34

ZEB

annual report 2014

The reduced heat loss through the building

skin, the reduction of air leakages and the

use of a mechanical ventilation with heat

recovery (MVHR) in low-energy and passive

house buildings have substantially reduced

or even eliminated problems with too low

temperatures, as experienced in old leaky

buildings throughout history. This improvement

is highly appreciated by the occupants.

However, user surveys as well as simulations

and measurements in residential low-energy

and passive house buildings have revealed

that there is a high degree of oversupply of

unnecessary and even unwanted heat. There

has simply become too much of a good thing.

In old buildings it is common that only some

rooms are heated, they are often only heated

when in use, and the room temperatures

are generally kept at a moderate level. In

contrast, in new residential buildings the

whole building is usually continuously heated

to higher temperatures. Those changed

thermal conditions in dwellings are more or

less consciously chosen and controlled by the

occupants.

However, current building concepts and

commonly used heating and ventilation

systems limit the possibility to have different

temperatures in different parts of the dwelling.

A reduced heat loss through the building skin

will lead to an increased degree of evening

out of the temperature within the dwelling. In

addition, commonly used one-zone MVHR-

systems supply the same temperature to all

rooms and consequently also contribute to a

balancing of the temperature.

Simulations for a bedroom in a row house

with only one exterior wall show that with a

typical factory set point of 20°C for the supply

air from the MVHR, the lowest achievable

room temperature is around 19°C during the

coldest period in winter (Figure 2). Even if

the set point for the supply air temperature

is reduced to 10°C, the lowest achievable

room temperature is nearly 18°C. Besides,

a reduction in the supply air temperature of a

one-zone MVHR will cool down other rooms in

the dwelling and substantially reduce the heat

recovery efficiency.

Other influential factors, such as solar

insolation, commonly higher temperatures in

adjacent bathrooms or an open bedroom door

TOO HOT IN THE BEDROOM?

|

FOR HETT PÅ SOVEROMMET?

If you can’t sleep, don’t count sheep.

Check the supply air temperature!

Magnar Berge (NTNU/HiB)