PT SEMEN TONASA PEKERJAAN PEMBANGUNAN PROYEK TRANSMISI LINE
PANGKAJENE KEPULAUAN TOWER TRANSMISI 70 kV TYPE CC+0 T‐ACSR 330/55 ALTERNATIF 2
KONTRAKTOR
FABRIKATOR
PT SETYAWAN MAHAKARYA PRIMA
PT BANGUN SARANA BAJA
DESIGN & CALCULATION REPORT DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION ) TRANSMISSION TOWER 70 kV
CONTENT LIST
I.
DESIGN CRITERIA
II.
INPUT DATA 1. TOWER DATA 2. TOWER GEOMETRY 3. LOAD DATA 4. LOAD COMBINATION 5. LOADING TREE 6. INPUT LOADING TO MS TOWER 7. SECTION LIBRARY
III.
OUTPUT DATA 1. STRESS RATIO TABLE 2. STRESS RATIO GRAPH 3. JOINT REACTION
IV.
DESIGN SUMMARY
V.
OUTLINE DRAWING
VI.
APPENDIX
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION ) I. DESIGN CRITERIA
DESIGN KRITERIA I.
REFERENCE a. ASCE (American Sosiety of Civil Engineering)
II.
MATERIALS a. Stell Shapes & Plates : - Mild Steel - high Tensile b. Bolts & nut : Splice Bolts c. Anchor bolt : Grade of Bolts : d. Galvanized : Hot Dipped Galv. e. Concrete : fc' f. Rebars : Grade of Rebars Grade of Rebars g. Welding Electrodes : Grade of Welding
III.
= BJ 37/BS 4.360-Grade 50C/ASTM A36/JIS G3101-Grade SS400 = BJ 52/BS 4.360-Grade 43A/JIS G3101-Grade SS540 ( Thickness <16 ) = BJ 52/BS 4.360-Grade 43A/JIS G3101-Grade SS540 ( Thickness >16 )
fy = 245 Mpa fy = 400 Mpa fy = 390 Mpa
= ASTM 563 / 325
fy = 640 Mpa
= ASTM 615 Gr 60
Fy = 240 Mpa
= ASTM A – 123
86 micron thickness
= 19 Mpa ( 28 DAYS ) / K-225 = BJTP (dia. ≤ 12 mm) = BJTD (dia. ≥ 13 mm)
Fy = 240 Mpa fy = 390 Mpa
= AWS D1.1 E60xx
fy = 340 Mpa
LOADINGS a. Dead Load Consist of weight of tower structure including cables ( Conductor and Grounding Wire ) b. Wind Load Shall be calculated in accordance with ASCE Standard 7-88 : the Design of Steel Transmission tower c. Live load Worker with equipment load = 120 kg
IV.
LOAD COMBINATION According to AICS – ASD” 89 Standard, in calculating the maximum member stresses and structure reaction, only the following load and combination shall be investigated :
Case 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28
Wind Direction Transverse Wind Transverse Wind Transverse Wind Transverse Wind Transverse Wind Transverse Wind Transverse Wind Transverse Wind Transverse Wind Transverse Wind Transverse Wind Transverse Wind Transverse Wind Transverse Wind Longitudinal Wind Longitudinal Wind Longitudinal Wind Longitudinal Wind Longitudinal Wind Longitudinal Wind Longitudinal Wind Longitudinal Wind Longitudinal Wind Longitudinal Wind Longitudinal Wind Longitudinal Wind Longitudinal Wind Longitudinal Wind
Loading Normal (Intact) in Double Circuits Broken Ground Wire in Double Circuits Broken Ground Wire in Double Circuits Broken Ground Wire in Double Circuits Broken Ground Wire in Double Circuits Broken Ground Wire in Double Circuits Broken Ground Wire in Double Circuits Normal (Intact) in Single Circuits Broken Ground Wire in Single Circuits Broken Ground Wire in Single Circuits Broken Ground Wire in Single Circuits Broken Ground Wire in Single Circuits Broken Ground Wire in Single Circuits Broken Ground Wire in Single Circuits Normal (Intact) in Double Circuits Broken Ground Wire in Double Circuits Broken Ground Wire in Double Circuits Broken Ground Wire in Double Circuits Broken Ground Wire in Double Circuits Broken Ground Wire in Double Circuits Broken Ground Wire in Double Circuits Normal (Intact) in Single Circuits Broken Ground Wire in Single Circuits Broken Ground Wire in Single Circuits Broken Ground Wire in Single Circuits Broken Ground Wire in Single Circuits Broken Ground Wire in Single Circuits Broken Ground Wire in Single Circuits
Combination (Ground Wire – Top Phase Conductor ) (Ground Wire – Medium Phase Conductor ) (Ground Wire – Bottom Phase Conductor ) ( Top Phase Conductor – Middle Phasa Conductor ) ( Top Phase Conductor – Bottom Phasa Conductor ) ( Middle Phasa Conductor – Bottom Phasa Conductor ) (Ground Wire – Top Phase Conductor ) (Ground Wire – Medium Phase Conductor ) (Ground Wire – Bottom Phase Conductor ) ( Top Phase Conductor – Middle Phasa Conductor ) ( Top Phase Conductor – Bottom Phasa Conductor ) ( Middle Phasa Conductor – Bottom Phasa Conductor ) (Ground Wire – Top Phase Conductor ) (Ground Wire – Medium Phase Conductor ) (Ground Wire – Bottom Phase Conductor ) ( Top Phase Conductor – Middle Phasa Conductor ) ( Top Phase Conductor – Bottom Phasa Conductor ) ( Middle Phasa Conductor – Bottom Phasa Conductor ) (Ground Wire – Top Phase Conductor ) (Ground Wire – Medium Phase Conductor ) (Ground Wire – Bottom Phase Conductor ) ( Top Phase Conductor – Middle Phasa Conductor ) ( Top Phase Conductor – Bottom Phasa Conductor ) ( Middle Phasa Conductor – Bottom Phasa Conductor )
V.
DESIGN TOLERANCES The design / analysis tolerences are : a. Allowable Stress Ratio = 1 b. Slenderness Ratio = Leg Bracing Redundant All c. Safety factor Normal Condition = 1,5 Broken Condition = 1,1
≤ ≤ ≤ ≤
120 200 250 400
for for for for
compression member compression member compression member tension member
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION ) II. INPUT DATA
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION ) II. INPUT DATA 1. TOWER DATA
Tower Data
TOWER DATA I.
II.
III.
IV.
V.
