What is BTU per hour?

BTU per hour is a unit of power used to measure the heating or cooling capacity of HVAC equipment. It is the standard rating system for air conditioners, furnaces, and heat pumps in the United States.

Real-world uses

BTU per hour is the standard power unit for rating furnaces, air conditioners, heat pumps, and boilers in the United States. A residential central air conditioner might be rated at 24,000–60,000 BTU/h. In casual use, the "/h" is often dropped, so "12,000 BTU air conditioner" actually means 12,000 BTU/h.

History

BTU/h became the standard power unit for the US HVAC industry during the post-World War II residential building boom, as central air conditioning and forced-air heating became widespread. Industry standards bodies such as AHRI codified BTU/h ratings for equipment comparison.

Common mistakes

Dropping the "/h": confusing BTU (energy) with BTU/h (power) is extremely common in HVAC contexts. A unit absorbing 12,000 BTU in one hour is operating at 12,000 BTU/h of capacity. Also, 1 ton of refrigeration = 12,000 BTU/h, which can cause confusion in capacity comparisons.

What is kilowatt?

A kilowatt is a unit of power equal to 1,000 watts. It is commonly used to rate electric motors, heating systems, solar panels, EV chargers, and industrial equipment.

Real-world uses

Kilowatts are used for rating home electrical systems, electric vehicle charging speeds (Level 2 chargers: 7–22 kW), solar panel array output, electric motors in appliances, and small generators. A typical household may have a peak demand of 3–10 kW.

History

As electricity supply systems expanded in the late 19th century, the kilowatt became the practical unit for measuring power demands and generation capacities beyond the range of single watts. Its adoption enabled standardised rating of motors, generators, and electrical infrastructure.

Common mistakes

Confusing kilowatts (kW, power) with kilowatt-hours (kWh, energy). A 7 kW EV charger running for 2 hours delivers 14 kWh of energy. Also, mixing up kW and kVA in electrical specifications—kVA is apparent power, not real power.

When is this conversion used?

Converting between BTU per hour and kilowatt is common when working across metric and imperial systems, such as international trade, travel between countries with different measurement standards, or following instructions from a different region.

Worked examples

1 BTU per hour = 0.00029307 kilowatt

1 kilowatt = 1,000 watt

How to convert BTU per hour to kilowatt

To convert BTU per hour to kilowatt, multiply the value by 0.00029307.

To convert kilowatt back to BTU per hour, multiply by 3,412.14163513.

Measurement standards

The watt is the SI derived unit of power, defined as one joule per second (kg·m²/s³). Horsepower remains in widespread informal use, particularly in the automotive industry, but has no single universal definition across regions.

Did you know?

The human body at rest produces about 80 watts of power — roughly enough to keep an incandescent light bulb glowing. During intense exercise, a trained cyclist can sustain over 400 watts, and elite sprinters briefly exceed 2,000 watts.

Quick reference: BTU per hour to kilowatt

BTU per hourkilowatt
0.10.00002931
0.50.00014654
10.00029307
20.00058614
50.00146536
100.00293071
250.00732678
500.01465355
1000.02930711
2500.07326777
5000.14653553
1,0000.29307107

Common values

BTU per hourkilowatt
LED light bulb34.12141635 BTU per hour0.01 kilowatt
Desktop computer1,023.64249054 BTU per hour0.3 kilowatt
Microwave oven3,412.14163513 BTU per hour1 kilowatt
Small car engine255,910.62263498 BTU per hour75 kilowatt
Wind turbine (large)10,236,424.90539923 BTU per hour3,000 kilowatt

Available Power units

More BTU per hour conversions

Assumption: horsepower values use mechanical horsepower.