Convert BTU per Hour to Volt-Ampere (BTU/h → VA)
BTU per hour is the standard rating for American heating, air-conditioning, and refrigeration system capacity.
BTU per Hour to Volt-Ampere Conversion Table
10 common values| BTU per Hour | Volt-Ampere |
|---|---|
| 1 BTU/h | 0.293071 VA |
| 5 BTU/h | 1.465355 VA |
| 10 BTU/h | 2.930711 VA |
| 50 BTU/h | 14.653553 VA |
| 100 BTU/h | 29.307107 VA |
| 500 BTU/h | 146.53553 VA |
| 1,000 BTU/h | 293.07107 VA |
| 5,000 BTU/h | 1,465.3554 VA |
| 10,000 BTU/h | 2,930.7107 VA |
| 50,000 BTU/h | 14,653.553 VA |
How to Convert BTU per Hour to Volt-Ampere Manually
Step by StepConverting BTU per hour 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 BTU per hourStart with the number of BTU per hour (BTU/h) you want to convert.
- 2Multiply by 0.293071The conversion factor from BTU/h to VA is 0.293071. 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 BTU per hour by 0.293071. For the reverse direction, multiply by 3.412142.
VA = BTU/h × 0.293071BTU/h = VA × 3.412142Tips
Use these in everyday conversions- 1 BTU/h = 0.293 W; 3412 BTU/h = 1 kW.
- 12,000 BTU/h = 1 ton of refrigeration.
- Tons of AC rating: divide BTU/h by 12,000.
Common Mistakes
Avoid these- Confusing BTU (energy) with BTU/h (power) — same abbreviation in ads.
- Mixing tons of AC and tons of weight — different concepts.
- Using BTU/h for non-HVAC contexts.
About BTU per Hour and Volt-Ampere
What is the BTU per Hour?
BTU per hour (BTU/h or BTUh) is the standard rating for American heating, air-conditioning, and refrigeration system capacity. A window air conditioner is typically 5,000–12,000 BTU/h, central residential AC ranges 24,000–60,000 BTU/h, and commercial chillers reach 100,000–1,000,000+ BTU/h. The unit's persistence in HVAC reflects American engineering tradition: it directly links cooling/heating capacity to the BTU energy unit familiar in gas-fired equipment. 12,000 BTU/h equals 'one ton of refrigeration' (a unit derived from the heat needed to melt 1 ton of ice in 24 hours), so AC sizes are sometimes given in 'tons' (a 3-ton AC = 36,000 BTU/h). BTU/h relates to the watt (1 W ≈ 3.412 BTU/h), the kilowatt (1 kW ≈ 3,412 BTU/h), and the ton of refrigeration (12,000 BTU/h = 1 ton). Outside the US, kW is dominant for HVAC capacity.
- US air conditioners and heat pumps
- US furnace and boiler ratings
- Some industrial heat-exchanger specs
Small window AC: 5000 BTU/h. Central AC: 24,000 BTU/h. Home furnace: 80,000 BTU/h.
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.