We want glued parquet and if it's done properly, there would be no problem with the condensation, but... we don't want a cold floor. We specifically choose parquet because we want a warm floor and that would be contradictory.
We want glued parquet and if done properly, condensation wouldn't be a problem, but... we don't want a cold floor. We specifically choose parquet because we want a warm floor and that would be contradictory.
In a newly built house according to the state of the art, you won't get around slippers anyway... We have +5 degrees outside, 23 degrees supply temperature with 21 degrees room temperature... You don't have warm feet on tiles or laminate there either.
With a new building constructed according to the state of the art, you will not get around slippers anyway... We have 23 degrees supply temperature at +5 degrees outside temperature with 21 degrees room temperature... You don't have warm feet on tiles or laminate there.
Do you have a concrete core activation, or how do you achieve the 23 degrees supply temperature? But as I said, laminate and tiles are fundamentally colder than parquet. My sister has parquet in the living room and tiles in the kitchen. The difference is enormous. You can comfortably walk barefoot on the parquet, and in the kitchen you put on slippers after a while.
Therefore, you then lay heating circuits in the ceiling to cool, if you have a reinforced concrete ceiling, otherwise it is a bit more complicated.
We would have that, but the budget will probably not be sufficient for it.
Do you have a concrete core activation, or how do you achieve the 23-degree supply temperature?
This is just a snapshot. You don't have 23 degrees permanently, and it's not rocket science even without concrete core activation. For example, I have similar temperatures.