Watt to Kilocalorie per Hour Converter
Convert watts to kcal/h with our free online power converter.
Quick Answer
1 Watt = 0.860421 kcal/h
Formula: Watt × conversion factor = Kilocalorie per Hour
Use the calculator below for instant, accurate conversions.
Our Accuracy Guarantee
All conversion formulas on UnitsConverter.io have been verified against NIST (National Institute of Standards and Technology) guidelines and international SI standards. Our calculations are accurate to 10 decimal places for standard conversions and use arbitrary precision arithmetic for astronomical units.
Watt to Kilocalorie per Hour Calculator
How to Use the Watt to Kilocalorie per Hour Calculator:
- Enter the value you want to convert in the 'From' field (Watt).
- The converted value in Kilocalorie per Hour will appear automatically in the 'To' field.
- Use the dropdown menus to select different units within the Power category.
- Click the swap button (⇌) to reverse the conversion direction.
How to Convert Watt to Kilocalorie per Hour: Step-by-Step Guide
Converting Watt to Kilocalorie per Hour involves multiplying the value by a specific conversion factor, as shown in the formula below.
Formula:
kcal/h = W × 0.860421Example Calculation:
1 W = 0.860421 kcal/h
Disclaimer: For Reference Only
These conversion results are provided for informational purposes only. While we strive for accuracy, we make no guarantees regarding the precision of these results, especially for conversions involving extremely large or small numbers which may be subject to the inherent limitations of standard computer floating-point arithmetic.
Not for professional use. Results should be verified before use in any critical application. View our Terms of Service for more information.
Need to convert to other power units?
View all Power conversions →What is a Watt and a Kilocalorie per Hour?
The Physics of Power
Power is the rate at which work is done or energy is transferred.
Mathematical Definition: $$ P = \frac{E}{t} $$ Where:
- $P$ = Power (Watts)
- $E$ = Energy (Joules)
- $t$ = Time (seconds)
Dimensional Analysis: $$ 1 \text{ W} = 1 \frac{\text{J}}{\text{s}} = 1 \frac{\text{kg} \cdot \text{m}^2}{\text{s}^3} $$
Electrical Definition: For electrical circuits, power is the product of voltage and current: $$ P = V \times I $$ Where:
- $P$ = Power (Watts)
- $V$ = Voltage (Volts)
- $I$ = Current (Amperes)
Example:
- A device drawing 5 Amps at 120 Volts consumes:
- $P = 120 \text{ V} \times 5 \text{ A} = 600 \text{ W}$
Watt vs. Watt-Hour (The Confusion)
This is the #1 source of confusion about watts.
- Watt (W): A unit of power (rate of energy use).
- Watt-hour (Wh) or Kilowatt-hour (kWh): A unit of energy (total amount of energy used).
The Analogy:
- Watts are like miles per hour (speed).
- Watt-hours are like miles (distance).
Example:
- A 100 W light bulb running for 10 hours uses:
- $100 \text{ W} \times 10 \text{ h} = 1,000 \text{ Wh} = 1 \text{ kWh}$
Your electricity bill charges you for kWh (energy), not kW (power).
1 kcal/h = 1.163 W = 0.001163 kW = 0.00156 hp = 3.968 BTU/h = 4,184 J/h
Note: Uses food Calorie (Cal) = kilocalorie (kcal) = 1,000 small calories
Note: The Watt is part of the imperial/US customary system, primarily used in the US, UK, and Canada for everyday measurements. The Kilocalorie per Hour belongs to the imperial/US customary system.
History of the Watt and Kilocalorie per Hour
: James Watt and the Steam Revolution
The Man Behind the Unit
James Watt (1736-1819) was a Scottish instrument maker and inventor. While he didn't invent the steam engine, he made it vastly more efficient, enabling the Industrial Revolution.
His Key Innovation (1769): Watt added a separate condenser to the Newcomen steam engine. This kept the main cylinder hot, reducing fuel consumption by 75%. Suddenly, steam engines became economical for factories, mines, and transportation.
The Irony: Watt also coined the term "horsepower" to market his engines (see our horsepower article). Yet the unit named after him—the watt—would eventually replace horsepower as the global standard for electrical power.
Official Adoption
- 1882: The British Association for the Advancement of Science officially adopted the "watt" as the unit of electrical power, replacing the awkward "volt-ampere."