Ground Wire and Conductor Item Type Total Area Diameter Weight Ultimate Strength
Insulator and Fitting Item Type Weight Quantity of Insulator Total Weight of Insulator Fitting (Accessories) Width Length Total Length of insulator
Unit mm2 mm2 m kg/m kg
Ground Wire GSW-55 56,3 0,0096 0,442 6620
Unit
Insulator Tension 5,50 12 66,00 34,00 0,28 0,146 1,752
kg/unit Unit kg kg m/unit m/unit m
Sagging and Maximum Working Tension Design Item Unit MWT of Conductor kg MWT of Ground Wire kg deg (o) Maximum Cable Temperature deg (o) Daily Cable Temperature
Wind Load Design (Wind Pressure) Item Tower Conductor Ground Wire Insulator Unit Convertion
Unit kg/m2 kg/m2 kg/m2 kg/m2 kg
Value 2400 1400 80 27
Value 120 40 40 60 1
Span Design Item
NORMAL CONDITION Unit
Conductor : Basic Span Wind Span Weigth Span Ground Wire : Basic Span Wind Span Weigth Span Line Angle Tower Type
o
Item
Line Angle Tower Type
150 184 109
m m m
150 184 109
BROKEN CONDITION Unit
Conductor : Basic Span Wind Span Weigth Span Ground Wire : Basic Span Wind Span Weigth Span o
Value
m m m
(max)
74 Tension
Value
m m m
150 200 200
m m m
150 200 200
(max)
Conductor T ACSR 330 379,6 0,0253 1,32 10950
74 Tension
Remark
0,00981
kN
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION ) II. INPUT DATA 2. TOWER GEOMETRY
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 03:50
Sections: 1 EA40X40X4 Y 2 EA50X50X4 Y 3 EA50X50X5 Y 6 EA60X60X4 Y 7 EA60X60X5 Y 8 EA60X60X6 Y 9 EA65X65X6 Y 10 EA70X70X5 Y 11 EA70X70X6 Y 14 EA75X75X6 Y 16 EA80X80X6 Y 17 EA80X80X8 Y 36 EA60X60X4 Y 38 EA60X60X6 Y 48 EA90X90X6 Y 49 EA90X90X7 Y 55 EA120X120X10 Y 59 EA150X150X12 Y
6 66 1 161 616616 161 6 1 1116 6111 36 36 6 161 161 22 22 22 22 36 36 22 22 22 22 36 36 22 22 22 22 36 36 22 22 262 62 62 2 2 2 2 6 6 636 6 1 1 1 136 6121112 2111216 6 1 1 1 1 6 6 1 1 8 81 818 18 3883 2 881818188 2883 3 1616 1616 49 49 1616 1616 1616 1616 49 49 1616 1616 1616 1616 49 49 1616 1616 1616 1616 49 49 1616 1616 38 2 38 238 38 638 6 6 6 1616 6 16 616 11 149 1 6 1 1 1 149 66 16 16 16 16 1 1 1 1 61 8 11 818 1838 1116 1 8 838 82 88 816 8118 38 2838 8 8 1717 1717 55 55 1717 1717 1717 1717 55 55 1717 1717 1717 1717 55 55 1717 1717 1717 1717 55 55 1717 1717 38 2 38 238 638 6 6 17 6 1 117 6 17 6117 55 55 11 1 6 6 6 17 17 17 17 1 1 1 1 1 1 61 8 11 818 1838 1118 618 6118 1 8 838 83 88 38 3838 8 8 4848 4848 59 59 4848 4848 4848 4848 59 59 4848 4848 4848 4848 59 59 4848 4848 48 48 48 48 59 59 48 48 48 48 48 48 48 48 59 59 48 48 48 48 48 48 59 48 48
48 48 59 48 48
48 48 48 48 59 59 48 48 48 48 727 22227 22 7 11 11 11 11 59 2 2 59 1111 1111 14 14 14 14 59 2 2 59 14 14 14 14 9 2 9 2 2 9 2 9 14 14 14 14 59 2 2 59 1414 14 14 10 2 10 2 2 10 2 10 48 59 6 6
Z
48
48
6 59 48 6
2 2
2 2
48 48 59
48 59 48
Y X theta: 180 phi: 0
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 03:50
6 61 6 1616 11 61 6 16 6 6 1 1116 6111 1 6 36 36 6 161 161 6 22 22 22 22 36 36 22 22 22 22 36 36 22 22 22 22 36 36 22 22 262 6 62 62 2 2 2 2 6 6 636 6 6 1 1 1 136 6121112 1 1 1 1 6 2111216 6 1 1 1 1 6 6 1 1 8 81 818 18 3883 88181883 2 8883 81 818 11 2 8 16 8 1616 1616 49 49 1616 1616 1616 1616 49 49 1616 1616 1616 1616 49 49 1616 1616 1616 1616 49 49 1616 1616 38 2 38 238 638 6 6 6 6 1616 6 16 616 6 11 149 1 11116 6 1 1 1 149 66 16 16 16 16 1 1 1 1 6 618 611 81 1 81 818 1838 838 82 81 8118 8 38 8838 238 8 81 818 11 8 16 8 1717 1717 55 55 1717 1717 1717 1717 55 55 1717 1717 1717 1717 55 55 1717 1717 1717 1717 55 55 1717 1717 38 2 38 238 38 638 6 6 6 17 6 1 117 6 17 6117 55 55 1 1 1 116 6 6 6 6 17 17 17 17 1 1 1 1 1 1 61 8 11 818 1838 1118 618 618 1 1 18 6 8 838 83 88 38 8838 3 8 81 81 18118 4848 4848 59 59 4848 4848 4848 4848 59 59 4848 4848 4848 4848 59 59 4848 4848 48 48 48 48 59 59 48 48 48 48 48 48 48 48 59 59 48 48 48 48 48 48 59 48 48
Sections: 1 EA40X40X4 Y 2 EA50X50X4 Y 3 EA50X50X5 Y 6 EA60X60X4 Y 7 EA60X60X5 Y 8 EA60X60X6 Y 9 EA65X65X6 Y 10 EA70X70X5 Y 11 EA70X70X6 Y 14 EA75X75X6 Y 16 EA80X80X6 Y 17 EA80X80X8 Y 36 EA60X60X4 Y 38 EA60X60X6 Y 48 EA90X90X6 Y 49 EA90X90X7 Y 55 EA120X120X10 Y 59 EA150X150X12 Y
48 48 59 48 48
48 48 48 48 59 59 48 48 48 48 727 222 27 22 7 11 11 11 11 59 2 2 59 1111 1111 14 14 1414 59 2 2 59 14 14 14 14 9 2 9 2 2 9 2 9 14 14 14 14 59 2 2 59 14 14 14 14 10 2 10 2 2 10 2 10 48 59 6 6
Z
48
48
6 59 48 6
2 2
2 2
48 48 59
48 59 48
X Y theta: 270 phi: 0
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 03:50
Sections: 1 EA40X40X4 Y 2 EA50X50X4 Y 3 EA50X50X5 Y 6 EA60X60X4 Y 7 EA60X60X5 Y 8 EA60X60X6 Y 9 EA65X65X6 Y 10 EA70X70X5 Y 11 EA70X70X6 Y 14 EA75X75X6 Y 16 EA80X80X6 Y 17 EA80X80X8 Y 36 EA60X60X4 Y 38 EA60X60X6 Y 48 59 48 2 EA90X90X6 Y Y 6 49 EA90X90X7 59 55 EA120X120X10 Y 14 59 59 EA150X150X12 Y
8 6 6 8 1 1 1 59
48
8 1 6
2 59
6
48
2
1 1 1
8
1 8 1 6
1
22 59 2
6
1 1
6
10 1
1 6 6 7 2 11 48 48 2 8 2 48 1411 1 6 59 2 48 2 2 48 59 48 1 10 48 59 848 1 6 6 1 9 48 59 48 48 59 748 48 48 59 4848 48 55 49 36 17 38 16 3 2 1 48 4848 6 8 48 481 14 2 2 48 6 1 14 11 8 1 2 48 48 48 48 48 1 6 8 6 48 17 38 16 3 2 1 3 2 1 1 8 1 6 6 14
6 8 8 6
14 11
59
6
14 1 14 8
9
59
48
1
10
14
59
8 1 6
48
6 6
14 14
9 14 11
611 1 2
59 59
2
48
6
7 2 14 48 592 2 48 2 48 1114 1 59 2 48 2 48 2 59 6 48 48 10 59 48 8 1 6 6 1 9 48 59 48 48 59 487 48 48 59 4848 48 17 38 16 3 2 1 55 49 36 48 4848 48 48 2 14 4848 2 11 14 48 48 2 48 48 2 1 17 38 16 48 3 2 1 82
1
2
2
2
1
8
48 17 38 16 3 2 1 2 1 1 6 48 48 48 48 11 82 1 2 648 6 1 48 2 48 481 8 4848 6 48 55 49 36 17 38 16 3 2 1 48 4848 59 48 48 748 59 48 48 59 9 6 1 848 1 6 48 59 48 6 10 48 59 48 2 2 48 2 59 1 1411 48 2 48 2 8 2 59 2 48 14 2 2 11 7 1 6 6 59 11 2 8 14 59 48 14 9 1 14 59 14 10 59 6 48 2 59 48
3 2
14 14
2
1
6 6
1
1 8 1 6
17 38 16 48 3 2 1 48 48 2 48 48 14 2 11 4848 2 14 48 48 4848 48 17 38 16 3 2 1 55 49 36 48 4848 59 48 48 487 59 48 48 59 48 9 6 1 8 1 486 59 48 10 1 48 59 2 48 2 48 2 6 1 59 1114 48 2 48 2 259 8 48 2 2 2 14 7 6 111 6 6 59 11 2 8 14 59 48 14 9 1 14 59 14 10 48 6 59 2 8 1 6 48 59
1 1 1 8 6 6 8
Y
Z X theta: 0 phi: 90
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 03:50
6 6 6 1 16 616 6 1 1 1 61 1 6 1 136 111 16 1 11 6 161 1 136 11 1 661 6 12 11 6361 2 21 6 66 21236123611 22 22 2 26 236 36222 2 22 222 2 2 3623622 2 2 236 36222 22 222 22 2 236223622236 2 262 262 6 11 66 36 2 221 122116 1616 6 2262 1818 6 368 821816 1 1 1236212 22 188 6 1 1 6 6 6 6 8 1 2 8111 2 8 2 1 1 8 2 2 1 8 36 8 1 8 2 2 8 8111 136 283 23 262 81 6 32 1 8 812 216 3216 3186 81 1 24916 2362 116 16 316 16 316 49 18111866 3 16 16 8 1616 49 8 11 161616 881116 88 16 1649 49 16 16 161616 16 16 49 16 16 16 49 161616 16 16 1649 49 16 16 16 1616 16 16 49 16 16 16 49 161616 16 16 1649 49 16 1616 161616 16 16 16 6 16 16 6 149 6616 618 6 8 16638 238 1 6 49 38 8 11 16 1 116 16 8 6 38 16 49 1 49 16 38 8116 1 1 181 1 16 6 1 1 6 16 6 6 6 16 8 8 1 8111 38 2 16 81 8 16 1 16 38 8 49 8 16 38 1 8811811 83816 16 16 3816 116 49 61681 16 81 17 17 238 16 8 38 49 86 1 17 255 16 16 138 17 38 1 17 17 38 55 1811818166 173817 17 16 17 817 55 8 11 171717 881116 88 175517 55 17 17 171717 17 17 17 55 17 1717 55 171717 17 1755 55 17 17 17 1717 17 17 17 17 1755 55 171717 17 17 1755 55 17 1717 171717 17 55 17 6 6 17 6 6 17 816 6 8 17 17638 238 116 1 38 6 55 861 17 1 1 117 17 11 8 38 17 55 155 17 8 38 1 1 1 1 17 611166 1 6 1 6 6 6 17 8 1 1 8 88 17 38 238 17 81 8 17 1 17 8 1 55 8 17 38 1 8811811 8 17 3817 1173817 55 61781 16 81 48 48 338 17 8 38 55 38186 81 1 48 359 17 17 48 38 481 111866 38 48 1 4838 16 48 8 4859 48 48 59 881116 88 4848 48 488 8 11 48594859 48 48 4848 48 48 48 48 484859 59 4848 48 48 48 48 59 59 4848 48 48 48 4859 48 48 48 59 48 48 4848 5948 48 48594848 48 48 48 4859 48 48 48 48 59 4848 485948 48 485948 4859 484848 48 48 59 484848 48 48 48 48 48 59 594848 48 48 48 48 59 4848 48 48 48 5948 48 48 484859 59 48 48 48 48 4859 48 48 48 2 7 48 48 5948 72 48 2 2 211748 2 22 11 2 59 74811 11 592482 7 11 2 2 11 2 48 2 11 7 2 59 2 147 2 711 11 11 59 2 1114 59 11 11 2 14 11 2 14 14 2 1459 14 149 2 91159 2 11 14 14 9 2 14 2 2 59 14 592 2 14 1414 9 2 14 14 2 9 2 14 14 2 1414 2 59 14 2 9 2 59 10 2 2 1022 9 14 14 214 10 14 59 2 1426591469 2 14 48 2 10 48 48 14 2 2 106 2 2 2 59 59 2 4810 2 6 2 14 1410 59 48 6 48 2 2 48 10 59 6 2 48 48 2 48 59 48 6 2 6 59 48 48 59 48 2 2 Z
Sections: 1 EA40X40X4 Y 2 EA50X50X4 Y 3 EA50X50X5 Y 6 EA60X60X4 Y 7 EA60X60X5 Y 8 EA60X60X6 Y 9 EA65X65X6 Y 10 EA70X70X5 Y 11 EA70X70X6 Y 14 EA75X75X6 Y 16 EA80X80X6 Y 17 EA80X80X8 Y 36 EA60X60X4 Y 38 EA60X60X6 Y 48 EA90X90X6 Y 49 EA90X90X7 Y 55 EA120X120X10 Y 59 EA150X150X12 Y
48 5948
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION ) II. INPUT DATA 3. LOAD DATA
Loading Data
LOADING DATA I.
