DATA DATA PLTA IR.H.DJUANDA JATILUHUR

DATA – DATA PLTA IR.H.DJUANDA – JATILUHUR 1. Data Pusat Pembangkit a) Hidrologi
Luas daerah tangkapan hujan
Curah hujan tahunan rata-rata
Aliran tahunan rata-rata Maksimum Minimum Debit tahunan rata-rata

4500 2600 5,5 m i l y a r 7,2 m i l y a r 3,9 m i l y a r 175 m3 / detik

Km2 mm m3 m3 m3

b) Bendungan








Jenis : rockfill, dengan inti kedap air Elevasi puncak Panjang puncak Lebar puncak Tinggi dari dasar bendungan Lebar kaki (maksimum, membujur) Volume

114,5 1200 10 100 600 9.100.000

m m m m m m3

- Waduk
Duga muka air : normal 107 Maksimum 111,5 Minimum 75
Volume air waduk pada duga 107 m : 3 milyar
Volume air waduk pada duga 75 m : 960 j u t a
Luas permukaan air waduk pada duga 107 m: 83

m m m m3 m3 Km2

c) M e n a r a
Bentuk
Konstruksi
Lokasi





: : :

Tinggi (dari dasar) Diameter luar Tebal bagian atas Elevasi puncak

: : : :

Silinder, dengan sumbu vertical beton pada lereng bendungan sisi hulu (di dalam air waduk) 110 90 3,5 144,5

m m m m

1

d) Sarana penyaluran air dari waduk  Jendela Pelimpas
Lokasi : Sekeliling bangunan menara
Elevasi pelimpas : 107 m 3
Kapasitas pelimpas 3000 m / detik  2 Buah Katup Hollow Jet
Lokasi : Sisi kiri dan kanan
Elevasi sumbu katup : 49 m 3
Kapasitas : 270 m / detik (masing-masing untuk duga muka air 107 m)
Diameter : 4000 mm  6 Buah Turbin
Kapasitas (tiap turbin) 46,7 m3 / detik
Ukuran pintu pengambilan 5 x 2,40 m
Duga dasar pintu : Satuan I – VI 65 m Satuan II – III – IV – V 62,70 m Air dari jendela pelimpas sisi kanan, katup hollow jet kanan, dan turbin satuan I – II – III dialirkan melalui saluran buang kanan. Dari jendela pelimpas kiri, katup hollow jet kiri dan turbin satuan IV – V – VI melalui saluran buang kiri. Air dari turbin Bantu dapat dialirkan melaluio saluran buang kiri atau kanan. Kapasitas total saluran buang kiri dan kanan 3000 m3 / detik. e) Saluran Air  Pipa pesat








Jumlah Diameter Panjang Tebal Bahan Kapasitas Letak

6 3,25 m 65 m 20 mm : pelat baja AQ UNI 815 (open hearth) 47 m3 /detik : vertical (dalam beton dinding menara)

 Pipa Pelepas tekanan

2







Jumlah Diameter Bahan Letak

6 1 m : beton : Vertikal (dalam dinding menara sampai elevasi 114,50 m)

 Saluran Buang





Jumlah Diameter Kapasitas (total) Bahan

2 11 m 3000 m3 / detik beton bertulang

f) Gedung Pusat Pembangkit
Jenis : bawah tanah (bawah air)
Bentuk : cincin, di dasar bangunan Menara
Kapasitas alat angkat 110 Ton + 10 Ton & 10 Ton g) Pusat Pembangkit
Duga muka air hulu (waduk)

: Normal Maksimum Minimum


Duga muka air hilir : Satu Unit Operasi Dua Unit Operasi Tiga Unit Operasi Empat Unit Operasi Lima Unit Operasi Enam Unit Operasi
Elevasi Turbin
Jumlah satuan (unit)
Kapasitas terpasang

107 m 111,5 m 75 m 26,5 m 26,75 m 27 m 27,25 m 27,50 m 27,75 m 20,50 m 6 186,5 MW

3

TURBIN  OPERATING CONDITION
Maximum net head
Rated net head
Minimum net head
Maximum net head for 1 % of time
Head losses
Tail level with : One turbine in operation Two turbine in operation Three turbine in operation Four turbine in operation Five turbine in operation Six turbine in operation

