environmental sanitation institute.ppt
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Apr 23, 2023
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Towards sustainable symbiosis of man, nature and architecture
ENVIRONMENTAL SANITATION INSTITUTE
Orientation to regulate breeze and reduce solar gain
are responses to the macro-climatic conditions of the
site. Increased massing towards the south west
exploits shaded areas to the north east by
accommodating the activity areas, courts and streets
along them. North facing terraces in the upper floors,
decks and open to sky plinths provide multiple use
probabilities
Orientation to regulate breeze and reduce solar gain
are responses to the macro-climatic conditions of the
site. Increased massing towards the south west
exploits shaded areas to the north east by
accommodating the activity areas, courts and streets
along them. North facing terraces in the upper floors,
decks and open to sky plinths provide multiple use
probabilities
Thebuiltform,epitomizing
and demonstratingthe
understandings of
environmentalsustainabilityis
averitableshowcaseofan
effortinmaintainingthe
ecologicalbalanceand
harmonizingwithnatureinthe
hot,dry climateof
Gandhinagar.
and demonstratingthe
understandings of
environmentalsustainabilityis
averitableshowcaseofan
effortinmaintainingthe
ecologicalbalanceand
harmonizingwithnatureinthe
hot,dry climateof
Gandhinagar.
LAND AS CULTIVABLE
RESOURCE (HORTICULTURE)
Reproductive resource exploited
through creation of kitchen gardens
and herbal / fruit plantation through
seasonal organic farming.
Plantation with resource value i.e.
fruit bearing, herbal value and shade
giving trees.
Local shading by trees are used to
an advantage in situations with
south facing walls. Wind turbulences
and eddy spaces formed by both
built form and vegetation assist dust
control and are positively used as
open air activity areas.
Ground cover vegetation helps in the
prevention of soil erosion and also
aids surface glare control.
RESOURCE (HORTICULTURE)
Reproductive resource exploited
through creation of kitchen gardens
and herbal / fruit plantation through
seasonal organic farming.
Plantation with resource value i.e.
fruit bearing, herbal value and shade
giving trees.
Local shading by trees are used to
an advantage in situations with
south facing walls. Wind turbulences
and eddy spaces formed by both
built form and vegetation assist dust
control and are positively used as
open air activity areas.
Ground cover vegetation helps in the
prevention of soil erosion and also
aids surface glare control.
In terms of managing available
resources of land, the landscape
design facilitates and fosters
microclimate control.
resources of land, the landscape
design facilitates and fosters
microclimate control.
Sustainable Water Management
The combined water requirement of the institute, for
drinking, sanitation and gardening purposes have been met
by rain water harvesting, both from the roofs as well as from
the open ground and garden. The clearer and unsullied
water collected from the roof is stored in an underground
tank and supplements the flushing water requirements of
the toilets.
A controlled amount of the surface runoff from the ground is
stored in an open air tank which becomes a major feature in
the landscape of the garden and also satisfies the
gardening water requirement of the entire year. Ground
water recharging from percolating wells are combined with
sullage treatment by root-zone tanks to return water to the
ecosystem in a naturalized and harmless way.
Organic solid waste is used to make bio-gas which fuels the
kitchen and is also managed through soak pits. Lavatories
designed with minimized water-borne carriage system
enhance performance of these techniques at the same time
maintain high standards of sanitation.
Water Management: Harvesting and Recycling
Roof water Harvesting Closed Tanks
Capacity –1, 80,000 Litres
Site water Harvesting Percolation Wells
Capacity –70,000 Litres x 4
Garden water harvesting in Open Pond
Capacity –7, 00,000 Litres
The combined water requirement of the institute, for
drinking, sanitation and gardening purposes have been met
by rain water harvesting, both from the roofs as well as from
the open ground and garden. The clearer and unsullied
water collected from the roof is stored in an underground
tank and supplements the flushing water requirements of
the toilets.
A controlled amount of the surface runoff from the ground is
stored in an open air tank which becomes a major feature in
the landscape of the garden and also satisfies the
gardening water requirement of the entire year. Ground
water recharging from percolating wells are combined with
sullage treatment by root-zone tanks to return water to the
ecosystem in a naturalized and harmless way.
Organic solid waste is used to make bio-gas which fuels the
kitchen and is also managed through soak pits. Lavatories
designed with minimized water-borne carriage system
enhance performance of these techniques at the same time
maintain high standards of sanitation.
