Energy efficiency in Green Building
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Apr 02, 2015
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About This Presentation
A green building is one which uses less water, optimizes energy efficiency, conserves natural resources, generates less waste and provides healthier spaces for occupants as compared to a conventional building
Slide Content
GREEN BULDING:ENERGY
MANAGEMENT IN GREEN BUILDING
MANAGEMENT IN GREEN BUILDING
What is a Green Building?
A Green Building, also known as a sustainable building, is a structure that is
designed, built, renovated, operated, or re-used in an ecological and resource
efficient manner.
“A green building is one which uses less water, optimizes
energy efficiency, conserves natural resources, generates less
waste and provides healthier spaces for occupants as
compared to a conventional building”.”
Objectives of a green building:
Protecting occupant health
Improving employee productivity
Using energy, water and other resources more efficiently
Reducing overall impact to the environment
Optimal environmental and economic performance
Satisfying and quality indoor spaces
A Green Building, also known as a sustainable building, is a structure that is
designed, built, renovated, operated, or re-used in an ecological and resource
efficient manner.
“A green building is one which uses less water, optimizes
energy efficiency, conserves natural resources, generates less
waste and provides healthier spaces for occupants as
compared to a conventional building”.”
Objectives of a green building:
Protecting occupant health
Improving employee productivity
Using energy, water and other resources more efficiently
Reducing overall impact to the environment
Optimal environmental and economic performance
Satisfying and quality indoor spaces
Benefits of Green Buildings
Environmental Benefits
• Reduce the impacts of natural resource consumption
Economic Benefits
• Reduced operating costs
• Marketing advantages
• Increased building valuation
• Optimizes life-cycle performance cost
Health and Safety Benefits
• Enhance occupant comfort and health
Community Benefits
• Minimize strain on local infrastructure and improve quality of life
Environmental Benefits
• Reduce the impacts of natural resource consumption
Economic Benefits
• Reduced operating costs
• Marketing advantages
• Increased building valuation
• Optimizes life-cycle performance cost
Health and Safety Benefits
• Enhance occupant comfort and health
Community Benefits
• Minimize strain on local infrastructure and improve quality of life
Whole designWhole design
HVAC design
Lighting design
Water system design
Architectural design/Site
planning
Energy management and
control design
HVAC design
Lighting design
Water system design
Architectural design/Site
planning
Energy management and
control design
Architectural design & Site planning
Bioclimatic architectural principles
•Orientation
•Thermal mass
•Surface to volume ratio
•Positioning of windows,shading
•Selection of materials for wall,roof,windows,including insulation
•Landscaping
Buildings in hot climate…
•Orientation to cut off sun protected insulated windows external wall insulation
•Lower surface to volume,lighter finishes,water as landscape element
Buildings in cold climate…
•Large windows to capture sun
•Thermal mass to store heat
•Minimum Shading
•Insulated walls and windows
•Darker finishes
•Orientation
•Thermal mass
•Surface to volume ratio
•Positioning of windows,shading
•Selection of materials for wall,roof,windows,including insulation
•Landscaping
Buildings in hot climate…
•Orientation to cut off sun protected insulated windows external wall insulation
•Lower surface to volume,lighter finishes,water as landscape element
Buildings in cold climate…
•Large windows to capture sun
•Thermal mass to store heat
•Minimum Shading
•Insulated walls and windows
•Darker finishes
Effect of efficient materials
•Roof and wall insulation reduced cooling load by 23%
•Insulated windows reduced cooling load by 9% (window to wall ratio 7%)
Use onsite sources
•Day lighting
•Natural Ventilation(night cooling)
•Roof and wall insulation reduced cooling load by 23%
•Insulated windows reduced cooling load by 9% (window to wall ratio 7%)
Use onsite sources
•Day lighting
•Natural Ventilation(night cooling)
Lighting Design
The passive solar practice of placing windows, or other transparent media,
and reflective surfaces so that, during the day, natural
sunlight provides effective internal illumination.
•Use of effective solar control strategies (overhangs) and high performance
glazings limit associated solar gains.
•Achieving this daylight credit will likely increase energy savings in the Energy
and Atmosphere credits. This is largely due to savings in the electric lighting
that results from well daylit spaces.
•Minimize site lighting where possible
•Full cut off-luminaries
•Low-reflectance surfaces
•Low-angle spotlights
and reflective surfaces so that, during the day, natural
sunlight provides effective internal illumination.
•Use of effective solar control strategies (overhangs) and high performance
glazings limit associated solar gains.
•Achieving this daylight credit will likely increase energy savings in the Energy
and Atmosphere credits. This is largely due to savings in the electric lighting
that results from well daylit spaces.
•Minimize site lighting where possible
•Full cut off-luminaries
•Low-reflectance surfaces
•Low-angle spotlights
Water System design
Reduce potable water consumption for landscape by 50% over
a theoretical baseline design for the specific region.
