Department of Energy Study
Water heating accounts for 20% or more of an average household’s annual energy expenditures. The yearly operating costs for conventional gas or electric storage tank water heaters average $200 or $450, respectively. Storage tank-type water heaters raise and maintain the water temperature to the temperature setting on the tank (usually between 120° -140° F (49° -60° C). Even if no hot water is drawn from the tank (and cold water enters the tank), the heater will operate periodically to maintain the water temperature. This is due to "standby losses": the heat conducted and radiated from the walls of the tank—and in gas-fired water heaters—through the flue pipe. These standby losses represent 10% to 20% of a household’s annual water heating costs. One way to reduce this expenditure is to use a demand (also called "tankless" or "instantaneous") water heater.
Demand water heaters are common in Japan and Europe. They began appearing in the United States about 25 years ago. Unlike "conventional" tank water heaters, tankless water heaters heat water only as it is used, or on demand. A tankless unit has a heating device that is activated by the flow of water when a hot water valve is opened. Once activated, the heater delivers a constant supply of hot water. The output of the heater, however, limits the rate of the heated water flow.
Gas and Electric Demand Water Heaters
Demand water heaters are available in propane (LP), natural gas, or electric
models. They come in a variety of sizes for different applications, such
as a whole-house water heater, a hot water source for a remote bathroom
or hot tub, or as a boiler to provide hot water for a home heating system.
They can also be used as a booster for dishwashers, washing machines,
and a solar or wood-fired domestic hot water system.
You may install a demand water heater centrally or at the point of use, depending on the amount of hot water required. For example, you can use a small electric unit as a booster for a remote bathroom or laundry. These are usually installed in a closet or underneath a sink. The largest gas units, which may provide all the hot water needs of a household, are installed centrally. Gas-fired models have a higher hot water output than electric models. As with many tank water heaters, even the largest whole house tankless gas models cannot supply enough hot water for simultaneous, multiple uses of hot water (i.e., showers and laundry). Large users of hot water, such as the clothes washer and dishwasher, need to be operated separately. Alternatively, separate demand water heaters can be installed to meet individual hot water loads, or two or more water heaters can be connected in parallel for simultaneous demands for hot water. Some manufacturers of tankless heaters claim that their product can match the performance of any 40 gallon (151 liter) tank heater.
Selecting a Demand Water Heater
Select a demand water heater based on the maximum amount of hot water
to meet your peak demand. Use the following assumptions on water flow
for various appliances to find the size of unit that is right for your
purposes:
Faucets: 0.75 gallons (2.84 liters) to 2.5 gallons (9.46 liters) per minute.
Low-flow shower heads: 1.2 gallons (4.54 liters) to 2 gallons (7.57 liters) per minute.
Older standard shower heads: 2.5 gallons (9.46 liters) to 3.5 gallons (13.25 liters) per minute.
Clothes washers and dishwashers: 1 gallon (3.79 liters) to 2 gallons
(7.57 liters) per minute.
Unless you know otherwise, assume that the incoming potable water temperature
is 50° F (10° C). You will want your water heated to 120° F (49° C) for
most uses, or 140° F (60° C) for dishwashers without internal heaters.
To determine how much of a temperature rise you need, subtract the incoming
water temperature from the desired output temperature. In this example,
the needed rise is 70° F (39° C).
List the number of hot water devices you expect to have open at any one time, and add up their flow rates. This is the desired flow rate for the demand water heater. Select a manufacturer that makes such a unit. Most demand water heaters are rated for a variety of inlet water temperatures. Choose the model of water heater that is closest to your needs.
As an example, assume the following conditions: One hot water faucet open with a flow rate of 0.75 gallons (2.84 liters) per minute. One person bathing using a shower head with a flow rate of 2.5 gallons (9.46 liters) per minute. Add the two flow rates together. If the inlet water temperature is 50° F (10° C), the needed flow rate through the demand water heater would need to be no greater than 3.25 gallons (12.3 liters) per minute. Faster flow rates or cooler inlet temperatures will reduce the water temperature at the most distant faucet. Using low-flow shower heads and water-conserving faucets are a good idea with demand water heaters.
Some types of tankless water heaters are thermostatically controlled. They can vary their output temperature according to the water flow rate and the inlet water temperature. This is useful when using a solar water heater for preheating the inlet water. If, using the above example, you connect this same unit to the outlet of a solar system, it only has to raise the water temperature a few degrees more, if at all, depending on the amount of solar gain that day.
Cost
Demand water heaters cost more than conventional storage tank-type units.