80,20 m 77 m 48 m 55 m 0,50 m 26,50 26,75 27,00 27,25 27,50 27,75

m m m m m m

 Turbin
Manufacturer
Type
Direction of rotation (viewed from above)
Rated output
Rated speed
Rated head
Turbine discharge at full opening And rated head
Maximum runway speed
Flywheel effect of turbine rotating part
Maximum hydraulic thrust
Discharge diameter of runner
Distributor centerline elevation
Weight of runner
Weight of rotating parts  RUNNER
Nama Pabrik
Jenis
Jumlah terpasang
Daya nominal ( tinggi hidrolik 77 m

NEYRPIC Francis turbines Clockwise 32,3 MW 272,7 rpm 77 m 46,7 m3 / sec 590 rpm 900 tm2 90 tons 2340 mm 20,50 m 7 tons 15 tons NEYRPIC Francis 5

4










Putaran 272,2 rpm Daya maksimum Kecepatan putar Ukuran :  Diameter bagian bawah  Diameter bagian atas  Tinggi Jumlah blade Berat :  Runner Crown and Cone  Runner Band  Runner Blades  Berat total

MATERIAL

272,7 rpm 2420 mm h7 1963 mm h7 1390 mm 13 2155 1560 3235 6950

Kg. Kg Kg Kg.

: CASR STEEL – Z 5 CN 12 - 04 – M – GRADE A

MECHANICAL STEEL CHARACTERISTICS : Rp 0 . 2 = ≥ 550 MPA

Rm = 750 a 930

A 5d = ≥ 15 %

IMPACT TEST : Test Temperature = 00 C KV Mini ind = 21,3 ϑ

KV Moyene de 3 = ≥ 32 ϑ

 Efficiencies Net Head (m) 80 77 (*) 66 55 48

Output at full Openings ( kW ) 34.000 32300 (**) 26000 19200 14600

 Sistem Injeksi Udara
Nama Pabrik
Jumlah
Katup Balik :  Jenis  Bahan  Diameter

Effciencies under partial loads ( % ) 10/10 9/10 91,9 92,0 91,8 90,2 87,3

94,1 94,2 94,3 91,6 85,9

8/10 93,6 93,8 93,3 89,9 83,7

7/10

6/10

92,4 90,8 92,5 90,9 91,6 90,1 88,6 86,8 83,7 80,8

5/10 86,5 86,8 86,4 82,6 75,5

NEYRPIC 6 Bola Alumunium 150 mm

5

 Perapat Poros
Nama Pabrik
Jumlah
Bahan
Jumlah segmen per set
Debit air pendingin
Tekanan air pendingin

NEYRPIC 5 set Karbon 16 1 Liter / detik 2 bar

 Bantalan Radial
Nama Pabrik NEYRPIC
Jumlah 6
Diameter bantalan 600,4 h7
Toleransi minimum 0,4 mm
Toleransi maksimum 0,54 mm
Bahan Blok bantalan Babit
Sistem pelumasan Melumas sendiri (gaya sentrifugal)
Tanki Pelumas Berputar ( terpasang pada poros)
Jenis Minyak Pelumas shell Turbo 68
Volume minyak Pelumas 150 liter
Sistem pendingin air (bersih) sirkulasi tertutup
Pemindahan panas Didalam blok bantalan •

Data batasan operasional
Toleransi maksimum
Temperatur minyak alarm
Temperatur minyak trip

0,54 mm 650 C 750 C

 DRAFTUBE
Draftube terdiri dari 2 bagian ;  Bagian vertical : langsung dibawah rumah keong, berupa pipa konisdari plat baja (conical steel draftube), dengan ujung bawah (diameter yang lebih besar 2700 mm) terk\letak pada elevasi 17.25  Bagian horizontal : sebagai lanjutan dari bagian vertical, berupa dua saluran beton parallel dengan penampang berbentuk segi

6

 



empat, mengarah ke titik pusat menara dengan dasarnya pada elevasi 13.00 Pada draftube konis terpasang lubang orang ( man hole) berfungsi sebagai lubang tempat masuk kedalam draftube untuk mencapai runner dari sebelah bawah Pipa didalam draftube berfungsi untuk memasukkan udara luar (melalui katup searah) kedalam draftube (injeksi udara) guna mengurangi gejala kavitasi yang mengakibatkan kerusakan berupa lubangan kavitasi pada permukaan logam. Pada belokan dari bagian vertical menjadi horizontal dipasang pelat pemisah aliran berupa bidang lengkung yang posisinya mula-mula vertical, menjadi 900 dan berakhir mendatar (languette) untuk mengurangi turulensi pada aliran air dalam draftube. Pelat pemisah terdiri dari pelat baja (sebagai dinding luar dengan tebal 8 dan 16 mm) dengan ruang diantaranya diisi beton (tebal total makksimum 450 mm)

