How many amps can a 500 kVA transformer supply?
Three Phase Transformer
KVA | 208V | 2400V |
---|---|---|
225 | 625 | 54.2 |
300 | 834 | 72.3 |
400 | 1112 | 96.3 |
500 | 1390 | 120 |
What is the weight of 500 kVA transformer?
1-2. 33kV – 400/230V
Item | Capacity | Total weight |
---|---|---|
kVA | kg | |
7 | 500 | 1900 |
8 | 630 | 2,300 |
9 | 800 | 2,650 |
What are the specifications of transformer?
11 kV.
How much does a 500 kVA transformer cost?
Specifications:
Reconditioned Price: | $9,850.00 |
---|---|
Phase: | 3 |
KVA: | 500 |
Primary Voltage: | 480 |
Secondary Voltage: | 395/230 |
How many amps is 45 kVA?
204.55 Amps
kVA To Amps Calculator (With Table)
kVA (Apparent Power) | Voltage (220 V) | Amperage (A) |
---|---|---|
How many amps is 10 kVA? | 220 V | 45.45 Amps |
How many amps is 20 kVA? | 220 V | 90.91 Amps |
How many amps is 30 kVA? | 220 V | 136.36 Amps |
How many amps is 45 kVA? | 220 V | 204.55 Amps |
How much does A 25 kVA transformer cost?
Ask any question you have in mind. We will be happy to answer.
Description | Transformer Prices |
---|---|
25 KVA | 45000/- |
100 KVA | 150000/- |
250 KVA | 270000/- |
400 KVA | 335000/- |
How do you convert kVA to kW?
Power Factor
- Apparent power (kVA) x power factor (pf) = actual power (kW)
- e.g. 100 kVA x 0.8 = 80 kW.
- The formula for converting kW into kVA is:
- Actual power (kW) / power factor (pf) = apparent power (kVA)
- 1 ton = 200 BTU/minute.
- 1 ton = 12,000 BTU/hour.
- 1 ton = 3.517 kilowatts.
How much does a 25 kVA transformer weight?
Products specifications
Kilovolt-amp(kVA) | 25 |
---|---|
Volt | 22 000/420 |
Your Industry | Agriculture |
Weight | 340kg |
Size | H 652mm x W 905mm x L 906mm |
What is HT and LT in transformer?
HT means high tension or high voltage, where in a small current is used with a very high voltage(for creating plasma). LT means low tension where in a low voltage is used with very high current(for heating the resistive boats).
What is 11kV transformer?
The 11kV lines are used in residential areas and is what feeds the local transformers, which then distributes power to the buildings in the area. 33kV lines on the other hand involve much higher voltages and are used to distribute power from one small sub-station to another.
What’s the cost of a transformer?
Power pole transformers cost anywhere from $3,000 to $7,000 each, depending on how much electricity they’re designed to handle. The money comes from utility customers.
What is the cost of electric transformer?
As the rating goes up so does the price of the transformers because of more material is used….Questions & Answers on Electrical Power Transformer.
Phase | Min Price | Max Price |
---|---|---|
Single Phase | Rs 5,000 | Rs 1.5 Lakhs |
Three Phase | Rs 10,000 | Rs 1 Crore |
How do you calculate kVA rating for transformer?
Due to temperature rise, the rating of the transformer is generally measured in kilo-volt-ampere(kVA) instead of Kilowatts(kW). Refer this online tutorial to learn how to calculate kilovolt-ampere(kVA) in a three phase transformer. Formula Used: kVA Rating of Three Phase Transformer = (√3 x V x I) /1000. Where,V = Voltage. I = Current.
What is the max load of 500 kVA DG?
The maximum load on 500KVA DG set will be 500*0.8 = 400kW, even though the generator is capable of supplying 500KW at UPF. The rated power factor of a DG set specifies the maximum kW loading of the DG set which is 400kW in your case. However, the DG sets are usually not run at their rated kW capacity.
How do you calculate kVA from amps?
S (kVA) = I (A) x V (V) / 1000 , which means that the apparent power in Kilovolt-amps is calculated by multiplying the current in amps with the voltage in volts and dividing the results by 1000.
How do you calculate the output of a transformer?
Divide the number of secondary windings by the number of primary windings, and multiply the source voltage by this ratio. This will give you the output voltage. For example, a voltage source that sends 240 volts through a transformer with 500 primary windings and 100 secondary windings would have an output voltage of 240 * (100/500) = 48 volts.