Loading Data Conductor Item Type Weigth Diameter
Unit
Remark
kg/m mm
Value T ACSR 330 1,320 25,3
Unit
Value
Remark
Insulator Item Type Weigth Ground Wire Item Type Weigth Diameter
II.
0 Tension 5,50 per one unit
kg
Unit kg/m mm
Value
Remark GSW-55 0,442 9,6
Load Analysis (based on ASCE Standard 7-88) Wind Pressure on whole project area of : Item Conductor and Ground Wire Insulator Tower
Unit kN/m2 kN/m2 kN/m2
Value 0,392 0,589 1,177
Item
Unit kN/m m Unit kN
Value Remark 0,01295 0,0253 2 23,54 MWT / Conductor
Item
Unit
Conductor Weigth Nominal Diameter Number of Subconductor Max. Tension (Working Load) Insulator Set Number (Assumed) Total Weigth (incl. Accessories) Widht Length Total Length (incl. Accessories) Wind Load on Insulator : Longitudinal Wind Load Transverse Wind Load
Value
kN m/unit m/unit m
2 0,981 0,28 0,146 2,300
kN kN
0,379 0,379
x
Remark 12
Ground Wire Item Weigth Nominal Diameter Number of Subgroundwire Max. Tension (Working Load)
Unit kN/m m Unit kN
Value 0,00434 0,0096 1 13,734
Remark
MWT
/ Groundwire
Span Design for Conductor and Ground Wire Item Unit Normal Condition Basic Span m Wind Span m Weigth Span m Broken Condition Basic Span m Wind Span m Weigth Span m
Broken Cable Load Item Conductor Ground Wire
100% 100%
Safety Factor Item Normal Condition Broken Condition
Value 1,50 1,10
Value 150 184 109 150 200 200
Remark x MWT for x MWT for
Tension Tension
type type
Live Load Item Worker with equipment
Unit kg
Value 150
=
Remark 1,471 kN
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION ) II. INPUT DATA 4. LOAD CALCULATION
Loading Calculation
LOADING CALCULATION NORMAL CONDITION
I.
Safety Factor
=
1,50
VERTICAL LOADS a. Ground Wire Ground Wire Weight Worker with equipment
= =
1
x
109
x
0,00434 1,471 Total
Vertical Load = b.
Conductor Conductor Weight Worker with equipment Insulator Weight
= = =
1,50 x
2
x
2
x
109
1,944
x
0,01295 1,471 0,981 Total
Vertical Load =
II.
TRANSVERSE LOADS a. Ground Wire 1. Transverse Wind Wind on Ground Wire Angle Pull
= =
1,50 x
1 1
x x
184 2
x x
sin
0,392 37
6,256
x x
0,0096 13,734 Total
Transverse Load = 2. Longitudinal Wind Wind on Ground Wire Angle Pull
= =
1,50 x
1 1
x x
0 2
x x
sin
0,392 37
17,224
x x
0,0096 13,734 Total
Transverse Load = b.
Conductor 1. Transverse Wind Wind on Conductor Wind on Insulator Angle Pull
= = =
1,50 x
2 2 2
x x x
184
x
2
x
sin
0,392
x
37
x
16,531
0,02530 0,379 23,54 Total
Transverse Load = 2. Longitudinal Wind Wind on Conductor Wind on Insulator Angle Pull
= = =
1,50 x
2 2 2
x x x
0
x
2
x
x
37
x
0,02530 0,379 23,54
0,473 kN 1,471 kN 1,944 kN 2,915 kN
= = = = =
2,823 kN 1,471 kN 1,962 kN 6,256 kN 9,384 kN
= = = =
0,69 kN 16,531 kN 17,224 kN 25,836 kN
= = = =
0,00 kN 16,531 kN 16,531 kN 24,796 kN
= = = = =
3,653 kN 0,758 kN 56,677 kN 61,088 kN 91,632 kN
0,000 kN 0,758 kN 56,677 kN 57,435 kN 86,152 kN
Transverse Load =
1,50 x
57,435
= = = = =
III. LONGITUDINAL LOADS a. Ground Wire Ground Wire Tension = Longitudinal Load =
1,50 x
0
= =
0 kN 0 kN
1,50 x
0
= =
0 kN 0 kN
sin
0,392
61,088
= = = =
Total
a.
Conductor Conductor Tension = Longitudinal Load =
BROKEN CONDITION Safety Factor I.
VERTICAL LOADS a. Ground Wire i. Intact Wires : Ground Wire Weight Worker with equipment
=
1,10
= =
1
x
109
x
= 0,4726262 kN = 1,471 kN = 1,9436262 kN = 2,138 kN
1
x
200
x
= 0,867204 kN = 1,471 kN = 2,338 kN = 2,572 kN
2
x
109
x
2
x
= 2,8229256 kN = 1,471 kN = 1,962 kN = 6,256 kN = 6,882 kN
2
x
200
x
2
x
= = = = =
5,17968 kN 1,471 kN 1,962 kN 8,613 kN 9,474 kN
1
x
0,3924 37
x x
= = = =
0,693 kN 16,531 kN 17,224 kN 18,946 kN
= = = =
0,753 kN 8,265 kN 9,019 kN 9,921 kN
= = = =
0,000 kN 16,531 kN 16,531 kN 18,184 kN
= = = =
0,000 kN 8,265 kN 8,265 kN 9,092 kN
0,00433602 1,471 Total 1,10 x 1,94362618
Vertical Load = ii. Broken Wires : Ground Wire Weight Worker with equipment
= =
0,00433602 1,471 Total 1,10 x 2,338
Vertical Load = b.
Conductor i. Intact Wires : Conductor Weight Worker with equipment Insulator Weight
= = =
0,0129492 1,471 0,981 Total 1,10 x 6,256
Vertical Load = ii. Broken Wires : Ground Wire Weight Worker with equipment Insulator Weight
= = =
0,0129492 1,471 0,981 Total 1,10 x 8,613
Vertical Load =
II.
