Convert BTU per Hour to Watt (BTU/h → W)
BTU per hour is the standard rating for American heating, air-conditioning, and refrigeration system capacity.
BTU per Hour to Watt Conversion Table
10 common values| BTU per Hour | Watt |
|---|---|
| 1 BTU/h | 0.293071 W |
| 5 BTU/h | 1.465355 W |
| 10 BTU/h | 2.930711 W |
| 50 BTU/h | 14.653553 W |
| 100 BTU/h | 29.307107 W |
| 500 BTU/h | 146.53553 W |
| 1,000 BTU/h | 293.07107 W |
| 5,000 BTU/h | 1,465.3554 W |
| 10,000 BTU/h | 2,930.7107 W |
| 50,000 BTU/h | 14,653.553 W |
How to Convert BTU per Hour to Watt Manually
Step by StepConverting BTU per hour to watts 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 W is 0.293071. Multiply your value by this number.
- 3Read the result in wattsThe result is your value in watts (W).
Formula
Multiply the value in BTU per hour by 0.293071. For the reverse direction, multiply by 3.412142.
W = BTU/h × 0.293071BTU/h = W × 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 Watt
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 Watt?
The watt is the SI unit of power, equal to one joule per second (1 W = 1 J/s). Named after Scottish engineer James Watt (1736–1819), whose improvements to the steam engine sparked the Industrial Revolution, the watt unifies mechanical, electrical, and thermal power. A typical LED bulb consumes 8–12 W to produce as much light as a 60-W incandescent bulb. Human resting metabolism is about 80–100 W of heat output, while peak athletic performance reaches 400–1,500 W (briefly). The watt is fundamental in electrical engineering: P = V × I (power = voltage × current). It relates to the kilowatt (1 kW = 1,000 W), the megawatt (1 MW = 10⁶ W), horsepower (1 hp ≈ 745.7 W), and the BTU per hour (1 W ≈ 3.412 BTU/h). Light bulb and appliance ratings, electric motor outputs, and audio amplifier specifications all use the watt as the base unit.
- Light-bulb and appliance ratings
- Scientific and engineering power specs
- Radio and electronics power
LED bulb: 5–10 W. Laptop: 45 W. Kettle: 2200 W. Oven: 2000 W. Sun per m² on Earth: 1361 W/m².