 Spiral casing (rumah keong)
Nama pabrik NEYRPIC
Jumlah 6
Ukuran :  Diameter maksimum (laluan air masuk) : 2550 mm  Radius rumah maksimum (dari titik runner) : 4550 mm  Radius rumah maksimum : 3200 mm  Tebal pelat baja (berangsur berkurang dari arah hulu ke hilir) 20, 16, 14, dan 12 mm  Bahan Baja siemens Martin A37 T25 Data batasan operasional :  Tekanan normal  Tekanan pengujian  Kecepatan air maksimum (tekanan cat)

8 kg / cm2 14,5 kg / cm2

 S U D U T E T A P (STAY VANE)
Nama pabrik NEYRPIC
Jumlah sudu (per Unit) 10
Tebal 70 mm
Radius lengjungan 750 mm
Bahan Baja Siemens Martin A42

7

 SUDU PENGATUR (WICKET GATE)
Nama Pabrik NEYRPIC
Jumlah sudu (per Unit) 20
Ukuran sudu :  Tebal (maksimum) 85 mm  Tinggi 680 mm  Lebar 500 mm  Bahan Z 5CN12-04M  Penampang laluan air antara dua sudu (posisi terbuka penuh) - tinggi 680 mm - lebar 210 mm  Luas laluan air maksimum antara dua sudu 1428 cm2  Kecepatan air maksimum (ketahanan cat) 10 m / detik  Kebocoran air maksimum 20 l / detik  STOPLOG
Nama Pabrik
Ukuran : Tinggi Lebar Tebal Tebal Pelat
Rel Stoplog berbentuk
Berat
Jumlah
Kapasitas alat pengangkat
Rel Penggantung
Minyak pelumas roda gigi
Pelindung Sling

GALILEO GALILEI 3395 mm 3220 mm 360 mm 12 mm Profil T (70 x 70 x 8 mm) 3700 Kg 4 5 ton Profil INP 260 Compond BB (SAE 90) Cardium Compond

GOVERNOR Number of turbines Type of turbine Net head Output

: : : :

6 Francis 48 to 80 32,4

m MW

8

Normal speed Runway speed

: :

272,7 590

rpm rpm

Governing system pressure : Nominal pressure Minimal assumed pressure to move the servomotors

:

27

bars

:

21,6

bars

Servomotors Number Stroke Bore diameter Rod diameter Total volume (2)

: : : : :

2 270 355 110 48,3

mm mm mm liter

Air accumulator Height cylindrical part Hs Diameter Ds Volume of elliptical part Ve Section cylindrical part Ss Total volume

: : : : :

1480 1110 184,42 96,7 1800

mm mm liter dm2 liter

: : :

12 liter / sec D 50 B DE (12 / 5,4)∧2 = 4,9 bar

Main distributing valve Closing discharge Main valve Neyrpic Max. pressure loss

Connection to servomotor is made with ∅ 80 mm piping. More generally, all precautions are taken in order to keep the oil flow speed under 2,4 m / s. The level is measured in dm, from the lower part of the cylindrical sleeve. A servomotor volume corresponds to a oil thickness of 0,5 dm. Pressure 29 27.8 27 25.2 23.4 22.7 21.5

Level 3.7 3.2 2.8 2 1.1 0.7 0

Level switch ND DA DB DC ND NC

Function Too high Injection Normal Established pressure Start auxiliary pump Unit shutdown Close shutoff valve

9

Diaphragm calculation Opening discharge Q = 4,831 l/s under 27 bars. Boring D = 13 mm Closing discharge Q = 12 l/s under 27 bars. Boring = 21 mm Pressure operating cycle In steady state operation of the unit, the pressure decreases slowly from 27 to 26 bars, due to normal leakage in the hydraulic valves and particularly the actuator. When 26 bars are reached, the operating pump discharge is directed towards the accumulator in order to recover the 27 bars pressure.During this cycle, the oil level fluctuates between 2,8 dm and 2,3 dm, wich corresponds to an oil volume of 49 liter. The deflation time depens on the valves leakages : Main valve : Actuator : Miscelleanous : Total : The estimated deflacting time is thus : 5 minuts

5 2,5 2,5 10

l / mn l / mn l / mn l /mn

Thermal dissipation In steady state operation of the unit, governing pressure is controlled through the two step cycle : Step Inflation Deflation Mean dissipation

