2. Index
Introduction
What Exactly is Green Building ?
Goals of Green Building
Fundamental Principles
Benefits of Green Building
Challenges for Green Building
Affect on Natural Resources
Conclusion
Reference
3. Introduction
Green building (also known as green construction or
sustainable building) refers to both a structure and the
using of processes that are environmentally responsible
and resource-efficient throughout a building's life-cycle:
from sitting to design, construction, operation,
maintenance, renovation, and demolition.
In other words, green building design involves finding
the balance between homebuilding and the sustainable
environment.
The Green Building practice expands and complements
the classical building design concerns of economy,
utility, durability, and comfort.
4. What Exactly is Green
Building ? Avoiding harmful chemicals (Off-Gassing)
Using Rapidly Renewable materials
Using Recycled Content Containing materials
Purchasing Locally Manufactured materials
Choosing Energy Efficient appliances
Selecting Water Saving fixtures and features
Taking advantage of Salvage opportunities
Reducing Job Site Waste (Avoid Landfill)
5. Goals of Green Building
Recycle
Reduce
ResponseRenew
Refuse
Goals of
Green Building
6. Fundamental Principle
Structure Efficiency
Energy Efficiency
Water Efficiency
Material Efficiency
Waste and toxic Reduction
7. Structure Design Efficiency
It is the concept of sustainable building and
has largest impact on cost and performance.
In designing environmentally optimal
buildings, the objective is to minimize the
total environmental impact associated with all
life-cycle stages of the building project.
8. Energy Efficiency
The layout of the construction can be
strategized so the natural light pours for
additional warmth.
Green buildings often include measures to
reduce energy consumption – both the
embodied energy required to extract,
process, transport and install building
materials and operating energy to provide
services such as heating and power for
equipment.
9. Water Efficiency
Reducing water consumption and protecting
water quality are key objectives in
sustainable building.
To the maximum extent feasible, facilities
should increase their dependence on water
that is collected, used, purified, and reused
on-site.
10. Material Efficiency
The term Material efficiency can also signify
the degree in which a material can handle a
particular load, strain or weight upon it.
Material efficiency can be achieved through
using material which can be recycled,
materials that use renewable energy, and
other ways.
For example, using recycled steel instead of
new steel "reduces the energy produced in
making the steel by 75 percent, and saves
space in landfills as well."
11. Waste and Toxic Reduction
Green architecture also seeks to reduce
waste of energy, water and materials used
during construction.
It is probable to reuse resources
Waste Reduction can protect the
environment and provide good economic
and business practices.
12. Benefits of Green Building
Building have large effect on the environment,
human health and economy.
The successful adoption of GREEN BUILDING
development can maximize both the economic
and environmental performance of the buildings.
Basically Benefits can be Describe in following:-
Environmental Benefits
Economical Benefits
Social Benefits
16. Social Benefits
Enhance occupant comfort and health.
Heighten aesthetic qualities.
Minimize Strain on local infrastructure.
Improve overall quality of life.
17. Challenges for Green Building
Increased Growth of e-waste
Increased energy costing
Increased amount of non-disposal
waste
Lack of awareness in people
18. Affect on Natural Resources
According to surveys conducted in 2006, 107.3
million acres of total land area is developed,
which represents an increase of 24 percent land
covering green buildings over the past 3 years.
In terms of energy, buildings accounted for 39.4
percent of total energy consumption and 67.9
percent of total electricity consumption.
19. Conclusion
This research identified the exciting developments
taking place on the technology front and analyzes
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.