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Ãâó1 : http://kor.pe.kr/util/4/charmap2.htm Ãâó2 : HTML¿¡¼­ ¼ö½Ä Ç¥ÇöÇϱâ
H-BEAM (´Ü¸é¼º´É) DATA SECTION PROPERTY
Table Name : DWT_DATA
Field Name : shInfo
 MYURL = [http://apitank.co.kr/api650]
RequestURL = [http://apitank.co.kr/api650/dwtListNew.jsp]
URL = [http://apitank.co.kr/]
B getResult[1] = [null]
B getResult[3] = [null]
B getResult[4] = [null]
C getResult[2] = [com.mysql.jdbc.exceptions.jdbc4.MySQLSyntaxErrorException: Table 'apitank.COST_KTT_TANK' doesn't exist]
A getResult[0] = [null]
B getResult[1] = [null]
B getResult[3] = [null]
B getResult[4] = [null]
C getResult[2] = [com.mysql.jdbc.exceptions.jdbc4.MySQLSyntaxErrorException: Table 'apitank.COST_KTT_TANK' doesn't exist]
query[2] = [Select A.tid, '' as calcOutput, shPlate0, shPlate1, shPlate2, F1,F2,F3,F4,F5,F6,F7,F8,F9,F10,F11,F12,F13,F14,F15,F16,F17,F18,ttid,uid,uName From `DWT_PJT` A Where A.pid=1 AND A.tid=10 ]
A getResult[0] = [tid,calcOutput,shPlate0,shPlate1,shPlate2,F1,F2,F3,F4,F5,F6,F7,F8,F9,F10,F11,F12,F13,F14,F15,F16,F17,F18,ttid,uid,uName]
B getResult[1] = [4,12,-1,-1,-1,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,4,12,12]
DB Á¶È¸ dwtListNew.jsp?mode=0 (Á¶È¸)DB ¼öÁ¤ dwtListNew.jsp?mode=1 (¼öÁ¤)DB µî·Ï dwtCalc.jsp?mode=1 (¼öÁ¤)sksNew_SNI_1726.jsp (CAP2)sksNew_VPDM.jspsksNew_Knuckle.jsp
query[1] = [Select pid,tid,F1,designData,shInfo,BACR,SeData,WtData,XtData,mAry0,mAry1,mAry2,mAry3,mAry4, mAry5,mAry6,regDate, ttid From `DWT_DATA` B Where pid=1 AND tid between 10 AND 10 Order By tid ]
getResult[0] =[pid,tid,F1,designData,shInfo,BACR,SeData,WtData,XtData,mAry0,mAry1,mAry2,mAry3,mAry4,mAry5,mAry6,regDate,ttidgetResult[1] =[4,4,12,12,12,12,12,12,12,12,12,12,12,12,12,12,93,4]
getResult[3] = [INT,INT,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,DATETIME,INT]
getResult[2] = [
pidtidF1designDatashInfoBACRSeDataWtDataXtDatamAry0mAry1mAry2mAry3mAry4mAry5mAry6regDatettid
110ÇÑÈ­ AMMONIAÇÑÈ­ AMMONIA | API 620 | SINGLE | OUTER | AMMONIA | R | 6 | 0, 471.2, 351.123, Wb, Wp, Wi, Wc, 614.3, 19.4, 0, 0, 0, 0 | 0, 11.017, 31.750, Xf, 0, 0, Xc 0, Xnr, Xnb, 0, 0, 0 | S5, II, D, 29520, 1, 0, 1.0, 0.220, 0.000, 0.000, 0.000, 0.667, 1.5, 1.5, 1.0, Af, ds, SDS, SD1, Ai, Ac, Av, S22 | 40000.0 | 32800.0 | 1.0 | 1.5 | 29520.0 | 29520.0 | 0.683 | 1.0 | 0.015 | -40.0 |32800, 3700, 0, 5, A537-CL1, A283-C, AMMONIA, AAA, BBB, CCCA553-TYPE1, 6, 2438, 6096 | A553-TYPE1, 6, 2438, 6096 | A516-60, 20, 2400.0, 100 , 200 | A516-60, 7.0, 2438, 6096, 0.70, 32000.0, 0.0005, 200 | Aluminum(ASTM B209), 1.2, 2438, 6096 500, 1, 2, 3, 4 S5, II, D, 29520, 1, 0, 1.0, 0.220, 0.000, 0.000, 0.000, 0.667, 1.5, 1.5, 1.0, Af, ds, SDS, SD1, Ai, Ac, Av, S220, 471.2, 351.123, Wb, Wp, Wi, Wc, 614.3, 19.4, 0, 0, 0, 00, 11.017, 31.750, Xf, 0, 0, Xc 0, Xnr, Xnb, 0, 0, 0A537-CL1, A537-CL1, A537-CL1, A537-CL1, A537-CL1, A537-CL1, A537-CL1, A537-CL1, A537-CL1, A283-C3700,3700,3700,3700,3700,3700,3700,3700,2400, 800144.790,144.790,144.790,144.790,144.790,144.790,144.790,144.790,144.790, 104.800265.448,265.448,265.448,265.448,265.448,265.448,265.448,265.448,265.448, 175.817,31.0, 28.0, 24.5, 21.0, 18.0, 14.0, 11.0, 9.0, 9.0, 32.0  2023-01-19 00:13:40.00
]
isDouble(123.456) = [true] isDouble(123.456) = [true] isDouble(123.000) = [false]
isInt(123.456) = [false] isInt(123.456) = [false] isInt(123.000) = [true]