- 1889: The International Electrical Congress endorsed the watt.
- 1960: The watt was incorporated into the International System of Units (SI) as the standard unit of power.
The Original Definition
The watt was originally defined in relation to the absolute watt, based on mechanical power: $$ 1 \text{ W} = 10^7 \text{ erg/s} $$ (The erg is an obsolete CGS unit of energy.)
Today, the watt is defined in terms of fundamental SI units: $$ 1 \text{ W} = 1 \frac{\text{kg} \cdot \text{m}^2}{\text{s}^3} $$
Common Uses and Applications: watts vs kcal/h
Explore the typical applications for both Watt (imperial/US) and Kilocalorie per Hour (imperial/US) to understand their common contexts.
Common Uses for watts
1. Electrical Appliances
Every electrical device has a power rating in watts, indicating how much electricity it consumes when operating.
- Low Power (1-100 W): LED bulbs, phone chargers, alarm clocks.
- Medium Power (100-1,000 W): Laptops, TVs, fans, blenders.
- High Power (1,000-5,000 W): Microwaves, hair dryers, space heaters, ovens.
- Very High Power (5,000+ W): Electric water heaters, EV chargers, central AC.
2. Electricity Bills
Your utility company charges you for energy (kWh), not power (kW).
- Formula: $\text{Cost} = \text{Power (kW)} \times \text{Time (hours)} \times \text{Rate ($/kWh)}$
- Example: A 1,500 W space heater running 8 hours/day for 30 days:
- Energy = $1.5 \text{ kW} \times 8 \text{ h/day} \times 30 \text{ days} = 360 \text{ kWh}$
- Cost = $360 \text{ kWh} \times $0.10/\text{kWh} = $36$
3. Solar Panels & Renewable Energy
Solar panels are rated by their peak power output in watts under ideal conditions (full sun, 25°C).
- Residential Panel: 300-400 W.
- 10-Panel System: 3,000-4,000 W (3-4 kW).
- Daily Energy (sunny location): ~15-20 kWh.
4. Electric Vehicles
EV charging power determines how fast the battery charges.
- Level 1 (120V outlet): 1,400 W (1.4 kW) - adds ~4 miles/hour.
- Level 2 (240V charger): 7,200 W (7.2 kW) - adds ~25 miles/hour.
- DC Fast Charging: 50,000-350,000 W (50-350 kW) - adds 150-1,000 miles/hour.
5. Audio Equipment
Speaker and amplifier power ratings indicate maximum output.
- Bluetooth Speaker: 5-20 W.
- Home Theater Receiver: 100-200 W per channel.
- Concert PA System: 10,000-50,000 W.
When to Use kcal/h
Metabolism: Basal metabolic rate (BMR), daily energy expenditure. Nutrition: Energy requirements, dietary planning. HVAC: Human body heat load in building calculations (Europe). Sports Science: Exercise energy expenditure, training zones.
Additional Unit Information
About Watt (W)
How do I calculate my electricity bill from watts?
Step-by-Step:
- Find the power rating (in watts) on the device label.
- Estimate daily usage (in hours).
- Calculate daily energy: $\text{kWh/day} = \frac{\text{Watts} \times \text{Hours}}{1,000}$
- Calculate monthly energy: $\text{kWh/month} = \text{kWh/day} \times 30$
- Calculate cost: $\text{Cost} = \text{kWh/month} \times \text{Rate}$
Example: 1,500 W space heater, 6 hours/day, $0.12/kWh
- Daily energy: $(1,500 \times 6) / 1,000 = 9 \text{ kWh}$
- Monthly energy: $9 \times 30 = 270 \text{ kWh}$
- Monthly cost: $270 \times $0.12 = $32.40$
What is the difference between watts and volts?
- Volts (V): Electrical pressure (potential difference). Like water pressure in a pipe.
- Amps (A): Electrical flow rate (current). Like gallons per minute.
- Watts (W): Electrical power (rate of energy transfer). Like horsepower.
The Relationship: $$ \text{Watts} = \text{Volts} \times \text{Amps} $$
Example:
- A device at 120 V drawing 10 A consumes:
- $120 \times 10 = 1,200 \text{ W}$
Why do some devices say "VA" instead of "W"?
