Table 12 Winter Design Temperatures and Air Changes
Type of building
Temperature
Air changes
(°C)
(/h)
Art galleries and museums
20
1
Assembly halls, lecture halls
18
0.5
Banking halls:
large (height over 4 m)
20
1
small (height less than 4 m)
20
1.5
Bars
18
1
Canteens and dining rooms
20
1
Churches and chapels:
up to 7000 m²
18
0.5
over 7000 m²
18
0.25
vestries
20
1
Dining and banqueting halls
21
0.5
Exhibition halls:
large (height over 4 m)
18
0.25
small (height less than 4 m)
18
0.5
Factories: sedentary work
19
see note
light work
16
below
heavy work
13
Fire stations, ambulance stations:
appliance rooms
15
0.5
watch rooms
20
0.5
recreation rooms
18
1
Flats, residences and hostels:
living rooms
21
1
bedrooms
18
0.5
Bed sitting rooms
21
1
bathrooms
22
2
lavatories and cloakrooms
18
1.5
service rooms
16
0.5
staircases and corridors
16
1.5
entrance halls and foyers
16
1.5
public rooms
21
1
Gymnasiums
16
0.75
Hospitals:
corridors
16
1
offices
20
1
operating theatre suite
18-21
0.5
stores
15
0.5
wards and patient areas
18
2
waiting rooms
18
1
Hotels:
bedrooms (standard)
22
1
bedrooms (luxury)
24
1
public rooms
21
1
staircases and corridors
18
1.5
entrance halls and foyers
18
1.5
Laboratories
20
1
Law Courts
20
1
Libraries:
reading rooms (height over 4 m)
20
0.5
reading rooms (height below 4 m)
20
0.75
stack rooms
18
0.5
store rooms
15
0.25
Offices: general
20
1
private
20
1
stores
15
0.5
Police stations: cells
18
5
Restaurants and tea shops
18
1
Schools and colleges:
classrooms
18
2
lecture rooms
18
1
studios
18
1
Shops and showrooms:
small
18
1
large
18
0.5
department store
18
0.25
fitting rooms
21
1.5
store rooms
15
0.5
Sports pavilions: dressing rooms
21
1
Swimming baths:
changing rooms
22
0.5
bath halls
26
0.5
Warehouses:
working and packing spaces
16
0.5
storage spaces
13
0.25
For infiltration rates in factories see CIBSE Guide A4, page A4_9 and Table A4.9.
The tabulated infiltration rates are based on normal exposure and on an average ratio (25%) of openable areas (windows and doors) to external wall area. If the ratio much exceeds 25% in one external wall only, increase the infiltration by one quarter; if it is the case for two or more walls, an increase of one half should be allowed. On severely exposed sites, a 50% increase should be allowed, and on sheltered sites the infiltration rate may be reduced by one third. During periods when the building is unoccupied the infiltration rate can be taken as half that obtained in normal use.
The air-change rate in rooms in tall buildings may be increased above the values given by the direct action of the wind, and by stack effect. The design of tall buildings should include barriers against vertical air movement through stairwells and shafts to minimize stack effect. If this is not done, the balance of internal temperatures can be seriously upset.
Where warm air is supplied mechanically for ventilation, rates of infiltration applicable to a closed building (i.e. half the tabulated values) should be used for calculating the room heat requirements, so that room temperatures can be maintained, if required, when the mechanical ventilation is not operating. Heat for the warm air requirements must, however, be included in the total load on the central plant.