toInt(123.456) = [123.456] toDouble2Int(123.456) = [123.456]
toDouble2Long(123.456) = [123] toDouble2Long(123.456) = [123]
toDouble2Long(123.956) = [124] toDouble2Long(123.956) = [124]
0. REGFORM
1. API 620 TANK DESIGN DATA
query[0] = Select pid, tid, F1,F2,F3,F4,F5,F6,F7,F8,F9,F10,F11,F12,F13,F14,F15, ttid, uid, uName, regDate From `DWT_PJT` A Where pid=1 Order By pid, tid
cAry[0][0]
pid		cAry[0][1]
tid		cAry[0][2]
PROJECT NAME
(Tank No)		cAry[0][3]
DESIGN
CODE		cAry[0][4]
CONTAINMENT
SYSTEM		cAry[0][5]
OUTER /
OUTER		cAry[0][6]
CONTENT
Name		cAry[0][7]
Bottom
Insulation
Height (mm)		cAry[0][8]
Tank
In-Dia.(m)		cAry[0][9]
Tank
Height (m)		cAry[0][10]
DLL
(m)		cAry[0][11]
Storage
Capacity
(m3)		cAry[0][12]
Empty
Weightt
(Ton)		cAry[0][13]
Shell
NET WT
(Ton)		cAry[0][14]
Shell
GROSS
Weight(Ton)		cAry[0][15]
Shell
Course
(No)		cAry[0][16]
Shell Avg. Thick
(mm) 1st Shell Thk .. Top Shell Thk		cAry[0][17]
ttid		cAry[0][18]
uid		cAry[0][19]
User Name		cAry[0][20]
REG DATA
pidtidF1F2F3F4F5F6F7F8F9F10F11F12F13F14F15ttiduiduNameregDate
1, 1[___0___][SECL] LP ETHYLENEAPI 620FULLOUTERLNGA553-TYPE142.00035.80035.50049,183578.7468.1486.11112.626, 20.5, 19, 17.5, 15.5, 14, 12.5, 10.5, 9, 7.5, 6.35, 6.3512023-11-04 17:41:47.0
1, 1[___2___][SECL] LP ETHYLENEAPI 620FULLOUTERLNGA553-TYPE144.00037.80035.50053,9791006.2654.3678.91115.954, 23, 21.5, 19.5, 17.5, 15.5, 13.5, 11.5, 10, 8, 7.938, 3912023-11-04 17:41:47.0
1, 2[___4___]ÇÑÈ­-´ë»ê LPGAPI 620FULLOUTERLPGA537-CL2+S562.20040.23036.200109,9971799.71512.71558.41224.513, 42, 39, 36, 33, 29, 26, 22, 18, 14, 12, 12, 1122023-03-03 18:28:30.0
1, 2[___6___]ÇÑÈ­-´ë»ê LPGAPI 620FULLOUTERLPGA537-CL2+S564.20042.20033.980109,9982780.51706.71754.41225.546, 43, 39, 35, 31, 27, 23, 19, 17, 17, 16, 16, 1622023-03-03 18:28:30.0
1, 3[___8___]º®»ê³²ÇØÈ­ÇÐ AMMONIAAPI 620SINGLEOUTERAMMONIAA537-CL1+S543.10628.5020.0000758.5471.2493.9915.552, 27, 23, 20, 16, 12, 9, 8, 8, 2502023-01-18 16:49:18.0
1, 4[___10___]ÇÑÈ­ AMMONIAAPI 620SINGLEOUTERAMMONIAA537-CL140.00032.8000.0000927.5618.1643.81019.106, 31, 28, 24.5, 21, 18, 14, 11, 9, 9, 3202023-01-18 16:49:18.0
1, 5[___12___]CAP2 25000m3 EthyleneAPI 620FULLOUTERLNGA553-TYPE140.00022.00019.80025.0313.8233.9240.202023-01-18 12:42:38.0
1, 5[___14___]CAP2 25000m3 EthyleneAPI 620FULLOuterLNGA553-TYPE142.00024.50017.95925.0642.9289.2296.702023-01-18 12:42:38.0
1, 6[___16___]SUMBAWA 50000 KL LNGAPI 620FULLOUTERLNGA553-TYPE160.00022.40020.20057.0566.9397.9405.002023-01-18 12:42:38.0
1, 6[___18___]SUMBAWA 50000 KL LNGAPI 620FULLOuterLNGA553-TYPE162.00025.00018.91857.01411.4562.9577.602023-01-18 12:42:38.0
1, 7[___20___]SUMBAWA 16¸¸ KL LNGAPI 620FULLOUTERLNGA553-TYPE186.00032.20029.900174.01595.21199.41221.602023-01-18 12:42:38.0
1, 7[___22___]SUMBAWA 16¸¸ KL LNGAPI 620FULLOUTERLNGA553-TYPE188.00034.80029.900182.03738.01730.61769.002023-01-18 12:42:38.0
1, 8[___24___]SUMBAWA 16¸¸ KL LNGAPI 620FULLOUTERLNGA553-TYPE186.00032.20029.900174.01530.71199.41221.602023-01-18 12:42:38.0
1, 8[___26___]SUMBAWA 16¸¸ KL LNGAPI 620FULLOUTERLNGA553-TYPE188.00034.80029.900182.03625.91730.61769.002023-01-18 12:42:38.0
1, 9[___28___]¿¹¸à(OUTER) 14¸¸ KL LNGAPI 620(PSC) FULLOUTERLNGA553-TYPE172.00036.80036.190147.01309.11074.51094.002023-01-18 12:42:38.0
1, 9[___30___]¿¹¸à(OUTER) 14¸¸ KL LNGAPI 620(PSC) FULLOUTERLNGA553-TYPE174.00040.20034.262147.02918.21513.01544.602023-01-18 12:42:38.0