VA (Volt-Amperes) is apparent power, while W (Watts) is real power.
- For resistive loads (heaters, incandescent bulbs), VA = W.
- For reactive loads (motors, transformers), VA > W.
Example:
- A motor rated at 1,000 VA with a power factor of 0.8 actually consumes:
- $1,000 \times 0.8 = 800 \text{ W}$
How many watts does a house use?
Average US Home:
- Peak Power: 5,000-10,000 W (5-10 kW) when AC, oven, and dryer run simultaneously.
- Average Power: 1,000-1,500 W (1-1.5 kW) continuous.
- Monthly Energy: 900-1,000 kWh.
Off-Grid Solar System Sizing:
- To power a typical home, you'd need a 10-15 kW solar array with battery storage.
What is a megawatt?
1 Megawatt (MW) = 1,000,000 Watts = 1,000 kW
Used for large-scale power generation and consumption.
- Wind Turbine: 2-3 MW.
- Small Power Plant: 50-100 MW.
- Large Coal Plant: 500-1,000 MW.
- Nuclear Reactor: 1,000 MW (1 GW).
How many watts can a standard outlet provide?
US Standard (120V, 15A circuit): $$ 120 \text{ V} \times 15 \text{ A} = 1,800 \text{ W} $$ Safe continuous load: 1,440 W (80% of max).
US Heavy Duty (120V, 20A circuit): $$ 120 \text{ V} \times 20 \text{ A} = 2,400 \text{ W} $$ Safe continuous load: 1,920 W.
240V Outlet (Dryer, Oven, EV Charger): $$ 240 \text{ V} \times 30 \text{ A} = 7,200 \text{ W} $$
Can I run a 1,500 W heater on a 15A circuit?
Technically yes, but it's pushing the limit.
- 1,500 W at 120 V draws 12.5 A.
- Circuit Breaker: 15 A.
- Safety Margin: You should stay under 80% (12 A).
Recommendation: Run the heater alone on that circuit. Don't plug in other devices.
What is "peak watts" vs "continuous watts"?
- Continuous Watts: The power a device can sustain indefinitely.
- Peak Watts (Surge Watts): The power a device draws briefly during startup.
Example: Refrigerator
- Running: 150 W.
- Startup (Compressor Kick): 600-800 W for 1-2 seconds.
Why It Matters: When sizing a generator or inverter, you need to account for peak watts, not just continuous watts.
About Kilocalorie per Hour (kcal/h)
How do I convert kcal/h to watts?
Formula: W = kcal/h × 1.163
Examples:
- 60 kcal/h = 70 W (sleeping)
- 100 kcal/h = 116 W (sitting)
- 500 kcal/h = 582 W (running)
- 1,000 kcal/h = 1,163 W = 1.16 kW
How do I calculate my basal metabolic rate (BMR)?
Mifflin-St Jeor Equation (most accurate):
Men: BMR (kcal/day) = 10 × weight(kg) + 6.25 × height(cm) - 5 × age(years) + 5 Women: BMR (kcal/day) = 10 × weight(kg) + 6.25 × height(cm) - 5 × age(years) - 161
Convert to kcal/h: Divide by 24
Example - 30-year-old male, 80kg, 180cm:
- BMR = (10 × 80) + (6.25 × 180) - (5 × 30) + 5 = 1,730 kcal/day
- Hourly rate: 1,730 ÷ 24 = 72 kcal/h = 84 W
Example - 30-year-old female, 65kg, 165cm:
- BMR = (10 × 65) + (6.25 × 165) - (5 × 30) - 161 = 1,370 kcal/day
- Hourly rate: 1,370 ÷ 24 = 57 kcal/h = 66 W
What is the difference between kcal/h and cal/s?
kcal/h = Kilocalories per hour (large Calorie per hour) cal/s = Calories per second (small calorie per second)
Conversion: 1 cal/s = 3.6 kcal/h
Usage:
- kcal/h: Metabolism, nutrition (aligns with daily calorie counts)
- cal/s: Physics, thermodynamics
Example: 100W power
- As watts: 100 W
- As kcal/h: 86 kcal/h
- As cal/s: 24 cal/s
How many kcal/h do I burn exercising?
