Convert Megawatt to Volt-Ampere (MW → VA)
The megawatt rates power plants, large industrial facilities, and grid-scale renewable installations worldwide.
Megawatt to Volt-Ampere Conversion Table
10 common values| Megawatt | Volt-Ampere |
|---|---|
| 1 MW | 1,000,000 VA |
| 5 MW | 5,000,000 VA |
| 10 MW | 10,000,000 VA |
| 50 MW | 50,000,000 VA |
| 100 MW | 100,000,000 VA |
| 500 MW | 500,000,000 VA |
| 1,000 MW | 1,000,000,000 VA |
| 5,000 MW | 5,000,000,000 VA |
| 10,000 MW | 10,000,000,000 VA |
| 50,000 MW | 50,000,000,000 VA |
How to Convert Megawatt to Volt-Ampere Manually
Step by StepConverting megawatts to volt-amperes is straightforward: multiply by the conversion factor. Follow these three steps to do it by hand or in your head.
- 1Take your value in megawattsStart with the number of megawatts (MW) you want to convert.
- 2Multiply by 1,000,000The conversion factor from MW to VA is 1,000,000. Multiply your value by this number.
- 3Read the result in volt-amperesThe result is your value in volt-amperes (VA).
Formula
Multiply the value in megawatts by 1,000,000. For the reverse direction, multiply by 0.000001.
VA = MW × 1,000,000MW = VA × 0.000001Tips
Use these in everyday conversions- 1 MW = 1000 kW = 1,000,000 W.
- GW (gigawatt) = 1000 MW for country-scale generation.
- For energy output, multiply MW × hours = MWh.
Common Mistakes
Avoid these- Confusing MW (power) with MWh (energy).
- Using kW for large generation — numbers become unwieldy.
- Mixing installed capacity (MW) with actual output (which depends on use).
About Megawatt and Volt-Ampere
What is the Megawatt?
The megawatt equals 1,000,000 watts (or 1,000 kW) and rates power plants, large industrial facilities, and grid-scale renewable installations worldwide. A typical natural-gas turbine generates 50–500 MW, a nuclear reactor produces 800–1,600 MW, and the largest hydroelectric plant (Three Gorges Dam in China) has 22,500 MW capacity. Wind turbines are rated 1.5–15 MW each (modern offshore turbines reach 14 MW). Solar farms range from 50 MW (small) to 1,500+ MW (large utility-scale projects). Electric grid demand for entire countries is measured in gigawatts (1 GW = 1,000 MW): the United States peaks at about 750 GW. The megawatt relates to the kilowatt (1,000 kW = 1 MW), the gigawatt (1,000 MW = 1 GW), and the megawatt-hour (when multiplied by time). Electricity wholesale markets bid in MW capacity and MWh energy.
- Power-station electrical output
- Wind and solar farm capacity
- Large industrial electricity consumption
Large wind turbine: 5–15 MW. Nuclear reactor: 1000 MW. London's peak demand: ~6000 MW.
What is the Volt-Ampere?
The volt-ampere (VA) is the SI unit of apparent power in alternating-current (AC) electrical systems. Equal to volts times amperes, the VA represents the magnitude of power flowing in an AC circuit before accounting for the phase relationship between voltage and current. For purely resistive loads (incandescent bulbs, heaters), 1 VA = 1 W. For reactive loads (motors, transformers, fluorescent lights), the apparent power (VA) is larger than the real power (W) because of the phase shift — the ratio is the 'power factor.' Transformers, UPS units, and generators are rated in VA or kVA (kilo-VA) because they must handle the apparent power, not just the real power. A typical home UPS for a desktop computer is 600–1,500 VA. The VA relates to the watt (1 VA = 1 W only at unity power factor), the kilovolt-ampere (1 kVA = 1,000 VA), and the megavolt-ampere (1 MVA = 10⁶ VA — used in utility-scale transformers).
- Transformer sizing
- Uninterruptible power supply (UPS) ratings
- Generator capacity
Home UPS: 600–1500 VA. Transformer: kVA ratings. Motor power factor typically 0.8 — 1 kW motor = 1.25 kVA.