TRANSVERSE LOADS a. Ground Wire 1. Transverse Wind i. Intact Wires : Wind on Ground Wire Angle Pull
= =
184 2
x x
sin
0,00960 13,734 Total
Transverse Load = ii. Broken Wires : Wind on Ground Wire Angle Pull
= =
1,10 x
1
x
200 1
x x
sin
0,3924 37
17,224
x x
0,00960 13,734 Total
Transverse Load = 2. Longitudinal Wind i. Intact Wires : Wind on Ground Wire Angle Pull
= =
1,10 x
2
x
0 2
x x
sin
0,3924 37
9,019
x x
0,00960 13,734 Total
Transverse Load = ii. Broken Wires : Wind on Ground Wire Angle Pull
= =
1,10 x
1
x
0 1
x x
sin
0,3924 37
16,531
x x
0,00960 13,734 Total
Transverse Load =
1,10 x
8,265
b.
Conductor 1. Transverse Wind i. Intact Wires : Wind on Conductor Wind on Insulator Angle Pull
= = =
2 2 2
x x x
184
x
2
x
sin
0,3924
x
37
x
0,02530 0,379 23,544 Total
Transverse Load = ii. Broken Wires : Wind on Conductor Wind on Insulator Angle Pull
= = =
1,10 x
2 2 2
x x x
200
x
1
x
sin
0,3924
x
37
x
61,088
0,02530 0,379 23,544 Total
Transverse Load = 2. Longitudinal Wind i. Intact Wires : Wind on Conductor Wind on Insulator Angle Pull
= = =
1,10 x
2 2 2
x x x
0
x
2
x
sin
0,3924
x
37
x
33,067
0,02530 0,379 23,544 Total
Transverse Load = ii. Broken Wires : Wind on Conductor Wind on Insulator Angle Pull
= = =
1,10 x
2 2 2
x x x
0
x
1
x
x
37
x
0,02530 0,379 23,544
3,653 kN 0,758 kN 56,677 kN 61,088 kN 67,197 kN
= = = = =
3,971 kN 0,758 kN 28,338 kN 33,067 kN 36,374 kN
= = = = =
0,000 kN 0,758 kN 56,677 kN 57,435 kN 63,178 kN
0,000 kN 0,758 kN 28,338 kN 29,096 kN 32,006 kN
0 kN 0 kN
Transverse Load =
1,10 x
29,096
= = = = =
III. LONGITUDINAL LOADS a. Ground Wire i. Intact Wires : Ground Wire Tension = Longitudinal Load =
1,10 x
0
= =
13,734 x 1,10 x
100% 13,734
1,10 x
0
= =
0 kN 0 kN
23,54 x 1,10 x
100% 47,088
= =
47,088 kN 51,797 kN
sin
0,3924
57,435
= = = = =
Total
ii. Broken Wires : Ground Wire Tension = Longitudinal Load =
b.
1
x
Conductor i. Intact Wires : Conductor Tension = Longitudinal Load = ii. Broken Wires : Conductor Tension = Longitudinal Load =
2
x
= 13,734 kN = 15,1074 kN
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION ) II. INPUT DATA 5. LOADING TREE
Loading tree
LOADING TREE 1.
NORMAL (INTACT) IN DOUBLE CIRCUITS TRANSVERSE WIND CONDITION
CASE 200
1,458 kN
1,458 kN
12,918 kN
12,918 kN
0,000
kN
4,692
kN
0,000 kN 4,692 kN 45,816 kN
45,816 kN 0,000
kN
4,692
0,000 kN
kN
4,692 kN 45,816 kN
45,816 kN 0,000
kN
4,692
0,000 kN
kN
4,692 kN 45,816 kN
45,816 kN 0,000
kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
9,237 437,637
Longitudinal
2.
BROKEN GROUND WIRE IN DOUBLE CIRCUITS ( Ground Wire – Top Phase Conductor ) TRANSVERSE WIND CONDITION 2,572 kN
CASE 210
1,069 kN
9,921 kN
9,473 kN
15,107
kN
9,474
kN
0,000 kN 3,441 kN 33,598 kN
36,374 kN 51,797 kN
3,441
0,000 kN
kN
3,441 kN 33,598 kN
33,598 kN 0,000
kN
3,441
0,000 kN
kN
3,441 kN 33,598 kN
33,598 kN 0,000
kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
9,237 437,637
3.
BROKEN GROUND WIRE IN DOUBLE CIRCUITS ( Ground Wire – Medium Phase Conductor ) TRANSVERSE WIND CONDITION 2,572 kN
CASE 220
1,069 kN
9,921 kN
9,473 kN
15,107
kN
3,441
kN
0,000 kN 3,441 kN 33,598 kN
33,598 kN 0,000
kN
9,474
0,000 kN
kN
3,441 kN 33,598 kN
36,374 kN 51,797 kN
3,441
0,000 kN
kN
3,441 kN 33,598 kN
33,598 kN 0,000
kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
9,237 437,637
Longitudinal
4.
BROKEN GROUND WIRE IN DOUBLE CIRCUITS ( Ground Wire – Bottom Phase Conductor ) TRANSVERSE WIND CONDITION 2,572 kN
CASE 230
1,069 kN
9,921 kN
9,473 kN
15,107
kN
3,441
kN
0,000 kN 3,441 kN 33,598 kN
33,598 kN 0,000
kN
3,441
0,000 kN
kN
3,441 kN 33,598 kN
33,598 kN 0,000
kN
9,474
0,000 kN
kN
3,441 kN 33,598 kN
36,374 kN 51,797 kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
9,237 437,637
5.
BROKEN CONDUCTOR IN DOUBLE CIRCUITS ( Top Phase Conductor – Middle Phase Conductor ) TRANSVERSE WIND CONDITION 1,069 kN
CASE 240
1,069 kN
9,473 kN
9,473 kN
0,000
kN
9,474
kN
0,000 kN 3,441 kN 33,598 kN
36,374 kN 51,797 kN
9,474
0,000 kN
kN
3,441 kN 33,598 kN
36,374 kN 51,797 kN
6,882
0,000 kN
kN
3,441 kN 33,598 kN
67,197 kN 0,000
kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
9,237 437,637
Longitudinal
6.
BROKEN CONDUCTOR IN DOUBLE CIRCUITS ( Top Phase Conductor – Bottom Phase Conductor ) TRANSVERSE WIND CONDITION 1,069 kN
CASE 250
1,069 kN
9,473 kN
9,473 kN
0,000
kN
9,474
kN
0,000 kN 3,441 kN 33,598 kN
36,374 kN 51,797 kN
3,441
0,000 kN
kN
3,441 kN 33,598 kN
33,598 kN 0,000
kN
9,474
0,000 kN
kN
3,441 kN 33,598 kN
36,374 kN 51,797 kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
9,237 437,637
7.
BROKEN CONDUCTOR IN DOUBLE CIRCUITS ( Middle Phase Conductor – Bottom Phase Conductor ) TRANSVERSE WIND CONDITION 1,069 kN
CASE 260
1,069 kN
9,473 kN
9,473 kN
0,000
kN
3,441
kN
0,000 kN 3,441 kN 33,598 kN
33,598 kN 0,000
kN
9,474
0,000 kN
kN
3,441 kN 33,598 kN
36,374 kN 51,797 kN
9,474
0,000 kN
kN
3,441 kN 33,598 kN
36,374 kN 51,797 kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
9,237 437,637
Longitudinal
8.
NORMAL (INTACT) IN SINGLE CIRCUITS TRANSVERSE WIND CONDITION
CASE 270
2,915 kN
0,000 kN
25,836 kN
0,000 kN
0,000
kN
9,384
kN
0,000 kN 0,000 kN 0,000 kN
91,632 kN 0,000
kN
9,384
0,000 kN
kN
0,000 kN 0,000 kN
91,632 kN 0,000
kN
9,384
0,000 kN
kN
0,000 kN 0,000 kN
91,632 kN 0,000
kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
9,237 437,637
Loading tree
9.
BROKEN GROUND WIRE IN SINGLE CIRCUIT ( Ground Wire – Top Phase Conductor ) TRANSVERSE WIND CONDITION
CASE 280
2,572 kN
0,000 kN
9,921 kN
0,000 kN
15,107
kN
9,474
kN
0,000 kN 0,000 kN 0,000 kN
36,374 kN 51,797 kN
6,882
0,000 kN
kN
0,000 kN 0,000 kN
67,197 kN 0,000
kN
6,882
0,000 kN
kN
0,000 kN 0,000 kN
67,197 kN 0,000
kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
9,237 437,637
Longitudinal
10.
BROKEN GROUND WIRE IN SINGLE CIRCUITS ( Ground Wire – Middle Phase Conductor ) TRANSVERSE WIND CONDITION 2,572 kN
CASE 290
0,000 kN
9,921 kN
0,000 kN
15,107
kN
6,882
kN
0,000 kN 0,000 kN 0,000 kN
67,197 kN 0,000
kN
9,474
0,000 kN
kN
0,000 kN 0,000 kN
36,374 kN 51,797 kN
6,882
0,000 kN
kN
0,000 kN 0,000 kN
67,197 kN 0,000
kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
9,237 437,637
11.