Successful Strategies:
•Drought tolerant plants
•Drip irrigation,moisture-sensing irrigation technologies
•Recycled rainwater system
•Municipally-provided non-potable water source use
Water Use Reduction, 20% and 30% Reduction
Successful Strategies:
•Dual flush water closets
•Ultra low-flow water closets and urinals
•Waterless Urinals
•Sensor-operated, Low-flow lavatories
•Rainwater collection reuse systems
•Gray water reuse systems
Landscaping & Water use reduction
a theoretical baseline design for the specific region.
Successful Strategies:
•Drought tolerant plants
•Drip irrigation,moisture-sensing irrigation technologies
•Recycled rainwater system
•Municipally-provided non-potable water source use
Water Use Reduction, 20% and 30% Reduction
Successful Strategies:
•Dual flush water closets
•Ultra low-flow water closets and urinals
•Waterless Urinals
•Sensor-operated, Low-flow lavatories
•Rainwater collection reuse systems
•Gray water reuse systems
Landscaping & Water use reduction
Energy management system
•Photovoltaic (Solar electric) is a device which
produce free electrons when exposed to light
resulting in power generation.
•Photovoltaic does not release any of the green
house gases when in use.
•Photovoltaic uses a non-conventional,
renewable source of energy which has no
adverse effects on the environment.
•solar photovoltaic system
55% energy savings over base building
Photovoltaic
produce free electrons when exposed to light
resulting in power generation.
•Photovoltaic does not release any of the green
house gases when in use.
•Photovoltaic uses a non-conventional,
renewable source of energy which has no
adverse effects on the environment.
•solar photovoltaic system
55% energy savings over base building
Photovoltaic
•Replace asphalt with concrete where possible
•Plant trees in vegetation strips around parking lots or sidewalks.
•Bioswales
•Filtration basins (filters)
•Detention Ponds / Retention Ponds
•Vegetated filter strips
•Pervious paving
•Vegetated/Garden Roofs
•Energy Star rated roofing systems
•High reflectivity coatings
Sustainability at Site
•Plant trees in vegetation strips around parking lots or sidewalks.
•Bioswales
•Filtration basins (filters)
•Detention Ponds / Retention Ponds
•Vegetated filter strips
•Pervious paving
•Vegetated/Garden Roofs
•Energy Star rated roofing systems
•High reflectivity coatings
Sustainability at Site
Heat, Ventilation & Air conditioning
The main purpose of commercial HVAC (Heat, Ventilation &
Air conditioning) systems is to provide the people working
inside the building with “conditioned “ air .
"Conditioned" air means that air is clean and odour-free, and
the temperature, humidity, and movement of the air are
within certain comfort ranges
•Systems may be clustered at a central location and serve an entire
campus of buildings
•Locate system away from acoustically sensitive areas of the building
•Selecting efficient air conditioning based on your climate.
• Selecting the proper type of and efficient heating system for your climate
•Designing and sealing air distribution systems properly.
Air conditioning) systems is to provide the people working
inside the building with “conditioned “ air .
"Conditioned" air means that air is clean and odour-free, and
the temperature, humidity, and movement of the air are
within certain comfort ranges
•Systems may be clustered at a central location and serve an entire
campus of buildings
•Locate system away from acoustically sensitive areas of the building
•Selecting efficient air conditioning based on your climate.
• Selecting the proper type of and efficient heating system for your climate
•Designing and sealing air distribution systems properly.
•Replace CFC-based refrigerant.
•Consider non-refrigerant based cooling such as evaporative cooling in dryer
climates.
•Consider photovoltaic, solar thermal, geothermal, wind, biomass, and bio-
gas energy technologies
•Sophisticated Electrical Management Systems, Building Automation
Systems or Direct Digital Control systems inherently include most of the
required monitoring points.
•Combine carbon dioxide monitors with demand based ventilation.
•Consider adjustable under floor air diffusers, or thermostat controlled VAV
boxes.
•Consider non-refrigerant based cooling such as evaporative cooling in dryer
climates.
•Consider photovoltaic, solar thermal, geothermal, wind, biomass, and bio-
gas energy technologies
•Sophisticated Electrical Management Systems, Building Automation
Systems or Direct Digital Control systems inherently include most of the
required monitoring points.
•Combine carbon dioxide monitors with demand based ventilation.
•Consider adjustable under floor air diffusers, or thermostat controlled VAV
boxes.
Composite Commercial Building in 2020
•Solid state lighting integrated
into hybrid solar day lighting
systems
•Smart windows
•Photovoltaic roof shingles,
walls, and awnings
•Solar heating and super
insulation
•Combined heat and power-
gas turbines and fuel cells
•Intelligent building systems
•Solid state lighting integrated
into hybrid solar day lighting
systems
•Smart windows
•Photovoltaic roof shingles,
walls, and awnings
•Solar heating and super
insulation
•Combined heat and power-
gas turbines and fuel cells
•Intelligent building systems
THERE ARE THREE PRIMARY RATING SYSTEMS IN INDIA.
