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While a heat-pump water heater will save significant energy on a year-round basis, be aware that in a cold climate the net performance (water heating plus space heating) will drop in the winter.

Electricity consumption by our GeoSpring heat pump water heater in February. Note the spike mid-month when I switched the mode to "boost." Click to enlarge.
Photo Credit: here

We chose a heat pump water heater for our new house, and as I've recently discussed here, there are a lot of reasons why you might be doing the same.

Using an air-source heat pump, heat pump water heaters (HPWHs) extract heat out of the air where they are located to heat the water.

That means that a HPWH cools the space where it is located. That’s a good thing in the summer—it doubles as air conditioning—but in the winter it’s not so helpful. That’s especially the case in a cold climate in a house without a standard heating system.

Cooling the space where they are located

In a typical New England house that has a furnace or boiler in the basement producing a lot of waste heat, a heat pump water heater can use some of that waste heat and it’s not really very noticeable—the less efficient the heating system the less noticeable is the effect of the HPWH.

But we don’t have a heating system in our basement. As a result, our HPWH cools the space. With the cold weather we’ve had (as I write this it’s about –2°F) and our basement has stayed pretty cool: typically 50°F–54°F, though with the exceptionally cold weather we had a few weeks ago during a time of heavier hot water usage, the temperature dropped as low as 47°F. Our basement temperature would probably be considerably lower if my wife and I used a lot of hot water, but we're pretty frugal.

Minute-by-minute electricity consumption by the water heater over a two-day period. The line in green shows consumption through mid-morning on March 5th; consumption on March 4th is shown by the gray line..
Photo Credit: here

Robbing from Peter to pay Paul

In cooling the space where it is located, a HPWH makes the heating system work harder. In our house the heating system is a single mini-split air-source heat pump wall-mounted unit on a first-floor wall. That system delivers heat to the basement through the uninsulated floor and through the basement door, which we usually leave closed.

We also have a fan and ductwork at the top of our stairs so that, if we need to, we can pull warm air from the heated space in the house and dump that into the mechanical room in our basement. This is a back-up in case the basement gets too cold, but we haven’t used that fan because of its noise.

So our 18,000 Btu/hour Mitsubishi air-source heat pump has to work harder (and use more electricity) because it’s also indirectly heating our water. With the really cold weather we’ve had since moving into the house in early January, our air-source heat pump has been working pretty hard to keep up. And I think the HPWH has contributed to our first floor being a little cool—especially near the floor.

My friend Lester Humphreys in Brattleboro, who also has a HPWH in his basement but has an oil-fired boiler there as well, has done some back-of-the-envelope calculations to estimate how much oil he’s using for his water heating and asked me to look over his numbers:

“I calculated the loss from our living space through the floor to the basement using the formula Area x 1/R x delta T.  I figure our heat pump heater lowers the temperature in the basement by about 3 degrees, our wood floor has an R value of 2.75 and the basement ceiling is 1217 square feet.  This gives me heat loss of 1314 BTUs per hour.  Running 6 hours a day (probably a little high), a delivered heat efficiency of 70% for our oil system, this equals 2.4 gallons a month (about $9), which is not bad.”

With our hot water usage, the electricity consumption directly by the HPWH isn’t that great: 56 kilowatt-hours (kWh) in February—or about $8 worth at 15¢ per kWh, which is Green Mountain Power’s current residential electric rate. Consumption averaged a little less than 2 kWh per day in February, jumping to over 8 kWh one day when both of our daughters were visiting from out-of-town and we had to switch the water heater to the “Boost” mode (in which an electric resistance heating element supplements the heat-pump mechanism).

Along with that 56 kWh used by the HPWH, though, some of the 814 kWh used in February by our mini-split air-source heat pump heating system (about $125 worth), was for water heating. I haven’t calculated what our total water heating cost was for February, but that should be possible to do.

Slow recovery

Another thing to keep in mind is that HPWHs have a quite slow recovery rate—I think ours recovers at a rate of about eight gallons per hour. This is why larger water heaters often make sense with HPWHs, though I thought a 50-gallon model would be alright for our usage.

In mid-February, though, our younger daughter from New York City and our older daughter and financé from California were visiting, and we had a party. We still might have been all right with hot water, since we have WaterSense plumbing fixtures and a high-efficiency dishwasher, but our younger decided to take a bath after we had all done a lot of party prep. She ran out of hot water before the tub was all the way filled.

Fortunately, most HPWHs, including our GE GeoSpring model, allow you to change the mode. I normally operate the water heater on Heat Pump Only mode, but switched it to Boost mode for a few hours that Saturday.

The jump in power draw was dramatic (shown by my eMonitor). In Heat Pump Only mode, the power draw peaks at about 500 watts, but that jumped to 5,000 watts in Boost mode.

Noise

The other issue to consider with HPWHs is that they have fans and compressors that are noisy. I don’t think I would consider a HPWH if we didn’t have a basement and had to place the water heater on the first floor. We have fairly good acoustic isolation between our basement and first floor—and the water heater is in a mechanical room to which we can retrofit ceiling and wall insulation if the noise proves annoying.

So far, the noise isn’t very noticeable, but in the summer (when the air-source heat pump is unlikely to be running) we may find that we can hear the water heater—in which case I’ll probably insulate the mechanical room. Noise did play into our product selection; when I was researching options, the GE GeoSpring was the quietest HPWH I found.

Bottom line

In summary, we’re happy with our heat-pump water heater, despite the cold climate and the fact that we don’t have a waste heat source in our basement. I’m guessing that, for half the year, we’ll save at least 60%, compared with a standard electric water heater, while only 10%–20% in the cold months. Homeowners with a waste heat source in their basements will do better.

Alex is founder of BuildingGreen, Inc. and executive editor of Environmental Building News. In 2012 he founded the Resilient Design Institute. To keep up with Alex’s latest articles and musings, you can sign up for his Twitter feed.

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Comments

1 Insulating the mechanical room of the HPWH posted by Bruce Donelson on 03/22/2014 at 01:43 pm

If you insulate the mechanical room, your HPWH will certainly become quiter to you upstairs. But it will have less heat available from upstairs to draw on, so the Mech Room will get colder and its efficiency will drop. During the summer you may want to vent the HPWH into the house to harvest the coolth. You might also bring in a duct to it to bring it warm air from the house. But these ducts may also send noise around.

In a desgn I had had for a HPWH in an unheated mechanical room here in Oregon, I included a buried air supply to prewarm the air for the heater. Trenching was not a big issue because I already had a trench from the pumphoue.

2 Would a gas condensing tank posted by Patrick Campbell on 07/22/2014 at 07:27 pm

Would a gas condensing tank heater perhaps run about even in terms of cost with a HPHWH in VT?

Hard to figure out without really knowing what numbers they derive the Energy guide figures which list about 1800 KWH for the year for the HPHWH. A Rheem gas condensor EnergyGuide puts it at 200 gallons. So at first glance the HPHWH costs less, but if it runs much less than advertised they will even out (assuming you get a good price on propane).


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