BROKEN GROUND WIRE IN SINGLE CIRCUITS ( Ground Wire – Bottom Phase Conductor ) TRANSVERSE WIND CONDITION 2,572 kN
CASE 300
0,000 kN
9,921 kN
0,000 kN
15,107
kN
6,882
kN
0,000 kN 0,000 kN 0,000 kN
67,197 kN 0,000
kN
6,882
0,000 kN
kN
0,000 kN 0,000 kN
67,197 kN 0,000
kN
9,474
0,000 kN
kN
0,000 kN 0,000 kN
36,374 kN 51,797 kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
9,237 437,637
Longitudinal
12.
BROKEN CONDUCTOR IN SINGLE CIRCUITS ( Top Phase Conductor – Middle Phase Conductor ) TRANSVERSE WIND CONDITION 2,138 kN
CASE 310
0,000 kN
18,946 kN
0,000 kN
0,000
kN
9,474
kN
0,000 kN 0,000 kN 0,000 kN
36,374 kN 51,797 kN
9,474
0,000 kN
kN
0,000 kN 0,000 kN
36,374 kN 51,797 kN
6,882
0,000 kN
kN
0,000 kN 0,000 kN
67,197 kN 0,000
kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
9,237 437,637
13.
BROKEN CONDUCTOR IN SINGLE CIRCUITS ( Top Phase Conductor – Bottom Phase Conductor ) TRANSVERSE WIND CONDITION 2,138 kN
CASE 320
0,000 kN
18,946 kN
0,000 kN
0,000
kN
9,474
kN
0,000 kN 0,000 kN 0,000 kN
36,374 kN 51,797 kN
6,882
0,000 kN
kN
0,000 kN 0,000 kN
67,197 kN 0,000
kN
9,474
0,000 kN
kN
0,000 kN 0,000 kN
36,374 kN 51,797 kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
9,237 437,637
Longitudinal
14.
BROKEN CONDUCTOR IN SINGLE CIRCUITS ( Middle Phase Conductor – Bottom Phase Conductor ) TRANSVERSE WIND CONDITION 2,138 kN
CASE 330
0,000 kN
18,946 kN
0,000 kN
0,000
kN
6,882
kN
0,000 kN 0,000 kN 0,000 kN
67,197 kN 0,000
kN
9,474
0,000 kN
kN
0,000 kN 0,000 kN
36,374 kN 51,797 kN
9,474
0,000 kN
kN
0,000 kN 0,000 kN
36,374 kN 51,797 kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
9,237 437,637
15.
NORMAL (INTACT) IN DOUBLE CIRCUITS LONGITUDINAL WIND CONDITION
CASE 400
2,915 kN
1,458 kN
24,796 kN
12,398 kN
0,000
kN
9,384
kN
0,000 kN 4,692 kN 43,076 kN
86,152 kN 0,000
kN
9,384
0,000 kN
kN
4,692 kN 43,076 kN
86,152 kN 0,000
kN
9,384
0,000 kN
kN
4,692 kN 43,076 kN
86,152 kN 0,000
kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
9,237 437,637
Longitudinal
16.
BROKEN GROUND WIRE IN DOUBLE CIRCUITS ( Ground Wire – Top Phase Conductor ) LONGITUDINAL WIND CONDITION 2,572 kN
CASE 410
1,069 kN
9,092 kN
9,092 kN
15,107
kN
9,474
kN
0,000 kN 3,441 kN 31,589 kN
32,006 kN 51,797 kN
6,882
0,000 kN
kN
3,441 kN 31,589 kN
63,178 kN 0,000
kN
6,882
0,000 kN
kN
3,441 kN 31,589 kN
63,178 kN 0,000
kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
22, 263, 463,663
Loading tree
17.
BROKEN GROUND WIRE IN DOUBLE CIRCUITS ( Ground Wire – Medium Phase Conductor ) LONGITUDINAL WIND CONDITION 2,572 kN
CASE 420
1,069 kN
9,092 kN
9,092 kN
15,107
kN
6,882
kN
0,000 kN 3,441 kN 31,589 kN
63,178 kN 0,000
kN
9,474
0,000 kN
kN
3,441 kN 31,589 kN
32,006 kN 51,797 kN
6,882
0,000 kN
kN
3,441 kN 31,589 kN
63,178 kN 0,000
kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
22, 263, 463,663
Longitudinal
18.
BROKEN GROUND WIRE IN DOUBLE CIRCUITS ( Ground Wire – Bottom Phase Conductor ) LONGITUDINAL WIND CONDITION 2,572 kN
CASE 430
1,069 kN
9,092 kN
9,092 kN
15,107
kN
6,882
kN
0,000 kN 3,441 kN 31,589 kN
63,178 kN 0,000
kN
6,882
0,000 kN
kN
3,441 kN 31,589 kN
63,178 kN 0,000
kN
9,474
0,000 kN
kN
3,441 kN 31,589 kN
32,006 kN 51,797 kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
22, 263, 463,663
19.
BROKEN CONDUCTOR IN DOUBLE CIRCUITS ( Top Phase Conductor – Middle Phase Conductor ) LONGITUDINAL WIND CONDITION 2,138 kN
CASE 440
1,069 kN
18,184 kN
9,092 kN
0,000
kN
9,474
kN
0,000 kN 3,441 kN 31,589 kN
32,006 kN 51,797 kN
9,474
0,000 kN
kN
3,441 kN 31,589 kN
32,006 kN 51,797 kN
6,882
0,000 kN
kN
3,441 kN 31,589 kN
63,178 kN 0,000
kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
22, 263, 463,663
Longitudinal
20.
BROKEN CONDUCTOR IN DOUBLE CIRCUITS ( Top Phase Conductor – Bottom Phase Conductor ) LONGITUDINAL WIND CONDITION 2,138 kN
CASE 450
1,069 kN
18,184 kN
9,092 kN
0,000
kN
9,474
kN
0,000 kN 3,441 kN 31,589 kN
32,006 kN 51,797 kN
6,882
0,000 kN
kN
3,441 kN 31,589 kN
63,178 kN 0,000
kN
9,474
0,000 kN
kN
3,441 kN 31,589 kN
32,006 kN 51,797 kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
22, 263, 463,663
21.
BROKEN CONDUCTOR IN DOUBLE CIRCUITS ( Middle Phase Conductor – Bottom Phase Conductor ) LONGITUDINAL WIND CONDITION 2,138 kN
CASE 460
1,069 kN
18,184 kN
9,092 kN
0,000
kN
6,882
kN
0,000 kN 3,441 kN 31,589 kN
63,178 kN 0,000
kN
9,474
0,000 kN
kN
3,441 kN 31,589 kN
32,006 kN 51,797 kN
9,474
0,000 kN
kN
3,441 kN 31,589 kN
32,006 kN 51,797 kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
22, 263, 463,663
Longitudinal
22.
NORMAL (INTACT) IN SINGLE CIRCUITS LONGITUDINAL WIND CONDITION
CASE 470
2,915 kN
0,000 kN
24,796 kN
0,000 kN
0,000
kN
9,384
kN
0,000 kN 0,000 kN 0,000 kN
86,152 kN 0,000
kN
9,384
0,000 kN
kN
0,000 kN 0,000 kN
86,152 kN 0,000
kN
9,384
0,000 kN
kN
0,000 kN 0,000 kN
86,152 kN 0,000
kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
22, 263, 463,663
23.
BROKEN GROUND WIRE IN SINGLE CIRCUIT ( Ground Wire – Top Phase Conductor ) LONGITUDINAL WIND CONDITION 2,572 kN
CASE 480
0,000 kN
9,092 kN
0,000 kN
15,107
kN
9,474
kN
0,000 kN 0,000 kN 0,000 kN
32,006 kN 51,797 kN
6,882
0,000 kN
kN
0,000 kN 0,000 kN
63,178 kN 0,000
kN
6,882
0,000 kN
kN
0,000 kN 0,000 kN
63,178 kN 0,000
kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
22, 263, 463,663
Longitudinal
24.
BROKEN GROUND WIRE IN SINGLE CIRCUIT ( Ground Wire – Middle Phase Conductor ) LONGITUDINAL WIND CONDITION 2,572 kN
CASE 490
0,000 kN
9,092 kN
0,000 kN
15,107
kN
6,882
kN
0,000 kN 0,000 kN 0,000 kN
63,178 kN 0,000
kN
9,474
0,000 kN
kN
0,000 kN 0,000 kN
32,006 kN 51,797 kN
6,882
0,000 kN
kN
0,000 kN 0,000 kN
63,178 kN 0,000
kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
22, 263, 463,663
Loading tree
25.
BROKEN GROUND WIRE IN SINGLE CIRCUIT ( Ground Wire – Bottom Phase Conductor ) LONGITUDINAL WIND CONDITION 2,572 kN
CASE 500
0,000 kN
9,092 kN
0,000 kN
15,107
kN
6,882
kN
0,000 kN 0,000 kN 0,000 kN
63,178 kN 0,000
kN
6,882
0,000 kN
kN
0,000 kN 0,000 kN
63,178 kN 0,000
kN
9,474
0,000 kN
kN
0,000 kN 0,000 kN
32,006 kN 51,797 kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
22, 263, 463,663
Longitudinal
26.
