170MVA 400KV POWER TRANSFORMER
VILLE ENTERRPISE is Specialized in design,manufacture,test and export the 400KV 170MVA power transformer according to IEC standard
Transformer is designed with the noise level is a minimum and that the level of vibration does not adversely affect any clamping or produce excessive stress in any material.
The transformers IS designed with particular attention to the suppression of harmonic voltages especially the third and fifth. So as to eliminate waveform distortion and any possibility of high frequency disturbance, inductive effects etc, or of circulating current between the neutral points at different transforming stations reaching such a magnitude as to cause interference with communication circuits.
The Transformer Dimensioning is based on the short circuit currents and earth fault currents, which can arise for all conceivable faults in the system. The system ear thing and existing or planned parallel connection of transformers shall be taken into consideration. Normally, two or more transformers shall be considered to run in parallel
The power transformers is capable of withstanding without damage the thermal and dynamic effects of three and two phase short circuits and single line-to-ground faults for high and low terminals with specified system fault levels and in accordance with IEC publication 60076 -5.--Short circuit calculation based on IEC 60076 – 5/ANSI C57 – 12.00 shall be submitted for approval. For higher capacity transformers, one of the methods described in final report of CIGRE working group No.12.04 (Electra No. 67) titled “short circuit forces in transformers “may be referred.
Wherever specified, the transformer and its accessories shall be suitably constructed and treated for service conditions in hot climate and dusty atmosphere.
Description of such special treatment and precautions that power transformer are suitable for service conditions in a tropical climate shall be submitted
The complete assembled and installed transformers including all accessories shall be designed to safety withstand the dynamic earthquake forces. The produce the most severe loading of the equipment and its accessories.To prove the capability of the equipment to withstand an earthquake, the dynamic response calculations obtained by using an approved method shall be submitted.
--The transformers is designed to ensure that leakage flux does not cause
The transformers is suitable for operation at the elevation and under the ambient air temperature of the site according environmental site condition (section 2.4 table noAll current carrying components such as bushing, tap changers and connection shall have a minimum rated load carrying capacity equal to 120% of that of the associated winding under all service condition.In the case of failure of force cooling, transformer shall start from hot condition, be capable of remaining in operation without injurious heating for the following periods:
i) At full load for not less than 10 minutes after outage of all forced cooling.
ii) Transformers having no assigned rating for natural cooling shall be capable of remaining energized for not less than 1 hours without any load current.
iii) Transformers fitted with two groups of coolers each capable of dissipating 50 percent of the losses shall be capable of remaining in operation at full load for not less than 20 minutes in the event of all forced cooling associated with one stage of cooler.
2.3. System Performance Data
|
Item No. |
Description |
Particulars |
|
1 |
Nominal power rating MVA |
170 |
|
2 |
Nominal service voltage kVrms |
400 |
|
3 |
Max. system voltage kVrms |
420 |
|
4 |
System earthing |
Solid |
|
5 |
Rated frequency HZ |
50 |
|
6 |
3-Phase short circuit & earth fault current |
|
|
6.1 |
- Rated value kArms |
50/31.5 |
|
6.2 |
- Dynamic Value kApeak |
100/78.75 |
|
7 |
Max radio interference level measured at 1.1 rated system voltage at 1 MHz microV |
2500 |
|
8 |
Voltage below which corona shall not be visible kV |
500 |
|
9 |
Electrical & Safety Clearance |
|
|
10 |
Station service aux. AC supply |
IEC 60073-3 &IEC600711- 3 |
|
10.1 |
- Rated voltage V |
400/230 |
|
10.2 |
- Voltage variation % |
± 10% |
|
10.3 |
- Phase |
3(4wire) |
|
10.4 |
- Frequency Hz |
50 |
|
10.5 |
- Neutral earthing |
Solid |
|
11 |
Station service aux. DC supply |
|
|
11.1 |
- Rated voltage V |
110 |
|
11.2 |
- Voltage variation % |
+10,-15 |
|
11.3 |
- Wires |
2 |
|
11.4 |
|
Unearthed positive |
|
|
|
|
|
Item |
Description |
Required |
Guaranteed |
|
1 |
Substation name (s) |
|
|
|
2 |
Number of transformers变压器数量 |
One |
|
|
3 |
Type of winding线圈类型 |
Two winding |
|
|
4 |
Outdoor or indoor installation户外还是室内安装 |
Outdoor |
|
|
5 |
Three phase or single phase相数 |
3phase |
|
|
6 |
Separate winding or auto transformer独立绕组或自耦变压器 |
Separate独立绕组 |
|
|
7 |
Vector group连接组别 |
YNd11 |
|
|
8 |
Rated Frequency额定频率 |
50 |
|
|
9 |
Rated power at site condition现场条件下的额定功率 |
|
|
|
9.1 |
HV side MVA |
170 |
|
|
9.2 |
LV side MVA |
170 |
|
|
9.3 |
TV side MVA |
N.A. |
|
|
10 |
Rated voltage (Um)额定电压 |
|
|
|
10.1 |
HV side kVrms |
400 |
|
|
10.2 |
LV side kVrms |
33 |
|
|
10.3 |
TV side kVrms |
N.A. |
|
|
11 |
Impedance voltage (base of main winding and principal tap)阻抗电压(主绕组和主抽头的基极) |
|
|
|
11.1 |
HV/LV % |
15 |
|
|
11.2 |
HV/TV % |
N.A. |
|
|
11.3 |
LV/TV % |
N.A. |
|
|
12 |
Insulation levels at Site Condition 现场条件下的绝缘水平 |
|
|
|
|
Line terminal线路终端 |
|
|
|
12.1 |
Winding线圈 |
|
|
|
12.1.1 |
Rated voltage额定电压 |
|
|
|
a |
HV side kVrms |
400 |
|
|
b |
LV side kVrms |
33 |
|
|
c |
TV side kVrms |
N.A. |
|
|
12.1.2 |
Highest voltage for equipment (Um) 设备最高电压(Um) |
|
|
|
a |
HV side kVrms |
420 |
|
|
b |
LV side kVrms |
36 |
|
|
c |
TV side kVrms |
N.A. |
|
|
12.1.3 |
One minute power frequency withstand voltage一分钟工频耐受电压 |
|
|
|
a |
HV side kVrms |
520 |
|
|
b |
LV side kVrms |
70 |
|
|
c |
TV side kVrms |
N.A. |
|
|
12.1.4 |
Rated Lightning Impulse withstand voltage |
|
|
|
a |
HV side kVpeak |
1425 |
|
|
b |
LV side kVpeak |
170 |
|
|
c |
TV side kVpeak |
N.A. |
|
|
12.1.5 |
Rated switching Impulse withstand voltage额定操作冲击耐受电压 |
|
|
|
a |
HV side kVpeak |
1050 |
|
|
b |
LV side kVpeak |
N.A. |
|
|
c |
TV side kVpeak |
N.A. |
|
