Tankless water heaters....the GOOD...and the BAD!
Tankless heaters have pros and cons, just like everything
else. They can supply an endless supply of hot water, and can save energy.
However, they are limited in the amount of hot water that can be
produced at one time and they are more expensive to purchase than a conventional
storage type water heater.
They also make it take longer for you to get your hot water, since
they dont start heating the water until you turn on the faucet. This
problem can be solved by using a specialized pump, which in combination
with the tankless unit can get your hot water to you at less than half the time
it would take running the faucet full blast.
The tankless water heaters also cause an increase in water wastage
since you have to let the water run longer to get your hot water. This
problem is also solved when using the specialized pumping system. Water
conservation is an important advantage to the pumping system. One such
system is the Chilipepper hot water pump. With
it you get both water conservation and convenience benefits of faster hot water,
and, an un-limited amount of hot water.
Tankless hot water heaters save energy and thus money.
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.
Tankless units are common in Japan and Europe. They began
appearing in the United States about 30 years ago. Unlike "conventional" storage
tank water heaters, tankless water heaters heat water only as it is used, or on
demand. A tankless hot water heater 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, however, limits the rate of
the heated water flow.
Selecting a Tankless Water Heater
Select a 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
showerheads: 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 your 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
water heater. Select a manufacturer that makes such a unit. Most tankless hot
water heaters are rated for a variety of inlet water temperatures. Choose the
model 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
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 showerheads and water-conserving
faucets are a good idea.
Some types 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 tankless water heater 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.