BROKEN CONDUCTOR IN SINGLE CIRCUIT ( Top Phase Conductor – Middle Phase Conductor ) LONGITUDINAL WIND CONDITION 2,138 kN
CASE 510
0,000 kN
18,184 kN
0,000 kN
0,000
kN
9,474
kN
0,000 kN 0,000 kN 0,000 kN
32,006 kN 51,797 kN
9,474
0,000 kN
kN
0,000 kN 0,000 kN
32,006 kN 51,797 kN
6,882
0,000 kN
kN
0,000 kN 0,000 kN
63,178 kN 0,000
kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
22, 263, 463,663
27.
BROKEN CONDUCTOR IN SINGLE CIRCUIT ( Top Phase Conductor – Bottom Phase Conductor ) LONGITUDINAL WIND CONDITION 2,138 kN
CASE 520
0,000 kN
18,184 kN
0,000 kN
0,000
kN
9,474
kN
0,000 kN 0,000 kN 0,000 kN
32,006 kN 51,797 kN
6,882
0,000 kN
kN
0,000 kN 0,000 kN
63,178 kN 0,000
kN
9,474
0,000 kN
kN
0,000 kN 0,000 kN
32,006 kN 51,797 kN
0,000 kN Vertical NODE : Transversal
5,236 436,636
22, 263, 463,663
Longitudinal
28.
BROKEN CONDUCTOR IN SINGLE CIRCUIT ( Middle Phase Conductor – Bottom Phase Conductor ) LONGITUDINAL WIND CONDITION 2,138 kN
CASE 530
0,000 kN
18,184 kN
0,000 kN
0,000
kN
6,882
kN
0,000 kN 0,000 kN 0,000 kN
63,178 kN 0,000
kN
9,474
0,000 kN
kN
0,000 kN 0,000 kN
32,006 kN 51,797 kN
9,474
0,000 kN
kN
0,000 kN 0,000 kN
32,006 kN 51,797 kN
0,000 kN Vertical NODE : Transversal Longitudinal
5,236 436,636
22, 263, 463,663
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:24
Load Cases: 1.46 200 P NORMAL CONDITION (TRANSVERSAL WIND) 12.9
45.8
45.8
45.8
4.69
4.69
4.69
1.46 12.9
45.8
45.8
45.8
4.69
4.69
4.69
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:24
1.07 Load Cases: 2.57 9.47 15.1 210 P BROKEN GROUND WIRE IN DOUBLE CIRCUITS (TRANSVERSA 9.92
36.4
33.6
33.6
9.47 51.8
3.44
3.44
33.6
33.6
33.6
3.44
3.44
3.44
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:23
1.07 Load Cases: 2.57 9.47 15.1 220 P BROKEN GROUND WIRE IN DOUBLE CIRCUITS (TRANSVERSA 9.92
33.6
36.4
33.6
3.44
9.47 51.8
3.44
33.6
33.6
33.6
3.44
3.44
3.44
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:23
1.07 Load Cases: 2.57 9.47 15.1 230 P BROKEN GROUND WIRE IN DOUBLE CIRCUITS (TRANSVERSA 9.92
33.6
33.6
36.4
3.44
3.44
9.47 51.8
33.6
33.6
33.6
3.44
3.44
3.44
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:23
1.07 Load Cases: 2.14 (TRANSVERSA 9.47 240 P BROKEN GROUND WIRE IN DOUBLE CIRCUITS 18.9
36.4
36.4
33.6
9.47 51.8
33.6
9.47 51.8
33.6
3.44
33.6
11.9
3.44
3.44
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:23
1.07 Load Cases: 2.14(TRANSVERSAL 9.47 250 P BROKEN CONDUCTOR IN DOUBLE CIRCUITS 18.9
36.4
33.6
36.4
9.47 51.8
3.44
9.47 51.8
33.6
33.6
33.6
3.44
3.44
3.44
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:23
1.07 Load Cases: 2.14(TRANSVERSAL 9.47 260 P BROKEN CONDUCTOR IN DOUBLE CIRCUITS 18.9
33.6
36.4
36.4
3.44
33.6
9.47 51.8
33.6
9.47 51.8
33.6
3.44
3.44
3.44
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:23
2.91 Load Cases: 25.8 W 270 P NORMAL (INTACT) IN SINGLE CIRCUITS (TRANSVERSAL
91.6
9.38
91.6
9.38
91.6
9.38
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:22
2.57 Load Cases: 15.1 9.92 280 P BROKEN CONDUCTOR IN SINGLE CIRCUITS (TRANSVERSAL
36.4
9.47 51.8
67.2
6.88
67.2
6.88
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:22
2.57 Load Cases: 15.1 9.92 290 P BROKEN CONDUCTOR IN SINGLE CIRCUITS (TRANSVERSAL
67.2
36.4
67.2
6.88
9.47 51.8
6.88
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:22
2.57 Load Cases: 15.1 9.92 300 P BROKEN CONDUCTOR IN SINGLE CIRCUITS (TRANSVERSAL
67.2
6.88
67.2
6.88
36.4
9.47 51.8
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:22
2.14 Load Cases: 18.9 310 P BROKEN CONDUCTOR IN SINGLE CIRCUITS (TRANSVERSAL
36.4
36.4
67.2
9.47 51.8
9.47 51.8
6.88
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:22
2.14 Load Cases: 18.9 320 P BROKEN CONDUCTOR IN SINGLE CIRCUITS (TRANSVERSAL
36.4
67.2
36.4
9.47 51.8
6.88
9.47 51.8
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:22
2.14 Load Cases: 18.9 330 P BROKEN CONDUCTOR IN SINGLE CIRCUITS (TRANSVERSAL
67.2
36.4
36.4
6.88
9.47 51.8
9.47 51.8
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:21
Load Cases: 1.46 400 P NORMAL CONDITION (LONGITUDINAL WIND) 12.4
43.1
43.1
43.1
4.69
4.69
4.69
1.46 12.4
43.1
43.1
43.1
4.69
4.69
4.69
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:21
2.57 Load Cases: 15.1 1.07 (LONGITUDIN 9.09 410 P BROKEN GROUND WIRE IN DOUBLE CIRCUITS 9.09
31.6
31.6
31.6
3.44
3.44
3.44
32
31.6
31.6
9.47 51.8
3.44
3.44
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:21
2.57 Load Cases: 15.1 1.07 (LONGITUDIN 9.09 420 P BROKEN GROUND WIRE IN DOUBLE CIRCUITS 9.09
6.88
63.2 31.6
31.6
31.6
3.44
3.44
3.44
32
31.6
9.47 51.8
3.44
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:21
2.57 Load Cases: 15.1 1.07 (LONGITUDIN 9.09 430 P BROKEN GROUND WIRE IN DOUBLE CIRCUITS 9.09
31.6
31.6
31.6
3.44
3.44
3.44
31.6
31.6
32
3.44
3.44
9.47 51.8
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:21
2.14 Load Cases: 1.07 (LONGITUDIN 18.2 440 P BROKEN GROUND WIRE IN DOUBLE CIRCUITS 9.09
31.6
31.6
31.6
3.44
3.44
3.44
32
32
31.6
9.47 51.8
9.47 51.8
3.44
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:17
2.14 Load Cases: 1.07(LONGITUDINAL 18.2 450 P BROKEN CONDUCTOR IN DOUBLE CIRCUITS 9.09
31.6
31.6
31.6
3.44
3.44
3.44
32
31.6
32
9.47 51.8
3.44
9.47 51.8
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:16
2.14 Load Cases: 1.07(LONGITUDINAL 18.2 460 P BROKEN CONDUCTOR IN DOUBLE CIRCUITS 9.09
31.6
31.6
31.6
3.44
3.44
3.44
31.6
32
32
3.44
9.47 51.8
9.47 51.8
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:15
Load Cases: 2.91 470 P BROKEN CONDUCTOR IN SINGLE CIRCUITS 24.8 (LONGITUDINAL
86.2
9.38
86.2
9.38
86.2
9.38
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:15
Load Cases: 2.57 15.1 480 P BROKEN CONDUCTOR IN SINGLE CIRCUITS (LONGITUDINAL 9.09
32
9.47 51.8
63.2
6.88
63.2
6.88
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:15
Load Cases: 2.57 15.1 490 P BROKEN CONDUCTOR IN SINGLE CIRCUITS (LONGITUDINAL 9.09
6.88
63.2
32
63.2
9.47 51.8
6.88
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:15
Load Cases: 2.57 15.1 500 P BROKEN CONDUCTOR IN SINGLE CIRCUITS (LONGITUDINAL 9.09
63.2
6.88
63.2
6.88
32
9.47 51.8
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:15
Load Cases: 2.14 510 P BROKEN CONDUCTOR IN SINGLE CIRCUITS (LONGITUDINAL 18.2
32
32
63.2
9.47 51.8
9.47 51.8
6.88
