Can we air condition our way out of extreme heat? part 1: a primer on air conditioning
Can we air condition our way out of extreme heat? part 1: a primer on air conditioning
part 1: a primer on air conditioning
Can we air condition our way out of extreme heat? part 1: a primer on air conditioning
part 1: a primer on air conditioning
we can't.
air conditioning does not work with hundred percent efficiency, so you will cool your apartment, removing x joules of heat from inside and create 1,1 x joules of heat outside. your apartment is now temporarily colder, but there is more heat in total than there was before.
you will now be tempted to use the air conditioning even more, creating even more heat. welcome to hell.
Yep. That's also not counting the heat generated from the electric transmission infrastructure between the power plant and your dwelling. Plus the extra emissions from dirty power plants to power all of the A/C.
Hell indeed.
Plus the extra emissions from dirty power plants to power all of the A/C
i mean if we had AC that would work with 100% efficiency, then it would be the prime use case for solar panels. you only need AC when there is a lot of sunlight and vice versa.
we can’t.
but the rich will. they won't hesitate even if they know it's making things worse for everyone.
watch.
This was a great, succinct article. Here are a few key points that I noticed:
The important result here is that the efficiency of your air conditioner decreases as ∆T increases — e.g., as the outside temperature goes up.
the work required to keep your house at a fixed temperature Tc increases with the square of the temperature difference between inside and outside temperature, ΔT².
Let’s use the same numbers from the previous example: you want to keep your house at 75F. If climate change has increased the outside temperature from 96F to 100F, the energy your air conditioner consumes increases by (100-75)2/(96-75)2 = 252/212 — this is an increase in energy consumption of 42%!
Averaged over an entire day, the increase will be less than this because ∆T is smaller for much of the day (e.g., at night) But the result is robust: climate change is driving exponentially increasing energy demand for cooling.
People with financial means, who work in air-conditioned offices and live in climate-controlled homes, can handle rising temperatures by simply paying for more electricity.
However, a significant portion of the global population lives the hot life. These people live in homes without air conditioning, work outdoors or in warehouses or kitchens with no climate control.
Why don't we build a tunnel to space? Heat goes up so it'll go out to space where it's cold and some cold air would come in. Win win
Heat doesn't go up. Hot air rises because it's less dense than cold air. You know what's less dense than hot air though? Vacuum. That's a good thing, though, because we don't want to be hemorrhaging atmosphere.
Even if we could build a physical heat sink sticking out of the atmosphere somehow, it would be less protected from solar radiation than anything inside the atmosphere, so if it were facing the sun it probably wouldn't work.
Even if we had the resources and like, enough readily available materials on Earth to make some sort of retractable heat sink sticking out of the night-side of the planet, it'd probably require more energy consumption to create than would be worth it.
Probably the best way to cool things down is to quit burning so much shit and quit knocking forests down.
Are you assuming heats gender? /s