2. CIVIL ENGINEERING DEPARTMENT,
FACUALTU OF TACHENOLOGY, D.D.UNIVERSITY.
ACADEMIC YEAR 2016-2017
• GUIDED BY :
PARMAR SAMIR SIR
• SUBMITTED BY :
• GOSWAMI HEMANGGIRI Y. CL-034
HIRPARA AKASH J. CL-035
JANI KAPIL G. CL-036 2
3. Table Of Contents
Introduction
Important
Fundamental Principles
Selection Criteria for Green Building Materials
Material
Green building project in India
Conclusion
References
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4. Definition:
“It is the practice of increasing
efficiency with which buildings
use resources- energy, water
and materials-while reducing
building impacts on human
health and the environment.”
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5. Importants:
As the earth’s population continuous to explode and developing nations
begin to use their share of world’s resources, it is necessary to ascertain
how we, as a planet, use our earth’s precious resources.
During construction or at the end of useful building life, construction
materials and components are often discarded with construction debris
accounting for nearly 28% of land waste in country.
Inappropriate use of building material that emit chemical can pollute the
indoor environment contributing to poor indoor air quality (IAQ) with
some new building chemical concentrations up to 100 times grater than
outside levels.
World Health Organization estimate approximately 30% of all building will
have IAQ concerns during facility occupancy.
Green Building Materials can help create more sustainable, healthful,
and ecologically sensitive Buildings.
Continues..
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6. Nowadays, we should make a way to maximize our natural resources
and also help our mother earth to get some relief since pollution is
everywhere plus the global warming that we are all experiencing.
Non-renewable energy is expensive and unsafe but did you know that
through green building we can save a lot of energy.
let's define first the meaning of green building (know also as green
construction) is the practice of creating structures and using
processes that are environmentally responsible and resource-
efficient throughout a building's life-cycle: from siting to design,
construction, operation, maintenance, renovation, and
deconstruction.
The importance of this is it lessen the consume of energy and the
pollution as well because the more we use nonrenewable energy the
higher the risk of pollution.
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7. Selection Criteria
Aesthetic Quality
Durability
Ecological Impact
Embodied Energy
Performance
Social Impact
Cost
Non-Toxic or Less-Toxic Materials
Renewable Energy
Biodegradability
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8. Fundamental Principles
Structure design efficiency
Energy efficiency
Water efficiency
Materials efficiency
Waste and toxic reduction
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9. Structure Design Efficiency
It is the concept of sustainable building and has largest impact on cost and
performance.
It aims to minimize the environment impact associated with all life-cycles.
Energy efficiency
The layout of the construction can be strategized so that natural light
pours for additional warmth.
Shading the roof with trees offers an eco-friendly alternative to air
conditioning.
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10. Water efficiency
To minimize water consumption one should aim to
use the water which has been collected, used,
purified and reused.
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11. Materials efficiency
Waste And Reduction
It is probable to reuse resources.
What may be waste to us may have another benefit to
something else.
Materials should be use that can be recycled and can
generate surplus amount of energy.
An example of this are solar power panels, not only they
provide lightening but they are also a useful energy
source.
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12. Green Building Material
Wool brick
Sustainable Concrete
Paper Insulation
Eco Friendly
Flooring
Wall Fishes
Triple-Glazed Windows
Cabinetry
Tile
Typical Layout Of Green Building
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13. Wool brick
Obtained by adding wool
and a natural polymer found
in seaweed to the clay of
the brick
37% More strength than
burnt bricks
Resistant for cold and wet
climate
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14. Sustainable Concrete
Crushed glass
Wood chips or slag - a
byproduct of steel
manufacturing.
Reduces the emission of
CO2
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15. Paper Insulation
Made from recycled
newspapers and
cardboard
Then filled with
chemical foam
Insect resistant &fire
retardant
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20. Flooring
FSC Certified Flooring
PRINCIPLE #1: COMPLIANCE WITH LAWS AND FSC PRINCIPLES
PRINCIPLE #2: TENURE AND USE RIGHTS AND RESPONSIBILITIES
PRINCIPLE #3: INDIGENOUS PEOPLES’ RIGHTS
PRINCIPLE #4: COMMUNITY RELATIONS AND WORKER’S RIGHTS
PRINCIPLE # 5: BENEFITS FROM THE FOREST
PRINCIPLE #6: ENVIRONMENTAL IMPACT
PRINCIPLE #7: MANAGEMENT PLAN
PRINCIPLE #8: MONITORING AND ASSESSMENT
PRINCIPLE # 9: MAINTENANCE OF HIGH CONSERVATION VALUE FORESTS
PRINCIPLE # 10: PLANTATIONS
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27. Green building project in India
Nokia-Gurgaon
Suzlon Energy Limited-Pune
Hybrid- HVAC system: Olympia Tech Park-Chennai
Biodiversity Conservation India-Bangalore
Olympia Technology Park-Chennai
ITC Green Centre-Gurgaon
The Druk White Lotus School-Ladakh
Doon School-Dehradun
Raintree Hotels-Chennai
Rajiv Gandhi International Airport-Hyderabad
Hiranandini-BG House, Powai
ABN Amro Bank, Chennai
Palais Royale at Worli, Mumbai
Punjab Forest Complex ,Mohali
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28. Nokia-Gurgaon
‘GOLD’ rated building by
LEED.
Its smart lighting, heat
recovery wheel and high
efficiency chillers makes
this office stand out from
the rest.
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29. Rajiv Gandhi International Airport
India’s first Greenfield airport is
undeniably among the top 10
green buildings in India.
First airport in asia to be certified
with ‘SILVER’ rating.
This green building ensures
optimal use of natural light and
minimal wastage of electricity or
energy consumption.
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30. Hybrid- HVAC system: Olympia Tech Park
By effective usage of grey water in the
building, Olympia Techpark in Chennai has
able to meet its heating and cooling
requirements.
They have a dual plumbing line where the
treated grey water is used for flushing or
in irrigation.
HVAC system they are able to have cool,
indoor comfort when it’s hot outside
providing a year-round indoor comfort
solution.
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32. Conclusion
o This research identified the exciting developments taking
place on the technology front and analyses their
implications for intelligent and green buildings,
highlighting examples of “best in class” buildings
employing green and intelligent technologies. These
buildings are dynamic environments that respond to their
occupants’ changing needs and lifestyles. This research
provided documented evidence to educate and influence
end-users, building owners, architects, and contractors
that a “greener building” can be achieved using
intelligent technology and that this “greening” will
provide a tangible and significant return on investment.
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