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:15
Load Cases: 2.14 520 P BROKEN CONDUCTOR IN SINGLE CIRCUITS (LONGITUDINAL 18.2
32
9.47 51.8
6.88
63.2
32
9.47 51.8
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:15
Load Cases: 2.14 530 P BROKEN CONDUCTOR IN SINGLE CIRCUITS (LONGITUDINAL 18.2
6.88
63.2
32
32
9.47 51.8
9.47 51.8
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION ) II. INPUT DATA 6. INPUT TO MS TOWER
P T Bangun Sarana Bajam
Page 1 of 3 30 Jul 2018 3:50
ER\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.td
P T Bangun Sarana Bajam
Page 2 of 3 30 Jul 2018 3:50
ER\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.td
P T Bangun Sarana Bajam
Page 3 of 3 30 Jul 2018 3:50
ER\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.td
P T Bangun Sarana Bajam
Page 1 of 6 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.twr
P T Bangun Sarana Bajam
Page 2 of 6 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.twr
P T Bangun Sarana Bajam
Page 3 of 6 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.twr
P T Bangun Sarana Bajam
Page 4 of 6 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.twr
P T Bangun Sarana Bajam
Page 5 of 6 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.twr
P T Bangun Sarana Bajam
Page 6 of 6 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.twr
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION ) II. INPUT DATA 7. SECTION LIBRARY
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:31
Sections: 1 EA40X40X4 Y 2 EA50X50X4 Y 6 EA60X60X4 Y 36 EA60X60X4 Y
6 6 6
6
6 1 1
1
6
1
6
1
1
1
6 6
1 1
6
1 1
1 36
1
1
6 1
1
16
1
1 1
1
1
1
2
1
36 6
1 2
6
6 6
1
1
2
36 6
1
1
6 1
12 1
36
1
6
6
2 1
1 2
6 2 2
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:30
Sections: 2 EA50X50X4 Y 36 EA60X60X4 Y
2 2 36
2
2 2 2
36
2 2 2 2
36
2 2 2 2 2 2
36
36
2 2
2 2 2 2
36
2 2 2 2
36
2 2 2 2 2 2
36
36
2 2
2 2 2 2
36
2 2 2 2
36
2 2 2
2
36 2 2
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:30
Sections: 1 EA40X40X4 Y 2 EA50X50X4 Y 3 EA50X50X5 Y 6 EA60X60X4 Y 8 EA60X60X6 Y 36 EA60X60X4 Y
6
6 2
2 2
6 6 1 66 88 11
6 1 8
1 8
1
1 6
1 6
11
8 1
1
8
2
8 8
28 136
36
2 3 2 3
1
2 28
3
2
2
2
3
2 3
2 1
2
6
1 68 1
28 2 8
6 1 68 6 8 11 11 8
1 61 8
1
36 1 8
2 6 3 2
36
2
1
1
1
2
6 2
2
1 2 2
8
11
2
6
1
8
2
8
3
2 1 3 8
6
1
1
6
1
8
1 1
1 8
6
8 1 8
1
6 1 1 8
1 8
1 11 66 88
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:29
Sections: 16 EA80X80X6 Y 49 EA90X90X7 Y
16 16 49
16
16
16 16
49
16 16
16 16
49
16 16
16 16 16 16
49
49
16 16
16 16
16 16
49
16 16
16 16
49
16 16
16 16 16 16
49
49
16 16
16 16
16 16
49
16 16
16 16
49
16 16
16 16 16 16
49
49
16 16
16 16
16 16
49
16 16
16 16
49
16 16
16 16
49 16 16
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:29
Sections: 1 EA40X40X4 Y 2 EA50X50X4 Y 6 EA60X60X4 Y 8 EA60X60X6 Y 16 EA80X80X6 Y 38 EA60X60X6 Y 49 EA90X90X7 Y
6
6 38
38 2
6 6 1 66 88 11
6 1 8
1 8
1
1 6
1 6
11
8 1
1
8
38 1 16 38
8
11 8 8
16
168 149
16 38 16 38
49
6 38 1
16
1
16 388
38
38 16
16 8 38 8
2
16
16 38
6 1 68 6 8 11 11 8
1 61 8
1
49 1 8
16 6 38 16
49
2
16
38 1
6
1 68 1
1
1
16
6
1
8
2
8
38
16 1 38 8
6
1
1
6
1
8
1 1
1 8
6
8 1 8
1
6 1 1 8
1 8
1 11 66 88
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:28
Sections: 17 EA80X80X8 Y 55 EA120X120X10 Y
17 17 55
17
17
17 17
55
17 17
17 17
55
17 17
17 17 17 17
55
55
17 17
17 17
17 17
55
17 17
17 17
55
17 17
17 17 17 17
55
55
17 17
17 17
17 17
55
17 17
17 17
55
17 17
17 17 17 17
55
55
17 17
17 17
17 17
55
17 17
17 17
55
17 17
17 17
55 17 17
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:28
Sections: 1 EA40X40X4 Y 2 EA50X50X4 Y 3 EA50X50X5 Y 6 EA60X60X4 Y 8 EA60X60X6 Y 17 EA80X80X8 Y 38 EA60X60X6 Y 55 EA120X120X10 Y
6
6 38
38 2
6 6 1 66 88 11
6 1 8
1 8
1
1 6
1 6
11
8 1
1
8
38 1 17 38
8
11 8 8
17
178 155
17 38 17 38
55
6 38 1
17
1
17 388
38
38 17
17 8 38 8
2
17
17 38
6 1 68 6 8 11 11 8
1 61 8
1
55 1 8
17 6 38 17
55
3
17
38 1
6
1 68 1
1
1
17
6
1
8
3
8
38
17 1 38 8
6
1
1
6
1
8
1 1
1 8
6
8 1 8
1
6 1 1 8
1 8
1 11 66 88
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:28
Sections: 48 EA90X90X6 Y 59 EA150X150X12 Y
48 48 48
59
48 48 48 59
48 48 48
48 48
59 48
48 48 48 48
59
59
48 48
48 48 48
48 48
59
48
48 48
59
48 48 48
48 59 48 48
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:27
Sections: 48 EA90X90X6 Y 59 EA150X150X12 Y
48 48 59 48
48
48
48
48
59 48
48 48
59
48
48 48
48 48
59 48
48 59 48
48
48
48
48
48
59
48 48 48
59
48
48
59
48 48
48 48
48 48 48
59
48
48 48
48
59
48 48 59
48
48
48
48
48 59
48
48
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:26
Sections: 48 EA90X90X6 Y 59 EA150X150X12 Y
48 48 48
59
48 48 48 59
48 48 48
48 48
59 48
48 48 48 48
59
59
48 48
48 48 48
48 48
59
48
48 48
59
48 48 48
48 59 48 48
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:26
Sections: 2 EA50X50X4 Y 7 EA60X60X5 Y 11 EA70X70X6 Y 59 EA150X150X12 Y
7
2
7
2 2 59 2
11 2
7
7
2
11 2
11 2
11 2
11
11 2
7
2
2 2
59
11 2 7
2
7 2
7
2 2
59
2
11
11
11 11 11
11 11
2 59
11
11
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:25
Sections: 2 EA50X50X4 Y 9 EA65X65X6 Y 14 EA75X75X6 Y 59 EA150X150X12 Y
14
14 59 2
14 14 14
14
2
9 2
2 14 2
9
14
59
14 14
14
14
2
9
2 14
2 59
14
2
59
2 14
2
14
9
2
9 59
2 14
14 9
9
2
2 14
14 2
2
59
2
2
14 14 59
14 14
9
14
14
14
14
14 14
2 59
14
14
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 04:25
Sections: 2 EA50X50X4 Y 6 EA60X60X4 Y 10 EA70X70X5 Y 48 EA90X90X6 Y 59 EA150X150X12 Y
10
2
10
2 2
59
10
2
6
6
2
48 2 48
10 2
48 2
2
2
10 6 59
48
2
10
2 2 48
59 6
48
59
10
2
10
6
48
6
2 48
2
48 48
48 2
2
59
6
6
48
59 48 59 48
2
2
48
48 59
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION )
III. OUTPUT DATA
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION )
III. OUTPUT DATA 1. STRESS RATIO TABLE
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 1 of 9 30 Jul 2018 3:50
L O A D C A S E S
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 2 of 9 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 3 of 9 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 4 of 9 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 5 of 9 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 6 of 9 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 7 of 9 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 8 of 9 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 9 of 9 30 Jul 2018 3:50
