At first I thought it’d be a wash. The heat absorbed by vaporizing the water in the swamp cooler will be released onto the evaporator coils of the AC, so that’s a net zero energy transfer.
However, air is not good at conducting heat. This water evaporation/condensation cycle might transfer heat from the air to the evaporator coils of the AC better.
You are going to have additional water and electricity costs from running the swamp cooler though, so I really don’t know. I suppose you could run the condensation from the AC back to the swamp cooler to greatly reduce water usage.
Could mitigate the water costs by draining the AC condensation into the swamp cooler 😅 and maybe could use the airflow from the AC to drive the swamp cooler instead of it having its own fan
That’s a great question.
At first I thought it’d be a wash. The heat absorbed by vaporizing the water in the swamp cooler will be released onto the evaporator coils of the AC, so that’s a net zero energy transfer.
However, air is not good at conducting heat. This water evaporation/condensation cycle might transfer heat from the air to the evaporator coils of the AC better.
You are going to have additional water and electricity costs from running the swamp cooler though, so I really don’t know. I suppose you could run the condensation from the AC back to the swamp cooler to greatly reduce water usage.
Could mitigate the water costs by draining the AC condensation into the swamp cooler 😅 and maybe could use the airflow from the AC to drive the swamp cooler instead of it having its own fan
I guess youd need some water purifier involved though, which would probably get rid of any efficiency benefits