• @[email protected]
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    611 months ago

    Since we’re talking efficiency I’m sure you also know that several smaller consumers are gonna be far less efficient than one big consumer.

    I’m not sure where you’re getting that information about a heat pump being worse than a literal fire burning furnace but that fire burning furnace is still less efficient as a small appliance than the power generation. What’s also important here is the heat pump can run on natural gas electricity, nuclear electricity, hydro etc. it is energy agnostic which the furnace is absolutely not.

    • @[email protected]
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      -211 months ago

      several smaller consumers are gonna be far less efficient than one big consumer

      That’s the point I’m making. It’s counterintuitive. They are actually far more efficient, even though that “feels wrong”.

      Thermal power generation is limited by the Rankine cycle https://en.m.wikipedia.org/wiki/Rankine_cycle with a MAXIMUM efficiency of only 42%.

      You are burning fuel, turning a temperature differential into motion, into electricity, transmitting the electricity, then turning it back into a temperature differential.

      In the specific application of heating, it makes far more sense to burn the fuel on site, where you are running at far lower temperatures and capable of condensing the exhaust to hit 95% efficiency.

      I’ve worked with heat pumps, even built my own custom unit and I know that with the right refrigerants, low temperature distribution and oversized ground loops you can hit as high as a COP of 7. But the average affordable crappy air sourced unit is more like 2-3 and in a Canadian winter will not function at all, falling back on resistive heating at COP 1. And let’s face it, nobody has $20-50k for an amazing oversized ground sourced system and a rework to hydronic floors. They’re buying a reversible mini-split, DIY installing it and being disappointed when their heating bill goes up.

      So with a COP of 2 and a power plant efficiency below 50% you are not even back to where you started if you were just burning the fuel in a furnace. And that’s best case, perfect conditions at the plant, no transmission losses, warm day, no Iosses in the heat pump.

      It gets worse if your power comes from burning coal like ours does.

      I’m just saying there’s no perfect drop-in solution, you can’t just handwave heat pumps in as a magic problem solver. In many cases there are bigger gains to be had from efficient furnaces than a massive electrification program, at least in the short to mid term.

      • @[email protected]
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        511 months ago

        Thanks for your comment. Very informative and insightful.

        However, your argument only works when electricity is sourced from 100% non renewable sources. If your city power uses some hydro, nuclear or other renewable sources, the efficiency of electric appliances goes up and will likely be at least comparable with the average gas powered home appliance. And it will keep going up as power plants become renewable and thermal plants are decomissioned.