query[1] = [Select pid,tid,F1,designData,shInfo,BACR,SeData,WtData,XtData,mAry0,mAry1,mAry2,mAry3,mAry4, mAry5,mAry6,regDate, ttid From `DWT_DATA` B Where pid=1 AND tid between 10 AND 10 Order By tid ]
getResult[0] =[pid,tid,F1,designData,shInfo,BACR,SeData,WtData,XtData,mAry0,mAry1,mAry2,mAry3,mAry4,mAry5,mAry6,regDate,ttidgetResult[1] =[4,4,12,12,12,12,12,12,12,12,12,12,12,12,12,12,93,4]
getResult[3] = [INT,INT,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,VARCHAR,DATETIME,INT]
getResult[2] = [
pidtidF1designDatashInfoBACRSeDataWtDataXtDatamAry0mAry1mAry2mAry3mAry4mAry5mAry6regDatettid
110ÇÑÈ­ AMMONIAÇÑÈ­ AMMONIA | API 620 | SINGLE | OUTER | AMMONIA | R | 6 | 0, 471.2, 351.123, Wb, Wp, Wi, Wc, 614.3, 19.4, 0, 0, 0, 0 | 0, 11.017, 31.750, Xf, 0, 0, Xc 0, Xnr, Xnb, 0, 0, 0 | S5, II, D, 29520, 1, 0, 1.0, 0.220, 0.000, 0.000, 0.000, 0.667, 1.5, 1.5, 1.0, Af, ds, SDS, SD1, Ai, Ac, Av, S22 | 40000.0 | 32800.0 | 1.0 | 1.5 | 29520.0 | 29520.0 | 0.683 | 1.0 | 0.015 | -40.0 |32800, 3700, 0, 5, A537-CL1, A283-C, AMMONIA, AAA, BBB, CCCA553-TYPE1, 6, 2438, 6096 | A553-TYPE1, 6, 2438, 6096 | A516-60, 20, 2400.0, 100 , 200 | A516-60, 7.0, 2438, 6096, 0.70, 32000.0, 0.0005, 200 | Aluminum(ASTM B209), 1.2, 2438, 6096 500, 1, 2, 3, 4 S5, II, D, 29520, 1, 0, 1.0, 0.220, 0.000, 0.000, 0.000, 0.667, 1.5, 1.5, 1.0, Af, ds, SDS, SD1, Ai, Ac, Av, S220, 471.2, 351.123, Wb, Wp, Wi, Wc, 614.3, 19.4, 0, 0, 0, 00, 11.017, 31.750, Xf, 0, 0, Xc 0, Xnr, Xnb, 0, 0, 0A537-CL1, A537-CL1, A537-CL1, A537-CL1, A537-CL1, A537-CL1, A537-CL1, A537-CL1, A537-CL1, A283-C3700,3700,3700,3700,3700,3700,3700,3700,2400, 800144.790,144.790,144.790,144.790,144.790,144.790,144.790,144.790,144.790, 104.800265.448,265.448,265.448,265.448,265.448,265.448,265.448,265.448,265.448, 175.817,31.0, 28.0, 24.5, 21.0, 18.0, 14.0, 11.0, 9.0, 9.0, 32.0  2023-01-19 00:13:40.00
]
[ALL SHOW]   [DB ¾÷µ¥ÀÌÆ® ½ÇÇà] MATL_ASTM = [ + MATL_ASTM + ] ¡¡pid = ¡¡tio[0] = ¡¡tio[1] = ¡¡shQty[0] = ¡¡shQty[1] = ¡¡shQty[2] =
HIDE   1. General Information
Description0.
PROJECT NAME
(Tank No)		1.
DESIGN
CODE		2.
CONTAINMENT
SYSTEM		3.
OUTER /
OUTER		4.
CONTENT
Name		5.
Bottom
Insulation
Height (mm)		6.
Tank
In-Dia.(m)		7.
Tank
Height (m)		8.
DLL
(m)		9.
Storage
Capacity
(m3)		10.
Empty
Weightt
(Ton)		11.
Shell
NET WT
(Ton)
OUTER TANK   API 620   OUTER     ¾Æ·¡ Âü°í40.000 32.800 0.000 0 927.5 618.1

