How to Convert Kilocalories per Hour to Btu per Hour
To convert a power measurement from kilocalories per hour to btu per hour, multiply the power value by the conversion factor. Since one kilocalorie per hour is equal to 3.965667 btu per hour, you can use this formula:
The power in btu per hour is equal to the kilocalories per hour multiplied by 3.965667.
Using the formula: btu per hour = kilocalories per hour × 3.965667
btu per hour = 5 kcal/h × 3.965667 = 19.8283 Btu/h
Therefore, 5 kilocalories per hour equals 19.8283 btu per hour.
How Many Btu per Hour Are in a Kilocalorie per Hour?
There are 3.965667 btu per hour in one kilocalorie per hour.
What Is a Kilocalorie per Hour?
The kilocalorie per hour (symbol: kcal/h) is a unit of power based on the thermochemical kilocalorie. One kilocalorie per hour represents the rate of energy transfer of one kilocalorie (1,000 thermochemical calories) every hour. One thermochemical calorie equals exactly 4.184 joules. Kilocalories per hour are used in nutrition, exercise science, and metabolic studies to express the rate of energy expenditure by the human body. The basal metabolic rate (BMR) of an average adult is approximately 60–80 kcal/h (about 1,500–2,000 kcal/day), representing the energy used to maintain basic body functions at rest. During physical activity, energy expenditure increases significantly. Walking at a moderate pace burns about 200–350 kcal/h, running at 10 km/h burns about 600–800 kcal/h, and intense cycling can burn 700–1,000 kcal/h, depending on body weight and intensity. In food science and industrial heating, kilocalories per hour may be used to express the heating or cooling capacity of food processing equipment. In HVAC engineering in some countries (particularly in parts of Europe and Asia), kcal/h is used as an alternative to watts or Btu/h for rating heating and cooling capacity. The kilocalorie (often called “Calorie” with a capital C in nutrition) is the familiar unit used on food labels. When a food label says a serving contains 200 Calories, it means 200 kcal of energy.
One kilocalorie per hour is equal to:
- 1.16222 watts (W)
- 1,162.22 milliwatts (mW)
- 0.00116222 kilowatts (kW)
- 0.00155857 horsepower (hp)
- 3.96567 Btu per hour (Btu/h)
What Is a Btu per Hour?
The British thermal unit per hour (symbol: Btu/h) is a unit of power commonly used in the heating, ventilation, and air conditioning (HVAC) industry, particularly in the United States. One Btu per hour is the rate of energy transfer equal to one British thermal unit every hour. One BTU is defined as the amount of heat required to raise the temperature of one pound of water by one degree Fahrenheit at a constant pressure of one atmosphere. The International Table BTU equals exactly 1,055.05585262 joules. Btu per hour is the standard rating unit for heating and cooling equipment in the United States. Furnaces, air conditioners, heat pumps, and water heaters are all rated in Btu/h or thousands of Btu/h (MBtu/h or kBtu/h). A typical residential furnace is rated at 40,000–120,000 Btu/h, and a central air conditioner at 18,000–60,000 Btu/h. In the HVAC industry, the “ton of refrigeration” (12,000 Btu/h) is a common unit for air conditioning capacity. A 3-ton residential AC unit has a cooling capacity of 36,000 Btu/h. Natural gas consumption is also measured in Btu. A gas water heater might use 30,000–50,000 Btu/h, while a gas furnace might consume 60,000–100,000 Btu/h when running.
One btu per hour is equal to:
- 0.293071 watts (W)
- 293.071 milliwatts (mW)
- 2.93071 × 10−4 kilowatts (kW)
- 3.93015 × 10−4 horsepower (hp)
- 0.252164 kilocalories per hour (kcal/h)
Understanding Power Units
Power is the rate at which energy is transferred, converted, or used per unit of time. In physics, power equals work done divided by the time taken (P = W/t), or equivalently, force times velocity (P = Fv). Power is a scalar quantity measured in watts in the SI system.
Different power units reflect the diverse fields in which power is measured. The watt (and its multiples) dominate science and electrical engineering, while horsepower remains entrenched in the automotive and mechanical industries. Btu per hour is the standard in the American HVAC industry, and kilocalories per hour bridges the gap between physics and nutrition science.
Major Power Unit Families
- SI / Metric units: The watt (W) is the SI unit of power, with standard metric prefixes (μW, mW, kW, MW). One watt equals one joule per second (1 W = 1 J/s = 1 kg·m²/s³).
- Mechanical horsepower: Defined as 550 ft·lbf/s ≈ 745.7 W. Used primarily for rating engines and motors, especially in the US automotive industry.