MET (Metabolic Equivalent) method:
Formula: kcal/h = MET × weight(kg) × 1.05
Common MET values:
- Sleeping: 0.9 METs
- Sitting: 1.0 METs
- Walking (3 mph): 3.5 METs
- Jogging (5 mph): 8.0 METs
- Running (7 mph): 11.5 METs
- Cycling (moderate): 8.0 METs
- Swimming (moderate): 8.0 METs
Example - 70kg person running at 7 mph:
- kcal/h = 11.5 × 70 × 1.05 = 845 kcal/h = 982 W
Example - 70kg person walking at 3 mph:
- kcal/h = 3.5 × 70 × 1.05 = 257 kcal/h = 299 W
Why does HVAC use kcal/h in some countries?
Historical: European HVAC tradition used kcal/h before SI adoption Body heat: Natural unit for human heat output (matches food calories) Transition: Many European countries now use watts Mixed practice: Some European standards still reference kcal/h
Conversion for HVAC:
- 1 person (seated): 100 kcal/h = 116 W
- Conference room (20 people): 2,000 kcal/h = 2,320 W = 2.32 kW
- Gym (50 people, active): 20,000 kcal/h = 23,200 W = 23.2 kW
Modern practice: Most HVAC calculations now in watts or BTU/h.
Conversion Table: Watt to Kilocalorie per Hour
| Watt (W) | Kilocalorie per Hour (kcal/h) |
|---|---|
| 0.5 | 0.43 |
| 1 | 0.86 |
| 1.5 | 1.291 |
| 2 | 1.721 |
| 5 | 4.302 |
| 10 | 8.604 |
| 25 | 21.511 |
| 50 | 43.021 |
| 100 | 86.042 |
| 250 | 215.105 |
| 500 | 430.21 |
| 1,000 | 860.421 |
People Also Ask
How do I convert Watt to Kilocalorie per Hour?
To convert Watt to Kilocalorie per Hour, enter the value in Watt in the calculator above. The conversion will happen automatically. Use our free online converter for instant and accurate results. You can also visit our power converter page to convert between other units in this category.
Learn more →What is the conversion factor from Watt to Kilocalorie per Hour?
The conversion factor depends on the specific relationship between Watt and Kilocalorie per Hour. You can find the exact conversion formula and factor on this page. Our calculator handles all calculations automatically. See the conversion table above for common values.
Can I convert Kilocalorie per Hour back to Watt?
Yes! You can easily convert Kilocalorie per Hour back to Watt by using the swap button (⇌) in the calculator above, or by visiting our Kilocalorie per Hour to Watt converter page. You can also explore other power conversions on our category page.
Learn more →What are common uses for Watt and Kilocalorie per Hour?
Watt and Kilocalorie per Hour are both standard units used in power measurements. They are commonly used in various applications including engineering, construction, cooking, and scientific research. Browse our power converter for more conversion options.
For more power conversion questions, visit our FAQ page or explore our conversion guides.
Helpful Conversion Guides
Learn more about unit conversion with our comprehensive guides:
📚 How to Convert Units
Step-by-step guide to unit conversion with practical examples.
🔢 Conversion Formulas
Essential formulas for power and other conversions.
⚖️ Metric vs Imperial
Understand the differences between measurement systems.
⚠️ Common Mistakes
Learn about frequent errors and how to avoid them.
All Power Conversions
Other Power Units and Conversions
Explore other power units and their conversion options:
- Milliwatt (mW) • Watt to Milliwatt
- Kilowatt (kW) • Watt to Kilowatt
- Megawatt (MW) • Watt to Megawatt
- Gigawatt (GW) • Watt to Gigawatt
- Horsepower (hp) • Watt to Horsepower
- Metric Horsepower (PS) • Watt to Metric Horsepower
- Electric Horsepower (hp(E)) • Watt to Electric Horsepower
- BTU per Hour (BTU/h) • Watt to BTU per Hour
- BTU per Minute (BTU/min) • Watt to BTU per Minute
- BTU per Second (BTU/s) • Watt to BTU per Second
Verified Against Authority Standards
All conversion formulas have been verified against international standards and authoritative sources to ensure maximum accuracy and reliability.
National Institute of Standards and Technology — Fundamental physical constants and unit conversions
Bureau International des Poids et Mesures — International System of Units (SI) definitions and standards
International Organization for Standardization — Quantities and units international standards series
Last verified: February 19, 2026