Description10.
D
(mm)		11.
H
(mm)		12.
Joint
Eff.(E)		13.
CA
(mm)		14.
DLL
(mm)		15.
HTL
(mm)		16.
SG
17.
SGt
18.
Pg(MPa)
´ÜÀ§ÁÖÀÇ		19.
Dtemp
¡É		20.
HHLL
(mm)		21.
HLL
(mm)		22.
LLL
(mm)		23.
LLLL
(mm)		24.
Bottim Insu. Height
(mm)
OUTER TANK                              
HIDE   2. Tank Shell Information
ÇÊ ¼ö ÀÔ ·Â[¼±ÅÃÀÔ·Â]
Description0.
Shell
Height
(mm)		1.
Each Shell
Height
(mm)		2.
Shell
ÃÑ ´Ü¼ö
(? ´Ü)		3.
Secondary
ÀçÁúº¯°æ ´Ü
¹øÈ£		4.
1st MATL
(1st course ~)		5.
2nd MATL
(2¹ø°ÀçÁú)
(¼±Åà ¿É¼Ç)		6.
1st Matl
¼öÀÔ´Ü°¡
(USD/Ton)		7.
1st Matl
³»¼ö´Ü°¡
(õ¿ø/Ton)		8.
2nd Matl
¼öÀÔ´Ü°¡
(USD/Ton)		9.
2nd Matl
³»¼ö´Ü°¡
(õ¿ø/Ton)		10.
Àû¿ëȯÀ²
(¿ø/USD)		11.
sh11
(¿©À¯)		12.
sh12
(¿©À¯)
OUTER TANK 32800.0                         
SHOW   o Each Shell Design Data, [µÎ²²ÀÔ·Â]¡¡¡¡¡¡Eash Shell º°·Î °¢°¢ ÀÔ·Â, ÃÑ ´Ü¼ö = shQty[0]= 10 Courses, Inner shQty[1] = 10, Outer shQty[2] = 0
SHOW
MORE		OUTER TANK     All Data Clear  
Shell
Material		Used Thk.
1) (mm)		Width
(mm)		Sts
(MPa)		St
(MPa)
10 th          
9 th          
8 th          
7 th          
6 th          
5 th          
4 th          
3 rd          
2 nd          
1 st          
Note 1) »ç¿ëµÎ²²¸¦ ÀÔ·ÂÇϸé ÀÔ·ÂÇÑ µÎ²²·Î °­µµ°è»ê ÇÕ´Ï´Ù.

