Do It Yourself Green Project - Faster Hot Water
DYI project gets you faster hot water without running water down the drain
Itching to get your hands on a good do it yourself
type project. A green project since you are concerned about our
environment?
Something you can do with your own two hands and feel
good about when you finish? Here is such a project. It’s not
difficult, highly rewarding, and not only is it environmentally
friendly (green project), but it ads convenience to your daily life.
A win-win if there
ever was one.
A green do it you self project - fast hot water delivery systems
Fast hot water delivery systems, commonly known as hot water circulating or re-circulating systems, provide a number of
benefits. Obviously faster hot water means you don’t have to wait as long for it, saving you time. Since these systems do not run water down
the drain when delivering the hot water, they save a lot of water.
Running water down the drain is not only a waste of
water, but since the water is treated and pumped before it gets to your
home, and then the sewer water is treated and pumped, a lot of energy is
used in the process. Generation of this energy releases green house
gasses into the atmosphere, contributes to pollution, and uses up more
of our resources.
What type of system?
The first thing you must do is decide what type of
hot water system to install. A full time hot water recirculation system
could be a big project since you must run a water pipe from the last
fixture back to the water heater inlet. If the plumbing in your home
has major branch circuits then you might need to re-plumb some of the
hot water piping to get the system to deliver hot water to every sink.
Fortunately there are other types of fast hot water
delivery systems on the market that make things much easier for the
do-it-yourselfer. There are a number of systems that utilize the cold
water line as the hot water return line. Since the cold water line
connects to the inlet of every water heater, and to a faucet at every
sink, no mater which fixture you are at, you can send water back to the
water heater by pumping it out of the hot water line and into the cold
water line at that point.
Most of the fast hot water delivery systems put a
pump at the fixture and just run the water in a big loop back to the
heater. There are some systems that use gravity and thermal valves to
move the water, with no pump involved. Although the gravity type
systems can work when conditions are right, it’s not practical for most
homes, and you don’t really get fast hot water, more like fast luke-warm
water. For this article we will discuss only systems that use a pump to
move the water.
One popular system is the Laing auto-circ system.
This system is another luke-warm type system. The pump is located at
the fixture where fast hot water is desired. The pump connects to the
cold and hot water lines. A 110 volt outlet is needed, and the pump is
supplied with a 6 foot cord. With this system, when the water at the
fixture cools down to 85 degrees, the pump turn on and runs until the
water at the fixture reaches 95 degrees, and then it shuts off. For more about
the Laing Autocirc 1
Now you have luke-warm water waiting for you, in
both the hot and cold water lines. How warm depends upon how long since
the last pumping cycle occurred. This type of system uses a lot of
extra energy since you have to have your piping at a temperature that is
above ambient. Perhaps that is why they include a timer with the pump
that allows you to turn the system off when you don’t think you will
need hot water. At least it will waste less energy that way. But it
kind of defeats the purpose if you ask me. The Laing auto-circ system
will not work with tankless water heaters. The auto-circ system runs
about $250.00 give or take.
There are other manufactures that make similar
systems such as Grundfos, RedyTemp, and Watts, with some variations but
basically the same luke-warm type of hot water system. Again these
systems won’t work with tankless water heaters and run anywhere from
$250.00 to over $500.00. More about the
Watts Premier System
For a really green project install a hot
water demand system
Another type of fast hot water delivery system is
the demand hot water system. Demand hot water systems deliver hot water
when “demanded” by the user, usually by pressing a button. A pump is
located at the fixture where hot water is desired, and as with the
previous systems, connects to the hot and cold water lines.
When the
button is pressed, the pump comes on, a valve in the pump opens, and hot
water is pumped to the fixture at high speed. When hot water arrives at
the pump, it shuts off, and you have instant hot water without running
any water down the drain. Since the pump shuts off as hot water
arrives, very little if any hot water ends up in the cold water line.
You get hot water fast, and you don’t fill your
cold water pipe with luke-warm water. Far less energy is used with
demand hot water systems than with the other types of circulating
systems. Typically a demand system will use less than $ 1.00 a year in
electricity costs. Since the demand systems don’t run continuously for
long periods or cycle on and off frequently they work fine with tankless
water heaters as long as they have a powerful enough pump.
The Chilipepper
appliance hot water demand pump has a pump strong enough to run any tankless heater and costs
$180.00.
The Chilipepper can be installed in less than an hour because it connects to
the plumbing with hoses, no permanent plumbing connections to make.
Of all the systems that use a cold water line as
the return piping, the demand systems save the most water, and consume
the least energy. All the systems mentioned are recognized by national
testing laboratories as meeting or exceeding UL listing requirements.
If you are looking for a great week-end, green, do it
yourself project that will provide great benefits for you and your
family and help the environment, then a fast hot water system should be
at the top of your list.
Chilipepper
Sales 10 Greg St., # 110 Sparks Nevada, 89431
PH (775)-359-1223