Small point-of-use heaters that deliver 1 gallon (3.8 liters) to 2 gallons
(7.6 liters) per minute sell for about $200. Larger gas-fired tankless
units that deliver 3 gallons (11.4 liters) to 5 gallons (19 liters) per
minute cost $550-$1,000.
The appeal of demand water heaters is not only the elimination of the tank standby losses and the resulting lower operating costs, but also the fact that the heater delivers hot water continuously. Gas models with a standing (constantly burning) pilot light, however, offset some of the savings achieved by the elimination of tank standby losses with the energy consumed by the pilot light. Moreover, much of the heat produced by the pilot light of a tank-type water heater heats the water in the tank; most of this heat is not used productively in a demand water heater. The exact cost of operating the pilot light will depend on the design of the heater and price of gas, but could range from $12 to $20 per year. Ask the manufacturer of the unit how much gas the pilot light uses for the models you consider. It is a common practice in Europe to turn off the pilot light when the unit is not in use.
An alternative to the standing pilot light is an intermittent ignition device (IID). This resembles the spark ignition device on some gas kitchen ranges and ovens. Not all demand water heaters have this electrical device. You should check with the manufacturer for models that have this feature.
Life Expectancy
Most tankless models have a life expectancy of more than 20 years. In
contrast, storage tank water heaters last 10 to 15 years. Most tankless
models have easily replaceable parts that can extend their life by many
years more.
Bibliography
This list does not cover all available sources of information on tankless
water heaters, nor is the mention of any publication, product, service,
or organization to be considered a recommendation or endorsement.
"Efficiency of Tankless Domestic Water Heaters," Energy Design Update, (7:4) pp. 6-9, April 1988.
Extended Range Tankless Water Heater, J. Harris, Harmony Thermal Co., 1993. Available from National Technical Information Service (NTIS), 5285 Port Royal Road, Springfield, VA 22161; Phone: (800) 553-6847 or (703) 605-6000; Fax: (703) 605-6900; Email: orders@ntis.gov; World Wide Web: www.ntis.gov. 33 pp., $19.50, Order Number DE 93013327.
"Going Tankless," P. du Pont, Home Energy, (6:5) pp. 34-37, September/ October 1989.
"Indirect-Fired Water Heaters," J. Vastyan and R. McNally, Journal of Light Construction, (20:8) pp. 85-90, May 2002.
"Instant Hot Water-Maybe," A. Wilson, Journal of Light Construction, (7:2) pp. 55-56, November 1988.
"Never-Ending Hot Water and Energy Savings, Too," R. Layne, Popular Science, (228:4) pp. 106-08, 150-51, April 1986.
"On-Demand Water Heaters," J. Wagner, Journal of Light Construction, (15:4) pp. 51-54, January 1997.
Performance of Instantaneous Gas-Fired Water Heaters, National Bureau of Standards, 1987. Available from NTIS, (see above). 66 pp., $27.00, Report Number PB-87200390.
"Seisco Tankless Electric Water Heater Sets New Standard," N. Nisson, Energy Design Update, (17:5) pp. 14-16, May 1997.
"A Tankless Job," Z. Gaulkin, This Old House, pp. 60-62, June 2001.
"Tankless Water Heaters," Consumer Reports, (51:1) pp. 53-55, January 1986.
--------------------------------------------------------------------------------
The information in this brief was reviewed for accuracy and updated in January 2003.
EREC is operated by NCI Information Systems, Inc. for the National Renewable Energy Laboratory/U.S. Department of Energy. The content of this brief is based on information known to EREC at the time of preparation. No recommendation or endorsement of any non-US Government product or service is implied if mentioned by EREC.
Your interest in energy efficiency and renewable energy is greatly appreciated. If we can be of further assistance, please feel free to contact us again.
Ask an Energy Expert
Energy Efficiency and Renewable Energy Clearinghouse (EREC)
P.O. Box 3048 Merrifield, VA 22116
Voice (USA only): 800-DOE-EREC (363-3732)
Email: doe.erec@nciinc.com
NOTICE
This report was prepared as an account of work sponsored by an agency
of the United States government. Neither the United States government
nor any agency thereof, nor any of their employees, makes any warranty,
express or implied, or assumes any legal liability or responsibility for
the accuracy, completeness, or usefulness of any information, apparatus,
product, or process disclosed, or represents that its use would not infringe
privately owned rights. Reference herein to any specific commercial product,
process, or service by trade name, trademark, manufacturer, or otherwise
does not necessarily constitute or imply its endorsement, recommendation,
or favoring by the United States government or any agency thereof. The
views and opinions of authors expressed herein do not necessarily state
or reflect those of the United States government or any agency thereof.