HIDE   4. Bottom, Annular, Roof Plte / Compression Ring (Knuckle) / Suspended Deck
No.OUTER TANK
(PART NAME)		Material¹ßÁֵβ²
Used Thk.
(mm)		ÀÚÀç¹ßÁÖ
Width
(mm)		ÀÚÀç¹ßÁÖ
Length
(mm)		Roof Plate
Joint Eff.(JE)		Dome Roof
Radius
R2 (mm)		Design Vacuum
Pressure
Pe (MPa)		Roof Dead
Load
(kg/£í©÷)		Compression Ring :

1Bottom Plate               
2Annular Plate               
3Comp. Ring
or Knuckle		    R1:³ÊŬ¹Ý°æ
  		         
4Roof Plate               
5Suspended Deck               
6Roof Structure
MaterialFy
(MPa)		Ft
(MPa)		SR < 1.0
SR max.ÁöÁ¤		ONE SIDE
CA (mm)		Rafter SizePurlin Size7 SPARE
               
SHOW   5. Seismic Design Data
¹øÈ£Seismic
Event		0.
Site
Class
1.
SUG
2.
Risk
Category
ASCE7		3.
HLL
(mm)		4.
ASCE7=0
KGS = 1		5.
NONE
N/A		6.
VLCF
Note 1)		7.
Ss
g		8.
S1
g		9.
Fa
10.
Fv
11.
Q
12.
I
13.
K
14.
Ki
15.
Af
16.
ds
17.
SDs
g		18.
SD1
g		19.
Ai
g		20.
Ac
g		21.
Av
g		22.
SPARE
¿©À¯
OUTER TANKMCE (2475yr)                                        
DBE (475yr)                                                
Note 1) VLCF : Vertcal Load Combination Factor ( default 0.4¡¿Pv = 0.4 ÀÔ·Â, 30% Àû¿ë½Ã 0.3 ÀÔ·Â )