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION )
III. OUTPUT DATA 2. STRESS RATIO GRAPH
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 03:49
Design Ratios - % of Code Capacity: <= 50 <= 95 <= 100 <= 105 <= 110 > 110
Z
Y X theta: 180 phi: 0
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 03:49
Design Ratios - % of Code Capacity: <= 50 <= 95 <= 100 <= 105 <= 110 > 110
Z
X Y theta: 270 phi: 0
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 03:49
Design Ratios - % of Code Capacity: <= 50 <= 95 <= 100 <= 105 <= 110 > 110
Y
Z X theta: 0 phi: 90
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
30 Jul 2018 03:48
Design Ratios - % of Code Capacity: <= 50 <= 95 <= 100 <= 105 <= 110 > 110
Z
Y X theta: 300 phi: 30
D:\DIVISI MStower TOWER\Tower [V6.02.016 ] 2017\Tower Tonassa CC1 70kV\Disain Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION )
III. OUTPUT DATA 3. JOINT REACTION
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 9 of 13 30 Jul 2018 3:51
5('($;;YF 5('($;; 5('($;;YF 5('($;; 5('($;;YF 5('($;; 5('($;;YF 5('($;;YF 5('($;;YF 5('($;;YF 5('($;; 5('($;;YF 5('($;;YF 5('($;;YF 5('($;;YF 0DVV6XPPDU\ 6HFW6L]HI\/P 0NJ ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< ($;;< 0VWRZHU95HDFWLRQV 72:(575$160,6,/,1(.9 && L O A D C A S E S &DVH<17LWOH 1'($'/2$'2)72:(5 1:,1'$772;$;,6 1:,1'$772;$;,6 11250$/&21',7,2175$169(56$/:,1' 1%52.(1*5281':,5(,1'28%/(&,5&8,7675$169(56$ 1%52.(1*5281':,5(,1'28%/(&,5&8,7675$169(56$ 1%52.(1*5281':,5(,1'28%/(&,5&8,7675$169(56$ 1%52.(1*5281':,5(,1'28%/(&,5&8,7675$169(56$ 1%52.(1&21'8&725,1'28%/(&,5&8,7675$169(56$/ 1%52.(1&21'8&725,1'28%/(&,5&8,7675$169(56$/ 11250$/,17$&7 ,16,1*/(&,5&8,7675$169(56$/: 1%52.(1&21'8&725,16,1*/(&,5&8,7675$169(56$/ 1%52.(1&21'8&725,16,1*/(&,5&8,7675$169(56$/ 1%52.(1&21'8&725,16,1*/(&,5&8,7675$169(56$/ 1%52.(1&21'8&725,16,1*/(&,5&8,7675$169(56$/ 1%52.(1&21'8&725,16,1*/(&,5&8,7675$169(56$/ 1%52.(1&21'8&725,16,1*/(&,5&8,7675$169(56$/ 11250$/&21',7,21/21*,78',1$/:,1' 1%52.(1*5281':,5(,1'28%/(&,5&8,76/21*,78',1 1%52.(1*5281':,5(,1'28%/(&,5&8,76/21*,78',1 1%52.(1*5281':,5(,1'28%/(&,5&8,76/21*,78',1 1%52.(1*5281':,5(,1'28%/(&,5&8,76/21*,78',1 1%52.(1&21'8&725,1'28%/(&,5&8,76/21*,78',1$/ 1%52.(1&21'8&725,1'28%/(&,5&8,76/21*,78',1$/ 1%52.(1&21'8&725,16,1*/(&,5&8,76/21*,78',1$/ 1%52.(1&21'8&725,16,1*/(&,5&8,76/21*,78',1$/ 1%52.(1&21'8&725,16,1*/(&,5&8,76/21*,78',1$/ 1%52.(1&21'8&725,16,1*/(&,5&8,76/21*,78',1$/ 1%52.(1&21'8&725,16,1*/(&,5&8,76/21*,78',1$/ 1%52.(1&21'8&725,16,1*/(&,5&8,76/21*,78',1$/ 1%52.(1&21'8&725,16,1*/(&,5&8,76/21*,78',1$/ <'(6,*1&$6('/:,1'75$1691250$/'28%/(&, <'(6,*1&$6('/:,1'75$169%52.(1*:7&'28 <'(6,*1&$6('/:,1'75$169%52.(1*:0&'28 <'(6,*1&$6('/:,1'75$169%52.(1*:%&'28
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 10 of 13 30 Jul 2018 3:51
<'(6,*1&$6('/:,1'75$169%52.(17&0&'28 <'(6,*1&$6('/:,1'75$169%52.(17&%&'28 <'(6,*1&$6('/:,1'75$169%52.(10&%&'28 <'(6,*1&$6('/:,1'75$1691250$/6,1*/(&, <'(6,*1&$6('/:,1'75$169%52.(1*:7&6,1 <'(6,*1&$6('/:,1'75$169%52.(1*:0&6, <'(6,*1&$6('/:,1'75$169%52.(1*:%&6, <'(6,*1&$6('/:,1'75$169%52.(17&0&6, <'(6,*1&$6('/:,1'75$169%52.(17&%&6, <'(6,*1&$6('/:,1'75$169%52.(10&%&6, <'(6,*1&$6('/:,1'/21*1250$/'28%/(&,5 <'(6,*1&$6('/:,1'/21*%52.(1*:7&'28% <'(6,*1&$6('/:,1'/21*%52.(1*:0&'28% <'(6,*1&$6('/:,1'/21*%52.(1*:%&'28% <'(6,*1&$6('/:,1'/21*%52.(17&0&'28% <'(6,*1&$6('/:,1'/21*%52.(17&%&'28% <'(6,*1&$6('/:,1'/21*%52.(10&%&'28% <'(6,*1&$6('/:,1'/21*1250$/6,1*/(&,5 <'(6,*1&$6('/:,1'/21*%52.(1*:7&6,1* <'(6,*1&$6('/:,1'/21*%52.(1*:0&6,1* <'(6,*1&$6('/:,1'/21*%52.(1*:%&6,1* <'(6,*1&$6('/:,1'/21*%52.(17&0&6,1* <'(6,*1&$6('/:,1'/21*%52.(17&%&6,1* <'(6,*1&$6('/:,1'/21*%52.(10&%&6,1* < &DVHVWREHFKHFNHG 1 1RW8VHG &HQWURLGRIVXSSRUWV 68332575($&7,216$SSOLHGWRWRZHU &DVH1RGH);)<)=0;0<0= 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 11 of 13 30 Jul 2018 3:51
5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 12 of 13 30 Jul 2018 3:51
5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 5HVXOWDQWDWFHQWURLG 68332575($&7,216$ORQJ/HJ &DVH0HPE)[)\)]0[0\0]
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
P T Bangun Sarana Bajam Job: MST CC TOWER TRANSMISI LINE 70KV CC+0
Page 13 of 13 30 Jul 2018 3:51
R\Tower 2017\Tower MStower Tonassa [V6.02.016 CC1 70kV\Disain ] Semen Tonasa\Disain CC1+0 Altrnatif\Disain CC1+0 - Alt 2 Single OK\MST CC.rpt
SUPPORT REACTION RESUME FOR TOWER 70 kV FOR TOWER FOUNDATION TYPE CC+0 ALTERNATIF 2 PT SEMEN TONASA PANGKAJENE KEPULAUAN
►
FOR NORMAL CONDITION 1.5 CASE
630
COMP
588,455
kN
CASE
630
Uplift
555,911
kN
CASE
630
Fx
66,925
kN
CASE
630
Fy
70,355
kN
All Forces Exclude Normal Safety Factor
►
FOR BROKEN CONDITION 1.1 CASE
609
COMP
756,195
CASE
609
Uplift
705,233
kN
CASE
634
Fx
67,145
kN
CASE
634
Fy
75,098
kN
All Forces Exclude Broken Safety Factor
kN
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION )
IV. DESIGN SUMMARY
Design Summary
DESIGN SUMMARY STANDART TOWER DOUBLE CIRCUIT – 70 kV TYPE CC+0 ( TENSION ) I.
DATA a. Tower Tower Type Line Angle
: :
b. Wind Load Tower Conductor Ground Wire Insulator
: : : :
c. Cable Load Conductor Ground Wire Insulator
: : :
Tension 74 º(max)
120 kg/m² 40 kg/m² 40 kg/m² 60 kg/m²
T ACSR 330 mm² GSW-55 mm² 255 x 146 mm²
d. Maximum Working Tension (MWT) Conductor : Ground Wire :
= 1,32 = 0,442 = 66
kg/m kg/m kg
2400 kg 1400 kg
e. Span Design for Conductor and Ground Wire Normal Condition Basic Span : Wind Span : Weight Span : Broken Condition Basic Span : Wind Span : Weight Span :
150 m 184 m 109 m 150 m 200 m 200 m
II. SUMMARY a. Maximum Stress Ratio Leg Bracing Horizontal Plan Bracing Redundant Cross Arm (main)
: : : : : :
0,708 0,741 0,616 0,621 0,191 0,682
EA150X150X12 EA80X80X6 EA70X70X5 EA50X50X4 EA40X40X4 EA60X60X6
< < < < < <
1 1 1 1 1 1
: : : : : :
OK! OK! OK! OK! OK! OK!
b. Maximum Slendernes Leg Bracing Horizontal Plan Bracing Redundant Cross Arm (main)
: : : : : :
56 116 120 137 101 46
EA150X150X12 EA80X80X6 EA70X70X5 EA50X50X4 EA40X40X4 EA60X60X6
< < < < < <
120 200 200 250 250 120
: : : : : :
OK! OK! OK! OK! OK! OK!
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION )
V. OUTLINE DRAWING
DOUBLE CIRCUIT TOWER TYPE CC+0 ( TENSION )
VI. APPENDIX