kW vs. kWh: Watts, kilowatts, and kilowatt-hours explained

Understand your power consumption

A kilowatt (kW) and a kilowatt-hour (kWh) may sound similar — and they are related as units of measurement — but they serve two very different purposes.  

A kW is a measure of power, showing the rate at which an appliance or electronic device consumes electricity. Meanwhile, a kWh is a measure of energy, showing the total electricity consumption over an hour.

When you understand the difference between kW vs. kWh, you can better understand your electricity bill and make smarter decisions about how you can power your home with solar.  This article will cover the difference between kW and kWh, why both measurements are important, and how to calculate them to understand your home’s energy usage. 

In this article: 

• What is a kilowatt?
• What is a kilowatt-hour (kWh)?
• Key differences between kW and kWh
• Why are kW and kWh important?
• How to calculate kW and kWh
• Putting it all together: What kW and kWh can mean for your home
• Frequently asked questions

What is a kilowatt (kW)? 

A kilowatt measures power — the rate at which something uses electricity. The kilowatt (which is 1,000 watts) is a straightforward way of measuring how much power an electric appliance uses. We tend to use kilowatts (kW) over watts (W) as a unit of energy because many household appliances demand high volumes of energy.

Common examples of kW 

All appliances and electronics throughout your house use electricity to some degree. Each one needs varying amounts of watts to power on, depending on its size, age, features, and energy efficiency:

• LED light bulb: 7-20 watts
• Laptop: 50-120 watts
• LED/LCD television: 70-200 watts
• Refrigerator: 100-750 watts
• Coffee maker: 600 watts to 1.4 kilowatts
• Microwave: 600 watts to 1.5 kilowatts
• Dishwasher: 1.2-2.4 kilowatts
• Central air conditioning: 2-5 kilowatts

What is a kilowatt-hour (kWh)? 

A kilowatt-hour measures the electrical energy an appliance uses in kilowatts per hour. One kilowatt of power used over the course of an hour is one kilowatt hour of energy. 

For example, if you run a 1,000-watt (1 kW) appliance for one hour, it consumes 1 kWh of energy. But a 2,000-watt (2 kW) appliance would consume 1 kWh of energy in just 30 minutes.

Everyday examples of kWh 

Measuring your kilowatt-hour usage is more complicated than simply understanding the wattage of your appliance. 

Your home’s kilowatt-hour consumption factors in how many watts your appliance uses and how often you use that appliance. So when you see kWh on your monthly utility bill, that’s a measurement of your appliances’ wattage, as well as the amount of time you used them.

Some appliances run for multiple hours a day (like light bulbs, refrigerators, or air conditioning), while others are used for shorter bursts of time (like a coffee maker or microwave). Potential kWh usage could look like this:

• LED light bulb: 0.008-0.038 kWh per hour
• Laptop: 0.02-0.05 kWh per hour
• LED/LCD television: 0.07-0.14 kWh per hour
• Refrigerator: 28-63 kWh per month
• Coffee maker: 0.12-0.35 kWh per brew
• Microwave: 0.07-0.12 kWh per 5 minutes
• Dishwasher: 0.5 kWh per load with energy-saver cycle, 1-2.17 kWh per load on normal cycle
• Central air conditioning: 3 kWh per hour

Key differences between kW and kWh

Simply put, a kilowatt measures the rate of electricity consumed, while a kilowatt-hour reflects the total amount of electricity you use over time. Utility companies charge for the amount of energy you use in kWh.

Common Kilowatt Conversions

You can quickly convert watts to kilowatts, megawatts, and beyond by multiplying by a thousand. Homeowners use energy in kilowatts, while larger entities, such as states or countries converting to green energy, need to think in gigawatts. 

Here are some common kilowatt conversions you may encounter:

Why are kW and kWh important?

Understanding kilowatts and kilowatt-hours can help you manage your home’s energy consumption. If you look at the wattage of your various electrical appliances and how often you use them, you can determine how much energy you might use over time. Then, you can see how your energy usage impacts your monthly electric bill.

This can also help you identify areas where you can adjust your energy usage, replace old appliances with more energy-efficient ones that have lower wattage, or reduce your power draw from the grid by incorporating solar power.

Using kW and kWh for solar panels

If you’ve looked at your electricity bill, you’ve seen your monthly energy consumption in kilowatt-hours. This information will factor into how much power your solar panels need to keep your home running. 

Solar panels are rated in kilowatts, but how much electricity does a solar panel produce?

Look at how many kWh you use monthly and divide that by the number of days, which will give you your average daily electrical energy usage. Then, divide your daily usage by how many hours of peak sunlight you get on an average day (typically, four or five hours is a good guess). 

If your area gets about four peak sun hours per day, then 1 kW of solar panels would generate 4 kWh of energy in one day under ideal conditions. If you use 28 kWh of energy on a typical day, then a 7 kW solar panel system could meet your home’s needs. Peak sun hours vary by location and season, so this exact number depends on those conditions.

