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Stay cool everyone (thelemmy.club)
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[-] fakeman_pretendname@feddit.uk 57 points 3 weeks ago

...and then combined with our entire architecture, diet, clothing and lifestyles being based around centuries of keeping out the cold, wind and damp.

[-] FishFace@piefed.social 7 points 3 weeks ago

If your house keeps out the cold, wind and damp, it will keep out the heat. There is no special way for walls, windows and insulation to let heat or hot air pass only in one direction.

[-] fakeman_pretendname@feddit.uk 19 points 3 weeks ago

Everything is insulated and sealed shut. There are heaters inside the house. The sun comes through the window and heats the room up. The heat cannot escape.

[-] arrow74@lemmy.zip 11 points 3 weeks ago

The issue is thermal mass. Buildings are designed to absorb heat in the winter. Obviously when you aren't using heat they'll absorb whatever the temperature is.

First 2 days of a heatwave the building holds a cooler temperature. After that the walls begin to heat and it is simply too hot at night to dissipate all the heat the building has absorbed

[-] als@lemmy.blahaj.zone 10 points 3 weeks ago

We have the oldest housing stock in europe and some of the most leaky. In the winter the heat bleeds out and in the summer the cold does too.

[-] FishFace@piefed.social -1 points 3 weeks ago

Yes, that is true, but that is not the popular myth that the person I replied to was expressing: that "because our houses are designed to be warm, they overheat in summer." This is not true. The thing you're saying, "because our houses are actually quite shit at being warm, they overheat in summer" is true but different.

[-] VibeSurgeon@piefed.social 9 points 3 weeks ago

There is no special way for walls, windows and insulation to let heat or hot air pass only in one direction.

Hot air, no, but heat from sun, very much yes. That's a one-way kind of transaction

[-] FishFace@piefed.social -2 points 3 weeks ago

Quite easy to mostly block with curtains. Our houses could definitely do with external shutters though, which would be more effective. I would say this architectural difference doesn't fall under "our homes are designed to keep heat in" though.

[-] VibeSurgeon@piefed.social 7 points 3 weeks ago

Once the sunlight has passed through the window, the battle against the heat is mostly lost. Awnings, external shutters and to some extent solar protection film are some of the better options in this instance.

These are things we've had the luxury of not having to care about in the past, instead being able to harvest some solar heat during the seasons where heat is scarce. Less so these days.

In any case, I think "our homes are not designed to keep heat out" would be an accurate statement for northern Europe.

[-] Phoenix3875@lemmy.world 6 points 3 weeks ago

The bricks and wall thickness are designed to absorb heat and release them in the evening though. Not sure if it can work the other way around.

[-] FishFace@piefed.social -3 points 3 weeks ago

Really they're designed to prevent the passage of heat from inside to outside, so that your heating (or in the past, your fire) didn't pointlessly heat the outdoors. But this design can't work only in one direction, so it also slows the passage of heat from outside to inside.

There are three main ways this slowing happens:

  1. Any solid barrier prevents the passage of air from the environment to the place where you are, and vice versa. Obviously this is symmetric.
  2. Cavity walls have an air-gap in them. Air is a poor conductor of heat, so while hot air on one side of the wall heats the wall's bricks up, this heat then travels only slowly to the other side of the wall. Again, this is obviously symmetric.
  3. What you're talking about is that bricks and stones have a high thermal mass. This is a bit more complicated so I'll explain: it means that if you take a given lump of heat (say, all the heat coming off a fire for one minute) and apply it to the bricks so it's fully absorbed, they'll heat up less than if you were heating up a wall made out of steel. The energy is still in there, though, and when the temperature of the air next to the wall drops below the wall's temperature, that energy is released back into the air. But this too is symmetric: it applies just as much to the energy of a fire as it does to the energy of, say, one cubic metre of air at 35 degrees celsius. The same property that releases heat into the house on a winter evening releases heat into the outside air on a summer evening. This is what you want!

Each of these properties is symmetric, because physics doesn't "know" which side of the wall is inside and which is outside - it only "knows" which is hotter and which is cooler. So the exact properties which keep you toasty in winter help keep you cool in summer.

[-] ayyy@sh.itjust.works 0 points 3 weeks ago

You speak with a lot of confidence for one who is not well travelled.

this post was submitted on 23 Jun 2026
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