Duration (s) 30 s 180 s

Pressure 27 2

Power kW 7 1.5 2.3

An oil – water heat exchanger is required, wich characteristics are summarized below : Fluid Discharge l/s I/O temperature Head loss bar

Oil 1,9 45 / 44,3 0,24

Water 1 38 / 38,6 0,17

For the sake of security, a water discharge of 1,5 l / s will be supplied

SPEED GOVERNORS Number of sets installed Manufacturer’s name Year of manufacture Designation

: : : :

5 Neyrpic 1992 DIGIPID 02

10

Type : Freq. Shifted power controller static droop Freq. Shifted power controller transient droop Time constant : Speed controller static droop : Main servo dead band Down : Main servo max. Opening time : Tyo Main servo max. Closing time : Tye Max. main servo position Yt max. : Speed power controller amplification gain Vr Speed power controller time constant Tn

Electronic 5 % 4 % 2 sec 5 % 0 Per unit 10 sec 4,1 sec 270 mm Per unit 10 Per unit 2 sec

GENERAL DESCRIPTION The DIGIPID electronic equipment comprises :  A card container in two sectors:  A “digital” sector accommodating all boards directly connected to the microprocessor bus : this sector is located on the left-hand side, when looking at the governor front face. It contains :  CPU  Arithmetic calcul processor  Tachometer  I / O, D / A, and A / D convers board  Logic input / output interface  Optional – card reserved spaces  RS422 serial communic to outside  D / A output conversion board



An “analog” sector on the right hand side containing :  One or two positioners  One or two power amplifiers  Logic I . S board  Input galvanic isolations  4 – 20 mA outputs, if any

ELECTRONIC BOARDS SIMPLE EUROBOARD format : The boards of the “digital” sector are designed wiyh a 96 pint connector to DIN 41612 and those of the “analog” sector with a 32 – point connector to DIN 41512 Bus G64 / G96 – PC 394 SBS4 board : It includes : Microprocessor (2 PROM – 1 RAM)

11

(3 PROM 1 RS 232 INTERFACE 1 Wathdog 1 DATA buffer + 1 adress and control buffer CALC board MEMORY BOARD TAC –HTR BOARD PC 389 MIADA BOARD – PC 342 MIDAC BOARD – PC 343 S 10 BOARD POSITIONER BOARD PC POS 380 POWER BOARD – PC PUIS ANALOG OUTPUT BOARD – PC 376 GALVANIC isolation of anlog inputs – PC 377 Logic I / O BOARD – PC 402 Monitoring Board – PC 406 MPPA CI 460 CARD MAIN CHARATERISTICS AND PERFORMANCES Tachometer inputs. 

One Unit and grid voltage transformer :  Transformer isolated inputs  Rated amplitude : Ao = 100 V, 100 V, 127 V, 220 V 380 V rms 3 single-phase  Minimum operating level : 1 % Ao  Absorbed current : 10 mA rms max.  Frequency deadband : 10 –4  Crystal frequency reference : precision = 10 –6

Parameter setting range     

operating point : -10% to + 10% of nominal frequency accelerometer : Tn = 0 to 100 s transient reaction time constant : Td = 0 to 100 s programmable by temporary speed droop : bt = 0 to 100 % means of keyboard or proportional gain ∞ to 0,1 permanent speed droop : 0 to 10 %

Logic inputs : on photocouplers  control by dry loop fed in 24 V dc by governor Logic outputs : by dry contacts

12

External load (or level, or opening) set-point  input isolated by solid state galvanic separator  standard ratings : 0 – 10 mA scale indicating unit full opening 4 – 20 mA  load taking slope grading adjustable from 5 sec to 1275 sec step by steps of 5 sec Opening limiter  operating time adjustable from 10 sec to 500 sec step by steps of 10 sec. CONTROL OF REGULATING DEVICE  Position adjustable from 0 to 100 % opening  Opening upon start up : 0 to 100%  Opening decrease upon start up : 0 to 100%  Opening decrease speed : 0 to 100% Or rated speed  Polarizations and pre-positioning : 0 to 100% GOVERNING CHARATERISTICS  Speed deadband : I x ≤ 2.10-4  Control signal deadband : ic < 2 x 11-3

adjustable by means of keyboard

MAIN CHARATERISTICS AND PERFORMANCES Tachometer inputs. 

