My thermostat is located in a cooler part of my house compared to my bedroom -> my thermostat has to be set to 73 to cool my bedroom to a nice T.
If my AC is very large it wont run very long between cycles. When it does it will wring every bit of moisture out of that relatively small amount of air.
If the AC were smaller, the AC would run just about all day long, more of the air would then go get its moisture removed.
In other words:
1 unit of 4C air mixed with 9 units of 30C air -> 10 units 27.4C. Assuming I've removed all the water in the one unit of 4C air the water content has only gone down 10%
5 units of 24.8 C air mixed with 5 units of 30 C air -> 10 units of 27.4C. If I can get just 50% of the air out chilled 5 units of air, I've removed 25% of the water in the air.
These numbers are just thrown at you, so take them with a BIG grain of salt. You'd have to look at the water saturation tables to really do the math.
If my AC is very large it wont run very long between cycles. When it does it will wring every bit of moisture out of that relatively small amount of air.
If the AC were smaller, the AC would run just about all day long, more of the air would then go get its moisture removed.
In other words:
1 unit of 4C air mixed with 9 units of 30C air -> 10 units 27.4C. Assuming I've removed all the water in the one unit of 4C air the water content has only gone down 10%
5 units of 24.8 C air mixed with 5 units of 30 C air -> 10 units of 27.4C. If I can get just 50% of the air out chilled 5 units of air, I've removed 25% of the water in the air.
These numbers are just thrown at you, so take them with a BIG grain of salt. You'd have to look at the water saturation tables to really do the math.