[Someone1234]

This is such pointless pedantry. Heat pumps having an efficiency greater than 1/100% is well known, well publicized, and you're trying to make some artificial distinction here that added nothing to this thread/context/discussion.

See:

https://physics.stackexchange.com/questions/489467/can-a-hea...

https://dothemath.ucsd.edu/2012/06/heat-pumps-work-miracles/

I won't be further responding to this sub-topic, since it has nothing at all to do with the UK's inflation/energy prices. Plus frankly I feel like you're trying to confuse people rather than inform, I'd point people to the Department of Energy link above if they want to understand the benefit that modern heat pumps could offer to energy usage.

[Schroedingersat]

Characterizing them as >100% efficient is poor communication. It doesn't map to any intuitive understanding, it does not communicate anything about how much heating could be done with that energy (thus leading to people believing absurd claims), and it does not map to either the colloquial or technical meaning of efficiency in any other context.

Efficiency as a concept doesn't go over 100% and just because confusing and misleading explanations are the norm doesn't mean they should continue.

[danhor]

> It doesn't map to any intuitive understanding, it does not communicate anything about how much heating could be done with that energy

But that's exactly what it does. It's technically wrong, but communicates the understanding that you put 100% of electrical energy into it and get 250-450% of heating energy for your home out of it, as opposed to 100% with resistive heating. That some of the electrical energy comes out of the air outside or from the ground is irrelevant for most people.

What are absurd claims you reference?

[Schroedingersat]

No it doesn't. "400%" gives you no indication that the upper bound is 800%.

And failing to communicate that the heat comes from elsewhere is condescending and leads to misunderstandings. It also fails to communicate that it's harder to move the heat when it is colder.

We have a perfectly valid term that does what yoh want without lying and without anti-education in the name of making it 'easier' which is coefficient of performance. You could even give it a different name to `void the scary word if you want, just don't call it efficiency because it's not.

[danhor]

> gives you no indication that the upper bound is 800%.

But it isn't? For e.g. outside sheds (heated to 7°C) the COP can theoretically go up to 27. For solar panels, the highest theoretical efficiency is well below 100% and the bound isn't communicated.

> It also fails to communicate that it's harder to move the heat when it is colder.

For heating that's less the case, but the efficiency of e.g. solar panels also varies depending on the temperature. That's not exclusive for heat pumps (although much more extreme there).

> You could even give it a different name to `void the scary word if you want, just don't call it efficiency because it's not.

Few people know what Coefficient of Performance means. If I give choose a new name, even less people will understand it. I try to either put efficiency in quotation marks or explain the concept, but efficiency maps (in the sense of energy I care about in and out) pretty well.

I think anti-education is too harsh, I'd describe it more as a white lie. It's the same as saying Mac & Linux systems don't get malware or saying in school maths that you can't take the square root of -1.

Wrong, but correct enough for understanding the point and allowing useful reasoning.

[Schroedingersat]

> But it isn't? For e.g. outside sheds (heated to 7°C) the COP can theoretically go up to 27. For solar panels, the highest theoretical efficiency is well below 100% and the bound isn't communicated.

That's just another way of saying that framing it as efficiency and disregarding that you're moving heat from a colder reservoir is incredibly misleading. Now the marketing department can put a giant "1300% efficient*" sticker on the dual use heat pump even though it's worse for heating to 24C. A heat pump is fundamentally moving heat. It's in the name. (Heat created + heat moved) / work in does not map to an intuitive or technical notion of efficiency, and framing it that way is encouraging a mental model which is not just quantitatively off, but fundamentally wrong. It's also a distinction that is subtle enough that it is very hard to see while you are confused. This is the almost worst kind communication failure (maybe just after using a dimensionless number for insulation, or using kilo for kibi) because it's so hard to correct. It leaks into other domains and destroys communication, allowing marketers to lie, and requiring a constant treadmill of new terms to fix.

> For solar panels, the highest theoretical efficiency is well below 100% and the bound isn't communicated.

The absolute bound is carnot efficiency, which is about 80% for coupling to the sun. This is close enough that out/in is fine. Additionally out/in is the correct model because you are converting energy not movng it. 'Simple silicon cells can't exceed about 35% efficiency because they need to pick whether to waste energy in blue light or ignore energy in infrared' is the only other piece of information needed to convert that to a quantitatively and physically complete model. You can even communicate it succinctly by drawing a rectangle on a black body diagram.

> saying in school maths that you can't take the square root of -1.

This is also anti-education and a far worse sin because it is crushing one of the few moments where mathematics might actually be learned in a maths class instead of rote algorithm memorization. A teacher should never ever say this. Far better to say something along the lines of "that's a question that doesn't have an answer when we're talking about numbers on the number line, come talk to me about it later". Or "it's really cool that you're thinking about that, here's the khan academy and wiki pages, write a letter telling me all about it instead of your normal homework". Or even "think about it and tell me what you think the answer should be".