One Unit and network voltage transformer :  Transformer isolated inputs  Rated amplitude : Ao single pass = 100 V, 100 V, 127 V, 220 V 380 V eff 3  Minimum operating level : 1 % Ao  Absorbed current : 10 mA rms max.  Frequency deadband : 10 –4  Crystal frequency reference : precision = 10 –6

Parameter setting range     

Adjustable operating point Accelerometer Transient reaction time constant Temporary speed droop or proportional gain Permanent speed droop

: -10% to + 10% : Tn = 0 to 100 s : Td = 0 to 100 s programmable : bt = 0 to 100 % through dialogue ∞ to 0,1 : 0 to 10 %

13

Logic inputs : on relays  control by dry loop fed in 24 V dc by governor  control current : 36 mA Logic outputs : through dry contacts  Breaking capacity : 0,5 A under 125 Vdc External load (or level, or opening) set-point  Galvanic solid state separator insulated input  standard ratings : 0 – 10 mA scale giving the unit full opening 4 – 20 mA  load taking ramp gradient, adjustable from set 5 sec 1275 sec step by steps of 5 sec Opening limiter  operating time adjustable from 10 sec to 500 sec step by steps of 10 sec. Speed set values :  Adjustable from 10% to 300 % of the rated speed  Output on reverse contact : 0,5 A under 100 Vdc Teleindications :  4 – 20 mA output – maximum load impendance : 250 Ω (The indicators are not supplied with the governor) Dielectric rigidity :    

Between power supply primary and earth Between tachometer inputs on voltage Transformers and earth Between logic input and earth Between analog inputs and earth (external order, level)

: 2000 f eff. 50 Hz-1 mm : 2000 f eff. 50 Hz-1 mm : 2000 f eff. 50 Hz-1 mm : 2000 f eff. 50 Hz-1 mm

MONITORING OF ADJUSTING GEARS   

Position adjustable from 0 to 100 % opening Opening upon start up : 0 to 100% Opening decrease upon start up : 0 to 100%

adjustable

14



Opening decrease rate



Polarizations and pre-positioning

: 0 to 100% or rated speed : 0 to 100%

through dialogue

GENERAL USE CONDITIONS Storage In a ventilated room, if possible in its original packing in proper condition. Temperature : 0 to 500C Hygrometry : 50 to 65% of relative humidity Prior to any energization, remove dust from the equipment and dry it. Operation : In a well-ventilwted room, in a non-corrosive atmosphere Temperature : 0 to 500C Hygrometry : 50 to 65% of relative humidity over the full the full above –stated temperature range

PINTU PENGAMBILAN ( INTAKE GATE )  Data teknik :
Nama Pabrik
Jumlah
Jenis pintu
Ukuran daun pintu
Berat daun pintu
Panjang perapat pintu
Cat pelindung
Sistem by pass

ALESSANDRO CALZONI 6 Daun 5 x 2,4 m 8.000 kg 12,4 m BITUSEALAC tebal 500 micron daun pintu diangkat setinggi 5 cm

15











Sistem penggerak Hidrolik Daya motor 27 kW Kapasitas pompa 3,5 liter / detik Jenis pompa Perpindahan positip dengan sudu datar radial Volume servomotor 550 liter Luas penampang torak 1085 cm2 Jenis minyak hidrolik SHELL TELLUS 37 Volume minyak 1200 liter

 Data Operasi Normal :
Tekanan minyak hidrolik (manometer 13) :  Start  Mencapai posisi by pass  Pintu dalam keadaan seimbang (pipa pesat terisi air)  Maksimum (penyetelan katup pengaman 4.3  Kapasitas servo motor (gaya angkat mak Simum dengan tekanan minyak 65 kg/cm2)  Waktu Pembukaan :
Mulai start sampai posisi by pass
Pengisian pipa pesat sampai penuh (TMA 107)
Mulai posisi by pass sampai terbuka penuh  Waktu Penutupan :
TMA 75 meter
TMA 114 meter Debit bocoran maksimum

60 kg / cm2 45 kg / cm2 16 kg / cm2 75 kg / cm2 70 Ton 0,5 menit 10 menit 3 menit

16 – 28 detik 6 - 10 detik 0,5 lt. / m / detik

16

THRUST BEARING Type

Separate pads supported by spherical bearings Thrust runner plate in one part Exchanger inside the vat

Directory of rotation :

single

Rated speed

:

272,7 rpm

Runaway speed

:

590

Rated load

:

240 000 daN

Number of pads

:

8

Internal diameter

:

0,72

m

External diameter

:

1,37

m

Angle

:

