Besides the classic application of thermal building simulation, which is the prediction of temperature and heating / cooling performance, it is also possible to
calculate air humidity and moisture retention in building components.
Not exact matches
Data on daily average temperature, death rates, and confounding variables (eg,
humidity and
air pollution) were used to
calculate the temperature of minimum mortality (the optimal temperature), and to quantify total deaths due to non-optimal ambient temperature in each location.
Conceptually wise, it may be a mistake to say that when GW takes effect the
air will be drier, but rather water vapour density increases with temperature and relative
humidity will drop accordingly, it is perhaps this is what the models are
calculating.