Keep in mind that companies often employ surge pricing, increasing electricity costs when demand goes up. That means you can expect to pay more for energy when usage is elevated. For example, energy prices usually rise in the summer when everyone runs their air conditioners. 

Using kW and kWh for solar batteries

Batteries store energy for later use, and they are rated in kilowatt-hours, just like your home’s energy consumption. While having coverage when the power goes out is still the main goal behind solar batteries, they also help you maximize your solar power system’s efficiency by storing energy generated during peak sunlight hours to use during cloudy days or at night. This self-consumption model is especially the case in areas with more sunlight a day (CA and HI for example). 

If you have a solar battery with a capacity of 12 kWh, then it can store up to 12 kWh of energy. If your home uses 2 kWh of energy per hour, then a 12 kWh battery could provide solar power for your home for up to six hours with no additional solar input. 

It’s important to note that the discharge rate of your battery plays a role in how much energy you can extract at any given time. With current technology, most batteries have a discharge rate of 2 kW, while high-end batteries get up to 5 kW. If your home uses more than 2 kWh of energy per hour, you should consider upgrading your battery. 

Using kW and kWh for electric vehicles

In an electric vehicle (EV), the battery is sized in kilowatt-hours. Different EVs all have different battery sizes and capacities. 

For example, the Nissan Leaf uses a 40 kWh battery in the basic S model and a 60 kWh battery in the SV Plus model, while the Ford F-150 Lightning has a standard-range battery of 98 kWh and an extended-range battery of 131 kWh.

However, the power needed to charge up an EV is measured in kilowatts. Typically, the higher the kW of an EV charger, the quicker it can generally charge up an EV battery, but there is some nuance to this. 

Level 1 EV charging through a standard 120-volt outlet at home would charge at speeds of 1-3 kW, and depending on the EV’s battery capacity, that rate might take days to fully charge up.

Level 2 chargers have speeds of around 7-19 kW and can charge most EVs in six to 12 hours, but the EV’s onboard charger will impact this speed. Onboard chargers usually range from 6.6-11 kW, which would limit the charging speed irrespective of the charging station’s power rating. The higher an EV’s onboard charger rating, the faster a Level 2 charger will “top up” the vehicle battery.

Level 3 chargers, also called DC fast chargers, circumvent the onboard charger and go directly to the battery. DC fast chargers have power ratings of 50-350 kW and can charge most electric cars from 10% to 80% in 30 minutes. But, the charging speed is still ultimately controlled by the EV’s max DC charging capability. If an EV has a max DC charging capacity of 200 kW, then the charging speed will be 200 kW — you’ll be able to put 100 kW of charge on the battery in one hour. 

How to calculate kW and kWh

To calculate the amount of kilowatts an appliance uses, look at the label to see its wattage. Since 1 kilowatt equals 1,000 watts, you can easily see how many kilowatts an appliance uses by dividing that number by 1,000:

W ÷ 1,000 = kW

So, if we’re looking at a dishwasher with a power rating of 1,500 watts, how many kilowatts is that?

1500 W ÷ 1,000 = 1.5 kW

Remember that kilowatt-hours measure energy used over time — you can easily calculate your kWh by multiplying kW by the time in hours that you’re using the device:

kW x hours = kWh

If a dishwasher has a power rating of 1.5 kW, how many kWh would it use over the course of a two-hour wash cycle?

1.5 kW x 2 hours = 3 kWh

Putting it all together: What kW and kWh can mean for your home

It’s easier to manage your home’s energy consumption and explore solar power options for your home when you clearly understand details like how kilowatts and kilowatt-hours factor into your daily life. Understanding your energy usage is the first step in determining the right size for your home’s solar power system.

Frequently asked questions 

Is 1 kW and 1 kWh the same? 

No. A kilowatt is a unit of power that measures the rate at which electricity is consumed. A kilowatt-hour measures total energy consumption in kilowatts over one hour.

How much kW is in a kWh?

There is 1 kW of power supplied in 1 kWh, though they are not the same type of measurement. 

How do I convert kWh to kW?

Because a kWh is a measurement of energy used over time, you can divide kWh by the time you’ve used a device to calculate the kW:

kWh ÷ hours used = kW 

Is 1 kW a lot of electricity? 

It depends. One kilowatt is enough to operate a major appliance. When it comes to solar panels, a 1 kW solar power system can produce 4-5 kW of power per day, which is a modest amount for a home to use.

How can I calculate the consumption of electrical appliances?

1. Get a rough estimate of the number of hours you use an appliance every day.
2. Look for the appliance label that lists its wattage.
3. Use this equation to calculate the appliance’s daily energy consumption:

wattage x hours used per day ÷ 1,000 = daily kWh consumption

How many kW would a generator need to run a house?

To run just a few appliances, you could safely use a 10 kW generator. To keep your entire home running multiple energy-intensive appliances like HVAC, refrigerator, freezer and water pump all at once, you may need a generator that’s 35 kW to 50 kW.

What is the average household electricity consumption in kWh per month?

According to U.S. Energy Information Administration, the average American household used an average of 899 kWh of electricity per month in 2022, the most recent year available.