ShKo Bungalow at Karjat

The design for the ShKo bungalow at Karjat has finally been completed. It’s taken a lot longer than most because, apart from the complex slope, there was a severe constraint of building within a small portion of the entire one acre plot — the rest is prone to occasional flooding from the adjoining river.

Like other architectural designs, this too makes maximum use of local materials and of passive cooling.  External stone walls are at least 24″ (60cm) thick and provide a formidable barrier to heat-gain even in a place like Karjat.  Deep verandahs on the South and West don’t allow direct egress of strong sunlight from mid-mornings till evening. And high roofs with openings at upper levels allow constant ventilation to take place.

Rainwater harvested from the roof will be collected in the basement that is automatically formed by the sloping land. It will also be used to flood the pool which will not, hopefully, have any chemicals used to disinfect it. The current plan is to do natural filtration but the eventual system will depend on getting a reliable and qualified consultant to carry this out.

View from the gate

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The entrance is set within a recess adjoining the car-port. Deep roof overhangs protect most walls from direct heat-gain. All external walls are at least 24" (60cm) thick and made of local stone to keep the interiors cool even in summer.

Passive Cooling in Tropical Climates

Passive cooling In tropical climates can be achieved by intelligent architectural design.In tropical climates, it’s important to keep the interior of a building cool and it is known as “passive cooling” because the reliance on “active” or mechanical means (air-conditioning) is kept to a minimum. In most parts of India, it is wise to keep direct sun away from the interiors of the building especially during the hot months. Allowing direct egress and glare leads to a build-up of heat and discomfort. This can be avoided by having deep roof overhangs and chajjas. Other methods of passive cooling depend on the local climatic factors.

Thermal Mass

In extreme climates which are usually also dry, you want to insulate yourself from the elements. For example in parts of Madhya Pradesh and Rajasthan, a hot and sand-laden wind (known as loo) is common in May. Under such circumstances, cross ventilation is something that you desperately want to avoid. In places like this, the openings are kept small and the walls are made so thick that by the time the heat manages to penetrate, the day is more or less over. Also, if you look at the local architecture, you will notice that all the structures are huddled together as if protecting each other from their harsh surroundings; which is, in fact, exactly what they’re doing.

Sun Studies

Sun Study

With the advent of computers and advanced software, what was once a tedious and error-prone manual procedure can now be completed by pressing a button. Sun studies help immensely in determining where and when sunlight enters a building, allowing the architect to accurately design awnings, verandahs and roof overhangs and even help in the placement of large trees which can provide shade.

The animation above was created using ArchiCAD – a parametric architectural package which is excellent, not only because one can design directly in 3D but, also, because it automatically calculates shadows for a given structure at any chosen date and time.

Cross Ventilation

In humid places like the coastal areas of our country, comfort is achieved by having air flowing over your skin; evaporating the sweat and cooling your body. For this, it is advisable to have large openings in the building’s envelope. However, deep overhangs need to be used to minimise direct entry of sunlight (read: heat) otherwise you’ll have hot air blowing over you, which pretty much defeats the purpose of the exercise, doesn’t it?

Clerestory windows help hot air escape

High-level clerestory windows help hot air escape

In addition, openings can be strategically placed to allow the heat to escape. In a single-storey house, high-level or clerestory windows allow hot air to escape and thus generate circulation even when there is very little natural breeze.

Another way to set up a stack effect is to install a wind-driven roof vent. They need no electricity to run and spin based on the difference between outside and inside temperature – the hotter it is outside, the faster they go. They can be purchased from:

Wind Vent :: Tamil Nadu
FlexiTuff Industries :: Maharashtra


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