400

rpm

Total supporting surface

0,9484 m2

Total specific pressure

25 bar

Thrust bearing oil film thickness 0,065 mm  OIL USED
Grade ISO VG 68

17


Viscosity index
Kinematic
Total Volume

: : :

100 approx 40 cSt at 500 C 1500 dm3

 OPERATION OF THRUST BEARING
Inlet oil film temperature :
Outlet oil film temperature :
Mean oil film temperature :
Minimum oil film thickness :
Thrust bearing losses :

450 C 650 C 550 C 0,065 mm 75 kW

 OIL LIFTING SYSTEM
Discharge
Pressure
Pressure with zero discharge
Rotation speed
Rated power of motor

: : : : :

28 dm3 / min 150 bar 250 bar (upon start up) 1450 rpm 11 kW

Main injection pump
Pump - Manufacturer - Type - Reference - D ischarge - Nominale pressure

: : : : :

VOLVO fixed displacement pump F11 – 19 MBSNK 28 dm3 /s at 1460 rpm 150 bar


Motor - Manufacturer - Type - Reference - D ischarge - Rotation speed

: : : : :

GEC ALSTHOM Induction motor AFT 160 M04 11 kW 1460 rpm


Pressure relief valves - Manufacturer - Reference - Calibrated value

: : :

BOSCH 0532 – 002 – 044 250 bar




Chek valves

18

- Manucfacture - Over pressure - Connection diameter

: : :

MARRELHYDRO 3,58 bar ¾” BSP


High pressure filter - Manufacturer - Type - Reference - Clog warning indicator - Filtering Element - Absolute filtration rating

: : : : : :

HYDAC Double DF DK Visual Permanent metal element 40 micron


Low pressure filter - Manufacturer - Type - Reference - Clog warning indicator - Filtering Element - Absolute filtration rating

: : : : : :

PUROLATOR Single PI2015-68 Visual Permanent metal element 100 micron


Pressures switch - Manufacturer - Type - Range - Adjustement valve

: : : :

REGULAUTO ZPN 600 SH 25 – 175 bar Adjust at site


Pressures gauges - Manufacturer - Type - Range - Connector diameter

: : : :

BOURDON MIX 100 0 - 400 bar ½ BSP m>le


Low pressure valves - Manufacturer - Type - Nominal pressure - Nominal diameter

: : : :

LEGRIS Spherical valve 10 bar 1” BSP

19

MAIN GENERATOR







Manufacturer’s name : Year of manufacture : Standards : Frequency : Number of phases : Stator phases winding connection (the neutral point is normally grounded through a resistance to limit the generator ground fault current to 15 A during 10 sec)








Generator neutral Artificial neutral resistance Ventilation Cooling fluids Direction of rotation vieved from above
Travelling crane capacity
Clearance under hook above floor at elevation 22,25 Rated characteristics of the generator
Rated voltage between phase terminals
3 phase stator rated current

GEC ALSTHOM JEUMONT 1992 IEC 50 Hz 3 Star with nine ends of winding brought out and suitable for non effectively grounded operation

: : : :

brought out 8,8 Ω Closed circuit water / air

: :

clockwise 110 tons

:

10,50 meter

: :

6,3 kV ± 10% 3208 A ± 10%

20


Rated power factor, on inductive circuit
Continuous maximum rated output
Continuous rated active output at rated voltage and rated power factor

: :

0,93 lagging 35 MVA

:

32,55 MW


Continuous rated reactive output at Rated voltage and rated power factor (reactive power supply only)

:

+ 12,86 Mvar


Synchronous speed

:

272,7 rpm

:

ICE

: :

F B

:

F

:

B

b. Temperature rises
Maximum average temperature rise of the stator winding at continuous rated output

:

800 C


Maximum average temperature rise of the rotor winding at continuous rated output

:

900 C


Maximumaverage temperature Rise of the magnetic parts (iron) In contact with winding

:

800 C

Temperature riseses a. Insulation classes Insulation standard Stator insulation :
Insulation electrothermal class
Operation electrothermal class Rotor insulation :
Insulation electrthermal class between coil turns
Insulation electrothermal class between coils and ground

c. Maximum temperatures Maximum temperature of the stator winding :
Above air at 400 C :
Above water at 300 C : Maximum temperature of the rotor winding :
Above air at 400 C : 0
Above water at 30 C :

