2. Grid Station
Grid station or substation is the main part in the high voltage transmission systems. As a general, it is mainly designed to step-up or step-down the voltage in the transmission system. The substations, depending upon their functions, are mainly classified into
1) Distribution Substations
2) Transmission Substations
3) Switching Substations
1.1. Distribution Substations
Distribution substation is a combination of the switching, controlling and voltage step-down equipments arranged to reduce the sub-transmission voltage to primary distribution voltage for residential and industrial use.
The distribution level voltage in Pakistan is 11kV.
1.2. Transmission Substations
Transmission substation is a combination of the switching, controlling and voltage step-up equipments arranged to increase the generated voltage to a level best suited for its transmission and that minimizes the losses.
The transmission voltage has different levels in different countries. In Pakistan the transmission level is 132kV, 220kV and 500kV.
1.3. Switching Substations
A switching substation is a substation which does not contain transformers and operates only at a single voltage level. Switching substations are sometimes used as collector and distribution stations.
Fig. 1 General Layout of Transmission and Distribution System
2. Need for the Grid stations
The power house produces a fixed amount of power that has to be transmitted over a long distance without or small losses in it. The dynamics that take part in transmitting our power are voltage and current and power factor. In some parts we need to increase current and reduce voltage and vice versa.
2.1. Transmission level:
The generated voltage at the power house is very low and when we transmit power at this voltage level over a long distance we lose it to a great extent, since voltage and current are inversely proportional to each other as shown in equation below;
P=VI
V=P/I
So a low voltage creates high current, and this high current is what that produces loss in power transfer as can be seen from the power loss equation;
P= I2 R
2.2. Distribution Level:
The power that reaches the distribution level has a very high voltage. This high voltage should be reduced so that it can be properly used for residential and commercial purposes
.3. Equipments used in the Grid Station
The equipments used in the sub-station are assigned standard specifications according to the IEC (International Electro-technical Commission) standards.
.3. Equipments used in the Grid Station
The equipments used in the sub-station are assigned standard specifications according to the IEC (International Electro-technical Commission) standards.
Note: IEC is a non-profit, non governmental international standard organization that prepares and publishes international standards for all electrical, electronics and related technologies.
3.1. Tests on Equipments
There are two types of tests that are carried out on each equipment before it is finally approved to be used in the sub station.
3.1.1. Type Tests
Type tests are carried out by the manufacturer after the equipment is completely designed and manufactured. These tests generally of normal type and include confirmation of name plate, ratings etc.
3.1.2. Routine tests
Routine tests are carried out by the independent laboratories that are internationally recognized and obey the IEC standards.
Following are some of the main equipments used in the substation.
1) Power transformer
2) Circuit breaker
3) Current transformer
4) Voltage transformer
5) Isolator
6) Surge arrester
7) Relays
8) Bus-bars
9) Insulators
10) Pad mounted transformer
11) Tension and suspension strings
i understand it basically about type and routine test
ReplyDeletetype test is done by the manufacturer and routine test is done by the
standardized laboratory.