¡¡o Weight Information for Seismic Design ( ÁÖÀÇ : ÀԷ°ªÀÌ ¾ø´Â Çʵå´Â ÀÚµ¿°è»ê ÇÕ´Ï´Ù. )
Description0.
¿©À¯0		1.
Shell
Weight
Ws (Ton)		2.
Roof
Weight
Wr (Ton)		3.
Bottom
Weight
Wf (Ton)		4.
Liquid
Weight
Wp (Ton)		5.
Impulsive
Liquid
Wi (Ton)		6.
Convective
Liquid
Wc (Ton)		7.
Shell
Insulation
Wns (Ton)		8.
Roof
Insulation
Wnr (Ton)		9.
Bottom
Insulation
Wnb (Ton)		10.
¿©À¯10
W10		11.
¿©À¯10
W11		12.
¿©À¯11
W12
OUTER TANK                          
Description0.
¿©À¯0		1.
Shell Plate
Gravity Center
Xs (m)		2.
Tank Roof
Gravity Center
Xr (m)		3.
Bottom Plate
Gravity Center
Xf (m)		4.
¿©À¯4
N/A		5.
Impulsive
Height
Xi (m)		6.
Convective
Height
Xc (m)		7.
Shell Insu.
Height
Xns(m)		8.
Roof Insu.
Height
Xnr (m)		9.
Bottom Insu.
Height
Xnb (m)		10.
¿©À¯10
X10		11.
¿©À¯11
X11		12.
¿©À¯12
X12
OUTER TANK                          
Where ,
¡¡¡¡For tank foundation design for base shear(Vi, Vc, V) and overturning moment(Ms, Mrw)
¡¡¡¡Vi = Ai ¡¿ ( Ws + Wr + Wf + Wi + Wns + Wnr ) [N]
¡¡¡¡Vc = Ac ¡¿ Wc [N]
¡¡¡¡V = ¡î( Vi©÷+ Vc©÷) [N]
¡¡¡¡Mrw = ¡î( [Ai ¡¤ (Wi ¡¤ Xi + Ws ¡¤ Xs + Wr ¡¤ Xr + Wns ¡¤ Xns + Wnr ¡¤ Xnr)]2 + [Ac ¡¤ (Wc ¡¤ Xc)]2) [N-m]
¡¡¡¡Ms = ¡î( [Ai ¡¤ (Wi ¡¤ Xis + Ws ¡¤ Xs + Wr ¡¤ Xr + Wns ¡¤ Xns + Wnr ¡¤ Xnr)]2 + [Ac ¡¤ (Wc ¡¤ Xc)]2) [N-m]

mode=[0] pid=[1] if ( tid == tidNo ) query[2]=
[Select A.tid, A.calcOutput, shPlate0, shPlate1, shPlate2, F1,F2,F3,F4,F5,F6,F7,F8,F9,F10,F11,F12,F13,F14,F15,F16,F17,F18,ttid,uid,uName From `DWT_PJT` A Where A.pid=1 AND A.tid=10 ]
eAry.length = [2] eAry[1][1].length() = Contents ³»¿ë = [608917]
È­¸é ÄÜÆ®·Ñ À» À§ÇÑ À§ÇÑ Å×ÀÌºí ¸¸µé±â
21 query[2] = [Select pid, DESCR, JSCRIPT, HTMLVIEW, regDate From `DWT_HTMLVIEW` A Where pid=1 Order By pid ]
fAry.length = [2]
gMaxShqty=[ 13 ]
0. PROJECT PKG ID, pid = [ 1 ] Print Date :
1. API 620/625 TANK DESIGN SUMMARY [Àüü °­µµ°è»ê Àç ½ÇÇà ¹× °á°ú ¾÷µ¥ÀÌÆ®]
No.Description tid = [0, 1] 1[2, 3] 2[4, 5] 3[6, 7] 4[8, 9] 5[10, 11] 6
1Project No. / Name[SECL] LP Ethylene[SECL] LP EthyleneÇÑÈ­-´ë»ê LPGÇÑÈ­-´ë»ê LPGº®»ê³²ÇØÈ­ÇÐ AMMONIAÇÑÈ­ AMMONIA
2Design CodeAPI 620 Annex QAPI 620 Annex QAPI 620 Annex RAPI 620 Annex RAPI 620 Annex RAPI 620 Annex R
3Tank TypeFULL ContainmentFULL ContainmentFULL ContainmentFULL ContainmentSINGLE ContainmentSINGLE Containment
41st Main MaterialA553-TYPE1A553-TYPE1A537-CL2+S5A537-CL2+S5A537-CL1+S5A537-CL1
52nd MaterialA283-C
6Tank Diameter (m)42.00044.00062.20064.20043.10640.000
7Tank Height (m)35.80037.80040.23042.20028.50232.800
8Design Liquid Level (m)
Ratio of D/DLL=		35.500
1.183		35.500
1.239		36.200
1.718		33.980
1.889		25.082
1.719		29.520
1.355
9ÀúÀå¿ë·® (m©ø)
DLL ±âÁØ		49,000
(49,183)		54,000
(53,979)		110,000
(109,997)		110,000
(109,998)		37,000
(36,604)		37,000
(37,096)
10Total Steel Weight, (Ton)578.01004.21802.62820.4768.8931.9
11Shell Plate Net Weight (Ton)468.1646.51512.71706.7471.2618.1
12Shell Plate Gross Weight (Ton)486.1670.81558.41754.4493.9643.8
13(1) Shelll Plate (Course)11111212910
14
11 th
10 th
9 th
8 th
7 th
6 th
5 th
4 th
3 rd
2 nd
1 st
Average Thickness.: (mm)
Btm ~ Top Shell Thk: (mm)
Net WT: (Ton)
GRS WT: (Ton)
 