1200 C 1200 C 1300 C 1300 C

21

Maximum temperature at the hottest spot of the stator winding at continuous rated output Maximum temperature at the hottest spot of the rotor winding at continuous rated output Electrical characteristics :
Short Circuit data - Short circuit ratio for the rated output (Kc) - Instantaneous short circuit Current (3 phase terminal short circuit ) - Short circuit highest torque

:

1200 C

:

1300 C

:

1,14

: :

21 kA 13,8 x 106


Reactances - Armature resistance per phase Calculated at 750 C : - Field resistance calculated at 750 C : - direct – axis synchronous : - quadrature – axis synchronous reactance : - direct – axis transient reactance : - direct – axis subtransient reactance : - quadrature – axis subtransient reactance : - Negative phase sequence reactance : - zero – phase sequence reactance : - Short circuit sequence reactance : - Direct axis field time constance, armature in short circuit : - Direct axis field time constance, armature in open circuit :

Ra = 0,004268 Ω Rf = 0,27423 Ω Xd = 0,99 pu Xq = 0,65 pu X’d = 0,28 pu X”d = 0,16 pu X”q = 0,20 pu Xi = 0,18 pu Xo = 0,07 pu Kcc = 1.14 pu Td = 2 s Tdo = 7,28 s


Voltage and load variation Guaranteed maximum deviation factor of the no – load voltage wave – form from sine wave

:

1,5 %

22

Relative variations of voltage in the Rated load at steady speed and excitation at normal power factor : at unity power factor :

6,9 % 0 %

Unbalanced load Admissible unsymmetrical Permanent load

12 %

:


Permissible generator output as a function of cooling water temperature Cooling water temperature of 200 C Cooling water temperature of 250 C Cooling water temperature of 270 C Cooling water temperature of 300 C Cooling water temperature of 350 C Cooling water temperature of 400 C

39,1 38,0 37,6 35,9 35,7 34,2

MVA MVA MVA MVA MVA MVA


E f f i c i e n c i es According to standard IEC No. E 34.2 and UTE NF C 51 - 100 - at nominal power factor and at 100% load 98,40 % - at nominal power factor and at 75% load 98,26 % - at nominal power factor and at 50% load 97,87 % - at unity power factor and at 100% load 98,53 % - at unity power factor and at 75% load 98,39 % - at unity power factor and at 50% load 97,97 % - Guaranteed efficiency at rated values (rated output voltage and power factor) including exciter and voltage regulator losses 98,40 %
Losses According to standard IEC No. E 34.2 and UTE NF C 51 – 100 - exciting circuit losses : 96,6 kW - losses independent of current : 242,5 kW - direct load losses : 121,1 kW - stray – load losses : 70,6 kW - total losses : 530,8 kW - additional bearing losses (combined thrust bearing and guide bearing losses)

:

125 kW

23

- Maximum guaranteed losses including windage but excluding mechanical losses in guide bearing and thrust bearing - at nominal power factor and at 100% load - at nominal power factor and at 75% load - at nominal power factor and at 50% load - at nominal power factor and at 0% load - at unity power factor and at 100% load - at unity power factor and at 75% load - at unity power factor and at 50% load - at unity power factor and at 0% load
Mechanical characteristics Flywheel effect WD2 of rotating parts of the generator Maximum runway speed Runway duration without permanent deformation Maximum temperature of cooling water for oil and air cooling systems Maximum temperature of air leaving the generator air coolers
Stator casing manufacture data Stator casing overall outer diameter Diameter of the generator including heat exchanger Elevation of generator winding cover Total height of the stator casing

530,8 % 429,7 % 354,5 % 243,3 % 484,9 % 399,1 % 337,2 % 243,3 %

: :

900 tm2 590 rpm

:

indefinitely

:

300 C

:

400 C

:

5840

: : :

6540 mm 26,2 m 1645 mm


Stator magnetic core manufacture data Overall core outer diameter : Stator core bore diameter : Height of the laminated core including air vents : Number of vents : Number of slots : Size of slots (puching) : Number of sectors per turn : Number of joint : Type of overlapping : Specific loss of the stator lamination

mn

mm

4650 mm 4090 mm 1170 mm 27 234 104,5 x 18,3 mm 26 0 1/3

24

at one Tesia Weight of the action stator iron

: :


Stator winding manufacture data Type of compensation : Type of insulation : Type of winding : Number of conductors per slot : Number of parallel paths per phase : Number of slots per pole and per phase : Number of slots per pole : Winding step : Cross section of a conductor with Roebell type transposition : Maximum initial value of the dielectric factor tan (measured at 0,2 rated voltage)

