Design Green Design Challenge: Build the Solar Powered Air Conditioner By Lloyd Alter Design Editor University of Toronto Lloyd Alter is Design Editor for Treehugger and teaches Sustainable Design at Ryerson University in Toronto. our editorial process Facebook Facebook Twitter Twitter Lloyd Alter Updated October 11, 2018 Migrated Image Share Twitter Pinterest Email Design Tiny Homes Architecture Interior Design Green Design Urban Design We continue to be fascinated by the idea of a solar powered air conditioner, particularly after reading this in Alternet. Until central air became common, Florida and Arizona were barely habitable- you went in winter and cleared out. Now 20% of our energy goes to power air conditioning, and it defines the peak loads. 5.5% of our gasoline goes to power our car air conditioning, and four southern states-California, Arizona, Texas and Florida, account for 35% of it. Clearly if we are going to use less energy we have to address this problem. So here is a challenge to all you Lifehacker and Make types- build it for us. And not a lame ice-cooled pretend air conditioner but the real thing. Here are some ideas and parameters: 1) The air conditioner will probably be an ammonia absorption unit, common in RV propane fridges. These counter-intuitive units apply heat at one end to vaporize the ammonia, which absorbs heat when it condenses at the other end, cooling off the fridge. (simplified explanation, read a better one here) We even found a site with plans for a build-your-own unit (shown above with the hot end, an old propane cylinder, cooking on a coleman stove). Warning Ammonia gas is flammable and extremely toxic. Do not attempt to build one of these units unless you are qualified. That counts us out, but that's why we are an architect, not a carpenter. It is a short leap from fridge to AC on the cold end- a small fan and perhaps a duct and you are in business. 2) replace the propane with solar heat. Comments on our last post suggested hot water as a medium, with evacuated tubes as the generator. These give the highest grade heat of any hot water system but are expensive, but are coming down in cost quickly, having been offshored to China. We don't have the science to know if hot water is actually hot enough- one site says "the whole [absorption] unit operates by the heat applied to the boiler system and it is of paramount importance that this heat is kept within the necessary limits and is properly applied." and, um, we don't know what that temperature is. 3) There may be a need for storage- it may get cool in Arizona at night but it doesn't necessarily do so in Florida. Should there be a water storage tank or should there be a phase changing storage medium to keep the thing running? 4) There may be even smarter solutions than this complex ammonia based concoction. Last year Justin wrote about two teenagers who invented a Peltier effect based system. This might be cheaper and easier. We wish we were like the X-Prize guys and could offer $10 million to the person who does this; it is an important, if less spectacular challenge. We will think of something.