6.35
6.35
7.5
9.0
10.5
12.5
14.0
15.5
17.5
19.0
20.5
12.626
t 20.5 ~ 6.35
468.1
486.103
 
35.0
7.938
8.0
10.0
11.5
13.5
15.5
17.5
19.5
21.5
23.0
15.764
t 23 ~ 7.938 (t35)
646.52
670.832
11.0
12.0
12.0
14.0
18.0
22.0
26.0
29.0
33.0
36.0
39.0
42.0
24.513
t 42 ~ 11
1512.672
1558.355
16.0
16.0
16.0
17.0
17.0
19.0
23.0
27.0
31.0
35.0
39.0
43.0
25.546
t 43 ~ 16
1706.688
1754.4
 
 
 
25.0
8.0
8.0
9.0
12.071 > 12.0 [CHK!]
16.0
20.0
23.0
27.0
15.552
t 27 ~ 8 (t25)
471.18
493.903
 
 
32.0
9.0
9.0
11.0
14.0
18.0
21.0
24.5
28.0
31.0
19.106
t 31 ~ 32
618.1
643.83
15(2) Bottom Plate
Bottom Plate Material
Bottom Plate Weight (Ton)
Bottom Plate Thick (mm)
Outer Diammeter (m)
 
A553-TYPE1
70.03
7.00
©ª 40.282
 
A553-TYPE1
69.00
7.00
©ª 39.986
 
A516-60N+S5
170.06
8.00
©ª 58.718
 
A516-60N+S5
167.89
8.00
©ª 58.342
 
A516-60N+S5
70.31
6.50
©ª 41.886
 
A553-TYPE1
74.18
8.00
©ª 38.780
16(3) Annular Plate
Annular Plate Material
Annular Plate Weight (Ton)
Annular Plate Thick (mm)
Outer Diameter (m)
Inner Diameter (m)
Annular Width (m)
 
A553-TYPE1
13.74
13.50
©ª 42.186
©ª 40.182
1.002
 
A553-TYPE1
33.51
15.00
©ª 44.196
©ª 39.886
2.155
 
A537-CL2+S5
79.12
27.50
©ª 62.472
©ª 58.618
1.927
 
A537-CL1+S5
132.07
28.00
©ª 64.476
©ª 58.242
3.117
 
A537-CL1+S5
14.47
18.00
©ª 43.318
©ª 41.786
0.766
 
A553-TYPE1
15.44
20.50
©ª 40.228
©ª 38.680
0.774
17(4) Roof Plate
Roof Plate Material (J.E)
Roof Plate Weight (Ton)
Roof Plate Thickness (mm)
Dome Roof Radius (m)
Dome Roof Height (m)
Roof Surface Area (m©÷)
 
 
A516-70 (JE: 0.7)
88.9
6.5
0.8¡¿D(44.0m)= 35.2
7.722
1742.017
 
 
A516-70 (JE: 0.7)
169.8
6.0
0.9¡¿D(64.2m)= 57.78
9.737
3605.643
 
A283-C (JE: 0.35)
76.6
6.0
0.9¡¿D(43.106m)= 38.8
6.537
1625.512
 
A516-60 (JE: 0.7)
79.1
7.0
0.8¡¿D(40.0m)= 32.0
7.02
1439.684
18(5) Roof Comp. Ring
KNUCKLE OR COMP. RING
(Roof Side Only) Weight (Ton)
Thickness (mm)
Material (J.E)
Plate Width, W(m)
Length, L(m)
Quentity, (PCS)
 
 
COMPRESSION RING
24.8
35.0
A516-70 (1.0)
0.660 (W)
4.279 (L)
32 (PCS)
 
 
KNUCKLE
127.8
38.0
A516-60 (1.0)
2.124 (W)
5.763 (L)
35 (PCS)
 