- British thermal units per hour: Based on the BTU, a traditional unit of heat energy. 1 Btu/h ≈ 0.2931 W. Standard in the US HVAC industry for heating and cooling equipment ratings.
- Kilocalories per hour: Based on the thermochemical kilocalorie. 1 kcal/h ≈ 1.162 W. Used in nutrition, exercise science, and some HVAC applications outside the US.
Power in Everyday Life
- Lighting: LED bulbs use 5–15 W, CFL bulbs 13–25 W, and incandescent bulbs 40–100 W for comparable brightness.
- Computing: A smartphone charger delivers 5–25 W, a laptop uses 30–100 W, and a desktop gaming PC can draw 300–800 W.
- Transportation: A typical car engine produces 100–300 hp (75–225 kW), while a locomotive produces 3,000–6,000 hp (2.2–4.5 MW).
- Human body: At rest, the human body generates about 80–100 W of heat. During vigorous exercise, this can rise to 1,000–2,000 W.
Converting Between Power Units
All power units measure the same physical quantity — the rate of energy transfer — so converting between them is a matter of multiplying by the appropriate conversion factor. The factor is the ratio of how many watts one unit of the source contains divided by how many watts one unit of the target contains.
Key conversion constants: 1 hp = 745.7 W, 1 Btu/h ≈ 0.2931 W, 1 kcal/h ≈ 1.162 W. For SI prefixes, each step is a factor of 1,000 (1 kW = 1,000 W, 1 MW = 1,000 kW).
Tips for Power Conversions
- For SI metric conversions (μW, mW, W, kW, MW), each prefix step is a factor of 1,000. So 1 MW = 1,000 kW = 1,000,000 W.
- To convert horsepower to kilowatts, multiply by 0.7457. To go the other way, divide by 0.7457 (or multiply by 1.341).
- Quick mental estimate: 1 hp ≈ ¾ kW, or 4 hp ≈ 3 kW. This is handy for quick comparisons.
- In HVAC, 1 ton of refrigeration = 12,000 Btu/h ≈ 3.517 kW. A “3-ton” air conditioner = 36,000 Btu/h ≈ 10.55 kW.
- For Btu/h to watts: divide by 3.412. For watts to Btu/h: multiply by 3.412.
- The “Calories” on food labels are actually kilocalories (kcal). A food with 100 Calories provides 100 kcal of energy.
- Don’t confuse power (watts) with energy (watt-hours). A 100 W light bulb running for 10 hours uses 1,000 Wh = 1 kWh of energy.
- When comparing engine power ratings, ensure you’re using the same type of horsepower. Mechanical hp (≈ 745.7 W) is slightly different from metric hp (≈ 735.5 W).
Kilocalories per Hour to Btu per Hour Conversion Table
The following table shows conversions from kilocalories per hour to btu per hour.
| Kilocalories per Hour | Btu per Hour (Btu/h) |
|---|---|
| 1 kcal/h | 3.96567 |
| 2 kcal/h | 7.93133 |
| 3 kcal/h | 11.897 |
| 4 kcal/h | 15.8627 |
| 5 kcal/h | 19.8283 |
| 6 kcal/h | 23.794 |
| 7 kcal/h | 27.7597 |
| 8 kcal/h | 31.7253 |
| 9 kcal/h | 35.691 |
| 10 kcal/h | 39.6567 |
| 11 kcal/h | 43.6223 |
| 12 kcal/h | 47.588 |
| 13 kcal/h | 51.5537 |
| 14 kcal/h | 55.5193 |
| 15 kcal/h | 59.485 |
| 16 kcal/h | 63.4507 |
| 17 kcal/h | 67.4163 |
| 18 kcal/h | 71.382 |
| 19 kcal/h | 75.3477 |
| 20 kcal/h | 79.3133 |
| 21 kcal/h | 83.279 |
| 22 kcal/h | 87.2447 |
| 23 kcal/h | 91.2103 |
| 24 kcal/h | 95.176 |
| 25 kcal/h | 99.1417 |
| 26 kcal/h | 103.107 |
| 27 kcal/h | 107.073 |
| 28 kcal/h | 111.039 |
| 29 kcal/h | 115.004 |
| 30 kcal/h | 118.97 |
| 31 kcal/h | 122.936 |
| 32 kcal/h | 126.901 |
| 33 kcal/h | 130.867 |
| 34 kcal/h | 134.833 |
| 35 kcal/h | 138.798 |
| 36 kcal/h | 142.764 |
| 37 kcal/h | 146.73 |
| 38 kcal/h | 150.695 |
| 39 kcal/h | 154.661 |
| 40 kcal/h | 158.627 |