Sales are growing so quickly that some installers wonder whether heat pumps could even wipe out the demand for new air conditioners in a few years and put a significant dent in the number of natural gas furnaces.

    • To me, it’s absolutely crazy that AC units are even still marketed. An air conditioner is just a heat pump that only work in one direction (cooling). All that is needed to allow it to work for both heating and cooling is one extra valve. If you’re going to install a heat pump (in the form of an air conditioner) and a furnace anyway, you might as well let the heat pump provide heating as well. That way, your furnace is only required on the coldest nights. For most of the year, the heat pump is sufficient.

      • With the caveat that at lower outdoor temperatures (think below about -20C), heat pumps become increasingly ineffective at heating up indoor spaces.

        For places that reach those temperatures in winter (most of the prairies and northern Ontario) you also need supplemental heating of some sort.

        •  Pxtl   ( @Pxtl@lemmy.ca ) 
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          Well, everywhere in Canada outside of maybe Vancouver does dip deep below -20 once in a while. But for the “Quebec City to Windsor corridor” (which is where about half of Canada lives eg GTA) you theoretically should be able to get away with some electric space heaters as a backup heating source. They’d be expensive to run but it would likely only be for a few days per year.

    • At what point is city wide infrastructure the answer?

      Especially for hot water. Is it worth ripping up the roads and putting in hot water pipes or are we at the point in “electrify everything” that it’s actually cheaper to have individual appliances for everything.

      I can’t help put think with hot water most is used in morning or at night. Seems like a huge storage tank that is filled at night and at peak solar is beneficial for the grid.

      • Hot water continuously radiates it’s heat into the environment around it. City wide hot water infrastructure would be hugely inefficient and impractical as that water would constantly have to circulate to and from homes to be re-heated and re-circulated.

        Literally heating massive quantities of water; just to pump it out into essentially a field (of pipes), wait for it to cool, then pump it back and do it again.

        Without that recirculation to keep hotwater immediately available at each home/tap; you’d be waiting hours for all the cooled off water to flush out of the pipes and be replaced with hot water, wasting all that water while you wait. (kinda like waiting on a typical hotwater tank, but x100)

        Electric hot water on demand combined with green sources of electricity should be the goal.

        • Lots of countries have city hot water. It’s a simple concept. I don’t there there is that much heat wasted covering that many people in such a small area.

          I just wondered about the economics. I think most of the current ones use waste heat from electricity generation

  • It would be unwise to not have a backup heat source if you’re installing a heat pump in Canada. Some may claim their balance point is well into the -20s, but relying on a system that cannot provide adequate heat in extreme cold events could get rather dangerous.

    As for the offsetting NG furnaces, it’s unlikely someone would remove the furnace when the heat pump can easily be installed in the air handler, in line with the furnace, and a ‘dual-fuel’ thermostat used to control the switch point.

    Here in Saskatchewan, NG is also significantly cheaper than electricity. So, with our high heating demands, those who have access to NG often choose that. I have a heat pump and electric furnace backup, but I’m in a net-zero house designed for significantly lower energy use, which is definitely an outlier to the typical terribly designed homes built to minimum code.

    • It would be unwise to not have a backup heat source if you’re installing a heat pump in Canada.

      As always, in all things, solicit advice from a pro. Conditions will vary wildly between Vancouver, Regina, StJohns and Sarnia.

    • Here in Saskatchewan, NG is also significantly cheaper than electricity. So, with our high heating demands, those who have access to NG often choose that.

      It makes sense, because they burn gas to make the electricity. I understand a heat pump can create a lot more heat than just an element would, though, so it still comes out cheaper.

      It would be unwise to not have a backup heat source if you’re installing a heat pump in Canada. Some may claim their balance point is well into the -20s, but relying on a system that cannot provide adequate heat in extreme cold events could get rather dangerous.

      I hear there’s work being done to make more cold-resistant ones. For myself, I wonder about the ground-loop systems. They’re more expensive, but I don’t know by how much.

      • Running heat pump isn’t cheaper than NG in Saskatchewan. Natural gas is about 9x cheaper than electricity for the same amount of energy. A heat pump also doesn’t create heat, it only moves it. It can be over 300% efficient, but natural gas is still cheaper to heat the same space.

        Ground loop (geothermal) is significantly more expensive to install and also needs to be designed properly or it will remove the available heat from the ground in just a decade.

      • For myself, I wonder about the ground-loop systems. They’re more expensive, but I don’t know by how much.

        More expensive to install, and may not be possible in a normal city lot.