COMPRESSION RING
9.7
18.0
A537-CL1+S5 (1.0)
0.510 (W)
4.336 (L)
31 (PCS)
 
KNUCKLE
37.7
25.0
A516-60 (1.0)
1.528 (W)
5.236 (L)
24 (PCS)
19(6) Roof Structure
Roof Structure Weight (Ton)
Rafter Size (H-BEAM A36)
Rafter Q'TY (EA)
Rafter ARC-Length (m)
Edge Between Lenth (m)
 
 
65.9
H346X174X6X9
56
20.761
2.468
 
 
229.8
H400X200X8X13
84
31.033
2.401
 
63.4
H346X174X6X9
56
19.848
2.418
 
52.7
H346X174X6X9
52
18.6
2.417
20(7) Inner / Outer(Wind) Stiff.
Stiffener Weight (Ton)
Stiffener Q'TY (EA)
Top Ring(Girder) Size
2nd Ring Size
 
26.176
17
L450x6.35+120x6.35
FB 150x6
 
14.724
3
L150x15
 
 
40.74
6
L450x11+120x11
FB 230x12
 
7.15
1
L150x15
 
 
4.809
1
L150x15
 
 
4.464
1
L150x15
 
21(8) Anchorage System      
22(9) Suspended Deck  60.821  279.137 58.375 50.265
23(10) Insulation      
24(11) EP °ßÀû¿ø°¡ (õ¿ø)
A. Net Steel Weight (Ton)
B. Gross Steel Weight (Ton)
1. Engineering (¼³°è)
2. Material Cost (ÀÚÀçºñ)
¡¡2.1 Material (Steel)
¡¡2.2 Welding Rod (±¸¸Åºñ)
3. Manufacturing(Á¦ÀÛ/¿î¼Ûºñ)
4. Overhead/Contingent Charge
¡¡4.1 Overhead / Á¦Á¶°£Á¢ºñ (10%)
¡¡4.2 Contingency Cost/ ¿ì¹ßºñ¿ë
5. Profit (°ø»çÀÌÀ±)
EP °ßÀû¿ø°¡ ÇÕ°è (õ¿ø)
[SECL] LP Ethylene
578.146  Ton
609.084  Ton
90,0001.0 %
4,706,71453.1 %
4,237,39747.8 %
469,3175.3 %
2,312,58426.1 %
995,99711.2 %
663,9987.5 %
331,9993.7 %
763,5988.6 %
8,868,893100 %
[SECL] LP Ethylene
1004.238  Ton
1071.093  Ton
90,0000.7 %
6,473,19948.9 %
5,907,99644.6 %
565,2034.3 %
4,016,95230.4 %
1,502,24211.4 %
1,001,4957.6 %
500,7473.8 %
1,151,7198.7 %
13,234,112100 %
ÇÑÈ­-´ë»ê LPG
1802.620  Ton
1879.240  Ton
90,0000.7 %
3,582,75326.1 %
3,447,63425.1 %
135,1191.0 %
7,210,48052.5 %
1,612,21711.7 %
1,074,8117.8 %
537,4063.9 %
1,236,0339.0 %
13,731,483100 %
ÇÑÈ­-´ë»ê LPG
2820.511  Ton
2987.640  Ton
90,0000.4 %
5,053,62224.4 %
4,898,81723.6 %
154,8050.7 %
11,282,04454.4 %
2,440,62911.8 %
1,627,0867.8 %
813,5433.9 %
1,871,1499.0 %
20,737,444100 %
º®»ê³²ÇØÈ­ÇÐ AMMONIA
768.796  Ton
822.531  Ton
90,0001.6 %
1,414,84924.4 %
1,390,20824.0 %
24,6410.4 %
3,075,18453.1 %
683,30911.8 %
455,5397.9 %
227,7703.9 %
523,8709.1 %
5,787,212100 %
ÇÑÈ­ AMMONIA
932.044  Ton
992.446  Ton
90,0001.3 %
1,726,77224.7 %
1,691,67124.1 %
35,1010.5 %
3,728,17653.2 %
826,47711.8 %
550,9857.9 %
275,4923.9 %
633,6329.0 %
7,005,057100 %

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