So when the ammonia is separated from the water by applying heat, I assume its in a gas form and needs to be condensed back down into a liquid in order to be released into a gas and create the cooling? But I am assuming it doesnt need to be condensed hence why its not condenser refrigeration but absorbation...
Or is it simply that the ammonia when first seperated from the water is in gas form but still holds a low enough temperature to cause cooling?
Thanks for the video that explained the ammonia cooling process. I've been reading about it all day but this video finally let me really understand it clearly. I'm very grateful. :-)
Can you add thermoacoustics to this?
remember25october 2 months ago
Thankyou for presenting this, a very important area of research.
Where I live we have over 1200Watts m2 available radiant energy, then we burn coal to power air conditioners.
1BustedMyth 6 months ago
THank you!
warwickbuilders 6 months ago
So when the ammonia is separated from the water by applying heat, I assume its in a gas form and needs to be condensed back down into a liquid in order to be released into a gas and create the cooling? But I am assuming it doesnt need to be condensed hence why its not condenser refrigeration but absorbation...
Or is it simply that the ammonia when first seperated from the water is in gas form but still holds a low enough temperature to cause cooling?
Danster82 10 months ago
Thanks for the video that explained the ammonia cooling process. I've been reading about it all day but this video finally let me really understand it clearly. I'm very grateful. :-)
chmac 1 year ago