1,10 W/kg 25.000 kg ROEBELL BARS 3600 DURITENAX IMBRICATED 2 2 36 / 11 36 / 11 10 ( 1 to 10 ) 473 mm2 0,03

maximum increase of the dielectric factor per measuring voltage interval D tan d/0,2 Un

:

0,005

Weight of cooper in stator

:

5367 kg

:

22

: : : : : : : :

3340 mm 1493 mm 444 mm 200 mm 46 70 x 3,9 mm 271,8 mm2 8536 kg

: :

17 mm 5770 mm

:

20 m3 / sec

: : :

1717 l / mn (28,6 l/s) 50 C 553 kW

:

420 l/mn (7 l/s)


Rotor manufacture data Number of poles Dimension of rotor coil : Average turn length Overall length Overall width Height Number of turns per pole Size of turns Section Weight of cooper in rotor Rotor Shaft : Air gap Overall rotor shaft length
Generator cooling system : Cooling air discharge Cooling water flow at 300 C for the generator air cooler, without bearings Temperature rise of cooling water Cooling system rated for losses Cooling water flow at 300 C for the Bearing of the generator

25


Generator air cooler data : Number of coolers per generator Location Manufacture Type Refigerante tipo Height Width Thickness Year Q water Maximum rated pressure Water inlet temperature Water outlet temperature Average speed of water circulating In the tubes Water flow for air coolers Testing pressure of the water circuit

: : : : ; : : : : : : : : : : :

6 Generator chamber BOLDROCHI BIASSONO – MILANO air / water Cooler 1415 mm 1430 mm 245 mm 1993 17,2 m3 /h 10 bar 300 C 350 C 1,5 m/s 103 m3 /h 15 bars

MAIN EXCITER Manufacturer’s Year Type Location Excitation current Excitation voltage Armature current Armature voltage Connection Rated speed Runway speed Excitation rated output Field supperession system Type voltage regulator

: SARELEM : 1993 : Rotating rectifier : Above upper bracket : 40 Amp. : 37 Volt : 486 Amp. : 135 Volt : Υ : 272,7 rpm : 590 rpm : 95 kW :by exciter field suppression : Jeumont Type P

POWER TRANSFORMER GENERAL CHARACTERISTICS Manufacturer’s name Year of manufacture Standard Normal protection Service

: : : : :

MARELLI 1963 ANSI Indoor Continuous

26

Altitude Type of transformer Number of phase units Number of phase in network system Network system voltage frequency Windings Dielectric Cooling Nominal rating (Sn) Rated voltage Current Connection Number of bushing Rated voltage (Un ±) Current Un Connection Number of phase bushings Number of neutral bushing Vector group Transformer impendance Voltage adjustment Winding Tap – changer switch operation Type Number of positions Number of steps Tapping range

: : : : : : : : : : : : : : : : : : : : : : : : : :

Less than 1.000 m Step – up 3 – phase 150 kV ± 10 % 50 Hz Cooper Oil OFW 35 MVA 6.300 Volt 3.207 Amp. ∆ (Delta) 3 150 kV ± 7,5 % 134,7 Amp. Υ (Star) 3 ( cable box ) 1 Ynd5 9,5 % Secondary Off – load and off voltage Wedge 3 2 ± 7,5 %

INSULATION LEVELS The insulation classes of the windings are those specified in the Standars ANSI C 57 – 12 – 00 given in the following table : TEST Applied voltage test 1 mn – 50 cycles kV rms Induced overvoltage test During 6000 cycles kV rms Impulse voltage test 1.2/50 microsec : full wave kV peak chopped wave

Primary winding Line Neutral

Secondary winding Line Neutral

26

NA

35

22

NA

325

95

NA

750 865

35

27

Test voltage of auxiliary low voltage equipment at 50 Hz during one minute : 2 kV. No load current No load current in % of the nominal current and : - At Un – 15 % : 0,4 % - At Un – 0 % : 0,8 % - At Un +15 % : 3 % Losses Iron losses ( ± 5%) in kW and : - At Un - 15 % - At Un - 10 % - At Un - 5 % - At Un - 0 % - At Un + 5 % - At Un + 10 % - At Un + 15 % Copper losses (± 5 %) in kW and - At 750 C and full load SN (guaranteed) Total losses (± 5 %) in kW and - At 750 C and full load SN

: : : : : : : :

30 kW 34 kW 38 kW 44 kW 50 kW 56 kW 63 kW

: :

153 kW :

197 kW

28