        But there are situations when it is the sinning choice. My brother did a new house build on a rural property about 10 years ago and went with a ground source system (with supplemental electric heat for the coldest days in those cold Manitoba winters). The incremental cost was not that much, since the had the space for the outdoor loop, and had the construction equipment already on-site.

        He is very happy with it.

        • Ground loops are a great choice if it is an option since the ground loop is often on the right side of the equation, cooler than air in the summer and warmer than air in the winter.

    • I mean you’re in SK, that’s kind of an extreme case. Most Canadians live in parts of the country with more moderate weather, where it only goes below -20 on the absolute coldest night of the year, if at all. I mean “backup” could just mean a couple of 1500 watt space heaters in the closet if you find the pump isn’t cutting it - yes you’ll burn through your heating bill but it’s going to be for maybe a couple of nights tops.

      • Ottawa has weeks at a time where it’s below -20? I think the GTA is similar. The past two winters here in NS we’ve had to have our baseboard heaters on in addition to our heat pumps multiple times through the winters because it was much colder than -20?

      • I mean you’re in SK, that’s kind of an extreme case. Most Canadians live in parts of the country with more moderate weather,

        In Manitoba (which gets the same or worse winters as Sask) heat pumps can make sense.

        But that’s because our electricity is much less expensive.

        •  Pxtl   ( @Pxtl@lemmy.ca ) 
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          Yup. Hooray for plentiful hydro! I always think it’s funny how MB gets grouped into the petro-provinces as The West on environmental arguments you’re not part of the carbon-intensive area of Canada. (edit: wrong abbrev.)

    • I appreciate that the article notes that households on the prairies and other colder areas often retain their gas furnaces the coldest periods - particularly as the electricity costs to run the heat pump in those periods outweigh the cost of gas.

      I took the lesson to be that it’s best not to wait until your gas furnace has to be replaced but rather to replace the air conditioner and save the remaining life of the furnace for the deep cold periods when it’s energy inefficient and more expensive to use the heat pump. It would be great to see some good analysis/modelling of this.

  •  Kyle   ( @Kyle@lemmy.ca ) 
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    71 year ago

    I support progress on heat pumps and really wanted one.

    I live in Calgary and wanted AC, had to get a new heater and water heater. We priced out the heat pump, and because of our cold winters would still need a furnace on top of the heat pump. Total quote was $26,000 and we still had to figure out how to fit it all to code in our tiny mechanical room. Getting quotes was like pulling teeth, the HVAC industry seems to hate them here.

    Instead we got a new gas furnace, AC, gas water heater, auto water shut off valve with sensors and even the whole house pipes replaced for $14,000 total. The heater is so efficient that it will pay for itself in 3 years compared to the 20 year old one that was in here.

    I don’t have an analysis of electricity heat pump costs vs gas if we also had a heat pump. But even with the greener homes rebate it was not viable to get a heat pump yet. Maybe next time?

      • I’ve got a heat pump on my swimming pool. If I forget to shut it off at night, it turns into an ice cube the minute it hits about 12 degrees. They are a bit different than the heat pumps for houses, but having a heat pump in our winters isn’t going to work. That much is clear. Like everything else, when they say it’ll work till -30, it’s really only good till about -5, then it’ll have to pull so much energy to grab that heat out of the air, it’s no longer efficient.

        The idea is great, but I’m not sure they will be the ultimate solution in Alberta. Our altitude also has an impact on them too.

    • I’ve been looking into them and two common issues I’ve heard are incorrect installation of the unit and not understanding that its not a full replacement for AC and a furnace.

      • One of the downsides with really good energy efficient products is that they tend to take longer to do their task compared to the old quick and dirty models.

        For example you can now buy high efficiency heat pump clothes dryers which can operate on 120v without a vent, but will take far longer to dry a load of laundry than your typical electric dryer. Uninformed people who buy the product are immediately disappointed with how long they take and will call it defective.

        “If my gas furnace can heat my house in seconds and for pennies, why would I spend thousands on a lousy heat pump?”

  • Anybody tried the new window-AC ones? My house has central air but we’ve a converted attic loft room that’s not part of the duct system. I’m tempted to pick up one of those LG window-AC heatpumps that are basically “window AC that can also heat” and see how that goes for year-round climate control. I mean, I’d have to insulate the crap out of its mounting with plywood and foam because normal window-AC mounting is drafty as hell.

    • Not sure specifically what unit your talking about, but the ductless units are typically fixed outside of the house, not usually on the window itself. And then a hole is drilled through the house to provide the cooling/heating to the headless unit inside the room. This also eliminates the need to insulate like crazy around a window unit like you’re talking about.