Water Management: Harvesting and Recycling
Roof water Harvesting Closed Tanks
Capacity –1, 80,000 Litres
Site water Harvesting Percolation Wells
Capacity –70,000 Litres x 4
Garden water harvesting in Open Pond
Capacity –7, 00,000 Litres
Land management and
landscape treatment in terms
of cut and fill on the flat site for
solar passive design like
berming, evaporative cooling
and sunk levels also create
spatial and visual interest
Orchards and kitchen gardens
are active and productive
means of optimizing available
resources like land in the
setback margin, treated sullage
for irrigation, mulched organic
waste from the kitchen as
manure etc
These features not only absorb
ese effluents which would
otherwise go waste and need
management but also yield
produce as a by-product of the
landscape effort for no extra
cost, participating in the
sustainability of the system and
actually adding value
landscape treatment in terms
of cut and fill on the flat site for
solar passive design like
berming, evaporative cooling
and sunk levels also create
spatial and visual interest
Orchards and kitchen gardens
are active and productive
means of optimizing available
resources like land in the
setback margin, treated sullage
for irrigation, mulched organic
waste from the kitchen as
manure etc
These features not only absorb
ese effluents which would
otherwise go waste and need
management but also yield
produce as a by-product of the
landscape effort for no extra
cost, participating in the
sustainability of the system and
actually adding value
WASTE WATER
RECYCLING
Root Zone Treatment
(Plant Bed)
The plant Australis-
Phragmatis is grown in
a specially designed
bed through which grey
water is passed. After a
cycle of 40 days totally
clean water is
discharged to be
reused for toilet
flushing, washing etc.
(Capacity 5000 litres
/day for 50 persons)
RECYCLING
Root Zone Treatment
(Plant Bed)
The plant Australis-
Phragmatis is grown in
a specially designed
bed through which grey
water is passed. After a
cycle of 40 days totally
clean water is
discharged to be
reused for toilet
flushing, washing etc.
(Capacity 5000 litres
/day for 50 persons)
.
Massingisselectivelycontrolledtoprovidemutualshadeand
maximizeshadow,breakingupcontinuoussurfacesand
therebyreducingreflectedglare.Overhangsdeterminedby
shadow-throwstudiesandsunangleanalysisovertheyear
controlsolarpenetrationandalsohelpinreducing
atmosphericglareintheinteriors.
maximizeshadow,breakingupcontinuoussurfacesand
therebyreducingreflectedglare.Overhangsdeterminedby
shadow-throwstudiesandsunangleanalysisovertheyear
controlsolarpenetrationandalsohelpinreducing
atmosphericglareintheinteriors.
INSULATED ROOF
Thin Ferro-Cement shell roof insulated by layers
of China Mosaic and Vermiculite.
Thin Ferro-Cement shell roof insulated by layers
of China Mosaic and Vermiculite.
Brick cavity walls
insulate the interiors from
the high ambient
atmospheric temperatures
and incoming solar
radiation.
insulate the interiors from
the high ambient
atmospheric temperatures
and incoming solar
radiation.
Solar photovoltaic and heating panels along with
humidifiers and fans are envisaged as low-energy,
active means of controlling the microclimate to
supplement the solar passive design
Photo voltaic
Solar Panel
for Electricity
Photo voltaic
Cells produce
electricity to
run 2 Horse
Power solar
water pump
Solar Water
Heater
Solar power
used to heat
water for
ablutionary
requirements
in winter
Solar Cooker
Nine mt dia. two set of horizontal and vertical
solar parabolic panels are mounted to be able to
produce energy to cook for hundred persons.
Smaller dishes are also mounted for lesser
quantity cooking and domestic gadgets
humidifiers and fans are envisaged as low-energy,
active means of controlling the microclimate to
supplement the solar passive design
Photo voltaic
Solar Panel
for Electricity
Photo voltaic
Cells produce
electricity to
run 2 Horse
Power solar
water pump
Solar Water
Heater
Solar power
used to heat
water for
ablutionary
requirements
in winter
Solar Cooker
Nine mt dia. two set of horizontal and vertical
solar parabolic panels are mounted to be able to
produce energy to cook for hundred persons.
Smaller dishes are also mounted for lesser
quantity cooking and domestic gadgets
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