DR. K. N. MODI UNIVERSITY
2019
CLIMATE RTESPONSIVE HOUSING
generated by appliances in rooms such as kitchens may be recycled to heat the other parts of the building.
FIGURE 31: ORIENTATION
BUILDING ENVELOPE a) Roof: False ceilings are a regular roof feature of houses in cold climates. One can also use internal insulation such as polyurethane foam (PUF), thermocol, wood wool, etc. An aluminium foil is generally used between the insulation layer and the roof to reduce heat loss to the exterior. A sufficiently sloping roof enables quick drainage of rain water and snow. A solar air collector can be incorporated on the south facing slope of the roof and hot air from it can be used for space heating purposes. Skylights on the roofs admit heat as well as light in winters. The skylights can be provided with shutters to avoid over heating in summers.
b) Walls: Walls should be of low U-value to resist heat loss. The south-facing walls (exposed to solar radiation) could be of high thermal capacity (such as Trombe wall) to store day time heat for later use. The walls should also be insulated. The insulation should have sufficient vapour barrier (such as two coats of bitumen, 300 to 600 gauge polyethylene sheet or aluminium foil) on the warm side to avoid condensation. Hollow and lightweight concrete blocks are also quite suitable. On the windward or north side, a cavity wall type of construction may be adopted.
c) Fenestration: It is advisable to have the maximum window area on the southern side of the building to facilitate direct heat gain. They should be sealed and preferably double glazed. Double glazing helps to avoid heat losses during winter nights. However, care should be taken to prevent condensation in the air space between the panes. Movable shades should be provided to prevent overheating in summers.
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