Tankless Water Heater Size Calculator
Size a tankless water heater from peak flow rate and temperature rise requirements. Enter values for instant results with step-by-step formulas.
Formula
BTU/hr = GPM x Temperature Rise x 8.33 x 60
Where GPM = gallons per minute peak flow rate, Temperature Rise = desired outlet temp minus inlet temp in degrees Fahrenheit, 8.33 = weight of one gallon of water in pounds, 60 = minutes per hour. For electric units, divide BTU/hr by 3,412 to get kilowatts required.
Worked Examples
Example 1: Family of Four in Cold Climate
Problem: A family has 4 fixtures averaging 2.5 GPM each. Inlet water is 45F, desired output is 120F. Simultaneous use is 75%.
Solution: Peak flow = 4 x 2.5 x 0.75 = 7.5 GPM\nTemperature rise = 120 - 45 = 75F\nBTU required = 7.5 x 75 x 8.33 x 60 = 281,138 BTU/hr\nkW equivalent = 281,138 / 3,412 = 82.4 kW\nRecommend: Two gas units in parallel or a single commercial-grade unit.
Result: Peak Flow: 7.5 GPM | Temp Rise: 75F | Required: 281,138 BTU/hr
Example 2: Small Apartment in Warm Climate
Problem: A studio apartment has 2 fixtures at 2.0 GPM each. Inlet water is 65F, desired output is 110F. Simultaneous use is 60%.
Solution: Peak flow = 2 x 2.0 x 0.60 = 2.4 GPM\nTemperature rise = 110 - 65 = 45F\nBTU required = 2.4 x 45 x 8.33 x 60 = 53,978 BTU/hr\nkW equivalent = 53,978 / 3,412 = 15.8 kW\nRecommend: 18 kW electric or 120,000 BTU gas unit.
Result: Peak Flow: 2.4 GPM | Temp Rise: 45F | Required: 53,978 BTU/hr
Frequently Asked Questions
How do I determine the right size tankless water heater for my home?
Sizing a tankless water heater requires calculating two key variables: the peak flow rate in gallons per minute (GPM) and the required temperature rise. Peak flow rate is the total hot water demand when multiple fixtures run simultaneously, such as a shower and dishwasher at the same time. Temperature rise is the difference between your incoming cold water temperature and your desired hot water output temperature. Most homes need a unit capable of handling 5 to 8 GPM with a 60 to 70 degree Fahrenheit temperature rise. A properly sized unit ensures consistent hot water delivery without uncomfortable temperature fluctuations during simultaneous use.
What is temperature rise and why does it matter for tankless water heaters?
Temperature rise is the number of degrees Fahrenheit that a tankless water heater must increase the incoming cold water to reach the desired hot water temperature. For example, if your groundwater enters at 50 degrees and you want 120-degree water, the temperature rise is 70 degrees. Temperature rise matters because it directly determines the BTU capacity or kilowatt rating your unit needs. Colder climates with groundwater temperatures around 40 degrees require much larger units than warmer regions where groundwater might be 70 degrees. This single factor can mean the difference between needing a 150,000 BTU unit and a 199,000 BTU unit for the same household.
What is the difference between gas and electric tankless water heaters?
Gas tankless water heaters use natural gas or propane burners and typically deliver higher flow rates, making them suitable for whole-house applications in larger homes. They require venting to the outside and a gas line connection. Electric tankless units use heating elements and are generally smaller, easier to install, and work well for point-of-use applications or smaller homes. Gas units typically produce 120,000 to 240,000 BTU per hour while electric units range from 11 to 36 kilowatts. Gas models tend to have higher upfront costs but lower operating costs in most regions, while electric models are cheaper to install but may require electrical panel upgrades.
What incoming water temperature should I use for my calculation?
Incoming water temperature varies significantly by geographic location and season. In the northern United States, groundwater temperatures range from 35 to 50 degrees Fahrenheit in winter. Southern states typically see 60 to 75 degrees year-round. The Midwest averages 45 to 55 degrees. For accurate sizing, use the coldest expected incoming water temperature in your region, as this represents the worst-case scenario. Using average temperatures might result in an undersized unit that cannot keep up during cold winter months. Many plumbing supply websites publish regional groundwater temperature maps. You can also measure your incoming water temperature directly with a thermometer at an outdoor faucet.
Can a single tankless water heater supply an entire house?
A single tankless water heater can supply an entire house if properly sized, but larger homes with high simultaneous demand may benefit from multiple units. Whole-house gas models rated at 199,000 BTU or higher can typically handle 3 to 4 simultaneous fixtures in moderate climates. In cold climates with high temperature rise requirements, even large units may only handle 2 to 3 fixtures at once. For homes with more than 4 bathrooms, consider installing two smaller units in parallel or placing point-of-use electric units at distant fixtures to supplement a central gas unit. This distributed approach also reduces the wait time for hot water at fixtures far from the main heater.
How much energy and money can a tankless water heater save compared to a tank unit?
Tankless water heaters eliminate standby heat loss, which accounts for 20 to 30 percent of a traditional tank water heater energy consumption. The Department of Energy estimates that tankless units are 24 to 34 percent more efficient for homes using 41 gallons or less of hot water daily. For homes using around 86 gallons per day, tankless models are 8 to 14 percent more efficient. Annual savings typically range from 75 to 200 dollars depending on local energy costs and usage patterns. Over the 20-year lifespan of a tankless unit compared to the 10 to 12 year lifespan of a tank unit, the total cost of ownership is often lower despite the higher initial purchase price.