[LR] Cylinder Shell Thk (Vacuum Ring: 3.5m )t_CylPe = 13.0mm
2420324[DNV-GL] Hemi-Spherical Head Thk (For Vacuum )
Pc=2.4*Et*(t-c/Ro)©÷/ 3.7 [DNV-GL Pt4-Ch7]		t_HeadPe = 4.34mm
2520325[LR] Allowable External Pressure (Shell DNV-GL, LR, GV)Pcr = 0.0521MPa
2620326[NK] Allowable External Pressure (ClassNk equal ASME Div2. )Pa_div2 = 0.0263MPa
2720327PUF Insulation VolumeVinsu =233.58m©ø
2820328Min. Thickness for Internal Pressure
¡¡tMinPo(DNV-GL) = 3+Di/1500+CA		tMinPo =7.75mm
2920329Min. Thickness for Internal Pressure, (IGC_LR_ASME)tMinBase =3.0mm
3020330Min. Thickness for External Pressure, tMinPe = Do/850
ASME SECTION II, PART D - SUBPART 3 (METRIC), FIG. G		tMinPe = 7.81mm
3120331  0.0 
3220332[Calc] Shell Thickness tCyl =9.11mm
3320333[Calc] Head Thickness tHead =7.81mm
3420334Nominal Shell Thickness (º¥µù¸¶ÁøÆ÷ÇÔ)tu_Cyl =9.5mm
3520335Nominal Head Thickness (¼ºÇü¸¶ÁøÆ÷ÇÔ)tu_Head =8.5mm
3620336Shell Thickness Margin, tMarginCyl = tuCyl - tCyltMarginCyl =0.39mm
3720337Head Thickness Margin, tMarginHead = tuHead - tHeadtMarginHead =0.69mm
3820338  0.0 
3920339  0.0 
4020340Shell Segment ¼ö·®sQty =7.0sheets
4120341Shell Segment WidthsWidth =3232.86mm
4220342Shell Cutting Plan Length, @SegmentWidth * sQty=cpLength =0.0mm
4320343Actual inertia moment of Saddle RingIg_Saddle =163696.0cm4
4420344Saddle Ring (Qty)
Saddle Ring (Size)		SRqty =
SIZE =		0.0Rings
4520345Vacuum Ring (Qty)
Vacuum Ring (Size)		VRqty =
SIZE = 		7.0Rings
4620346Vacuum Ring @pitchVR_pitch =2930.0mm
4720347Required inertia moment of Stiff. Ring
¡¡Ix = 0.18 * D * Pe_MPa * L * Ds©÷ / E ¡¿10E-5		Ix = 3440.2cm4
4820348Actual inertia moment of Vacuum RingIg =5031.8cm4
4920349 Ix / Ig < 1.0 OK 0.7 
5020350Weight Summary 0.0 
5120351¡¡1) Shell WeightwShell =35.019ton
5220352¡¡2) Head WeightwHead =7.547ton
5320353¡¡3) Saddle Rins(Inside)WsaddleRing =8.477ton
5420354¡¡4) Vacuum Rings(Inside)WvacuumRing =6.509ton
5520355¡¡5) Swash Bulk Head and AttachmentWbulkHead =10.022ton
5620356¡¡6) Saddle(CS/Bottom)Wsaddle_CS =7.798ton
5720357¡¡7) Accessory(CS/PlatForm)Waccy_CS =0.0ton
5820358¡¡8) PUF ( Insulation ) Winsu = Vinsu * Density [ 40 kg/m©ø]Winsu =9.343Ton
5920359Empty Steel Weight(1~7)Wempty =84.715Ton
6020360at Operating ConditionWoper =335.65Ton
6120361at Hydrostatic-test ConditionWtest =750.0Ton
6220362Dynamic Pressure due to Ship mortion)PgdMax =0.0bar.g
6320363Surface Area Calculation for Net Weight 0.0 
6420364Shell Plate Surface Area (OD ±âÁØ)suf_Shell =0.0m2
6520365Head Plate Surface Area (OD ±âÁØ)suf_Head =0.0m2
6620366  0.0 
6720367  0.0 
6820368  0.0 
6920369Surface Area TotalSArea0.0m2
]

¸ÅÅ©·ÎÆ÷ÇÔ_SHI_SN2430_D12m_°ßÀû°­µµ°è»ê (°ßÀû¿ø°¡).xlsm - [PV4th SADDLES] Sheet Âü°í

Pressure Vessel Design Manulal (4th edition) / Table 4-27 Large diameter saddle supports
Vessel DIA.BASE PLATE LENGTHSADDLE HEIGHTBolt Hole Dia.INNER RIB PITCH BASE PLATE WidthBOLT PITCHSaddle BTM WidthSaddle Top WidthWear Plate Width Rib Plate µÎ²²RIB ¼ö·®BOLT ¼ö·®Base Plate µÎ²²Gusset Plate µÎ²² Wear Plate µÎ²²Approx wt for 2 Saddles (kg)Saddle RIB Height(Center)
DIA(ft)DIA(mm)ABDEFGGB=F-50.8GTHJNntbtgtwwth=B-D/2
1442673937 2337 35 483 457 229 406 711 864 19 8825 19 19 3175203.2
1545724343 2540 35 533 457 229 406 711 864 19 8825 19 19 3629254
1648774648 2743 35 457 457 235 406 711 864 25 10829 22 22 4536304.8
1751824902 2896 41 483 533 273 483 787 940 25 10832 25 25 4990304.8
1854865258 3099 41 432 533 279 483 787 940 29 121235 29 25 5443355.6
2060965258 3353 41 432 533 279 483 787 940 29 121235 29 29 7031304.8
2267065563 3658 48 457 610 318 559 864 1016 32 121238 32 32 8618304.8
2473156121 3962 48 432 610 318 559 864 1016 32 141238 32 32 9979304.8
2679256477 4369 48 457 610 318 559 864 1016 35 141241 32 32 11793406.4
2885346985 4674 54 432 686 356 635 940 1092 35 161641 35 32 14061406.4
3091447823 4978 54 483 686 362 635 940 1092 38 161644 38 35 16783406.4
3297548331 5283 54 457 686 362 635 940 1092 38 181644 38 35 19958406.4
34103638788 5588 60 483 787 406 737 1041 1194 44 181651 44 35 24494406.4
36109739246 5842 60 457 787 406 737 1041 1194 44 201651 44 35 29937355.6
38115829754 6198 60 483 813 413 762 1067 1219 51 201657 51 38 36287406.4
401219210262 6502 67 508 864 451 813 1118 1270 51 202064 51 38 45359406.4
Notes: [SADDLE STANDARD DWG(pdf)]
¡¡1. All dimensions are in inches unless noted otherwise
¡¡2. All saddles in this size range must be fully designed. The dimensions shown are a starting place or to be used for estimating only!
¡¡3. Assume that anchor bolts diameter is d - 0.125, where d is the diameter of the hole. Assume that slots for sliding saddle are 6 d long.
¡¡4. N = Number of ribs
¡¡5. n = Number of anchor bolts

¸ÅÅ©·ÎÆ÷ÇÔ_SHI_SN2430_D12m_°ßÀû°­µµ°è»ê (°ßÀû¿ø°¡).xlsm - [PV4th SADDLES] Sheet Âü°í





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