A.GRIHA
•Green Rating for integrated habitat assessment (GRIHA) is India’s own rating
system jointly developed by TERI and the Ministry of New and Renewable
Energy, Government of India.Commonwealth Games village, New Delhi, Fortis
Hospital, and New Delhi, CESE (Centre for Environment Sciences) &
Engineering Building, IIT Kanpur, Suzlon one earth, Pune and many other
buildings has received GRIHA rating.
.
A.GRIHA
•Green Rating for integrated habitat assessment (GRIHA) is India’s own rating
system jointly developed by TERI and the Ministry of New and Renewable
Energy, Government of India.Commonwealth Games village, New Delhi, Fortis
Hospital, and New Delhi, CESE (Centre for Environment Sciences) &
Engineering Building, IIT Kanpur, Suzlon one earth, Pune and many other
buildings has received GRIHA rating.
.
B. IGBC:
IGBC rates green buildings
in four different categories:
•IGBC green homes
•IGBC green factory
building
•LEED India for new
construction
•LEED India for core and
shell.
IGBC rates green buildings
in four different categories:
•IGBC green homes
•IGBC green factory
building
•LEED India for new
construction
•LEED India for core and
shell.
•Bee (Bureau of Energy Efficiency) its own rating system for the buildings based
on 1 to 5 stars scale. More stars mean more energy efficiency. Bee has
developed the Energy Performance Index (EPI). The unit of kilo watt hours per
square meter per year is considered for rating the building and especially
targets air conditioned and non-air conditioned office building
•The Reserve bank of India’s buildings in Delhi and Bhubaneswar, the CII
Sohrabji Godrej Green Business centre and many other buildings has received
BEE 5 star ratings.
on 1 to 5 stars scale. More stars mean more energy efficiency. Bee has
developed the Energy Performance Index (EPI). The unit of kilo watt hours per
square meter per year is considered for rating the building and especially
targets air conditioned and non-air conditioned office building
•The Reserve bank of India’s buildings in Delhi and Bhubaneswar, the CII
Sohrabji Godrej Green Business centre and many other buildings has received
BEE 5 star ratings.
INDIA’S GREENEST BUILDING
•Hyderabad, the city of architecture& pearls, now boasts of one of the greenest
buildings in the world. CII – Sohrabji Godrej Green Business Centre (CII Godrej
GBC),cozily nestled close to Shilparamam, is the first LEED Platinum rated green
building in India. The building is a perfect blend of India’s rich architectural splendor
and technological innovations, incorporating traditional concepts into modern and
contemporary architecture.
•Extensive energy simulation exercises were undertaken to orient the building in such
a way that minimizes the heat ingress while allowing natural daylight to penetrate
abundantly.
•The green building boasts a 50% saving in overall energy consumption, 35 %
reduction in potable water consumption and usage of 80% of recycled / recyclable
material. Most importantly, the building has enabled the widespread green building
movement in India
buildings in the world. CII – Sohrabji Godrej Green Business Centre (CII Godrej
GBC),cozily nestled close to Shilparamam, is the first LEED Platinum rated green
building in India. The building is a perfect blend of India’s rich architectural splendor
and technological innovations, incorporating traditional concepts into modern and
contemporary architecture.
•Extensive energy simulation exercises were undertaken to orient the building in such
a way that minimizes the heat ingress while allowing natural daylight to penetrate
abundantly.
•The green building boasts a 50% saving in overall energy consumption, 35 %
reduction in potable water consumption and usage of 80% of recycled / recyclable
material. Most importantly, the building has enabled the widespread green building
movement in India
Energy Efficiency
State-of-the- art Building Management Systems (BMS) were installed for
realtime monitoring of energy consumption. The use of aerated
concrete blocks for facades reduces the load on air-conditioning by
15-20%. Double-glazed units with argon gas filling between the
glass panes enhance the thermal properties.
Zero Water Discharge Building
All of the wastewater, including grey and black water, generated in
the building is treated biologically through a process called the Root
Zone Treatment System.The outlet-treated water meets the
Central Pollution Control Board (CPCB) norms. The treated water
is used for landscaping
The building design was conceived to have minimum disturbance to the
surrounding ecological environment. The disturbance to the site was limited within
40 feet from the building footprint during the construction phase. This has preserved
the majority of the existing flora and fauna and natural microbiological
organism around the building. Extensive erosion and sedimentation control measures
to prevent topsoil erosion have als been taken at the site during construction.
Materials and Resources
80% of the materials used in the building are sourced within 500 miles from
the project site. Most of the construction material also uses post-consumer and
industrial waste as a raw material during the manufacturing process. Fly-ash
based bricks, glass, aluminum, and ceramic tiles, which contain consumer
and industrial waste, are used in constructing the building to encourage the usage
of recycled content.Office furniture is made of bagasse based composite wood.
More than 50%of the construction waste is recycled within the building or sent to
other sites and diverted from landfills.
surrounding ecological environment. The disturbance to the site was limited within
40 feet from the building footprint during the construction phase. This has preserved
the majority of the existing flora and fauna and natural microbiological
organism around the building. Extensive erosion and sedimentation control measures
to prevent topsoil erosion have als been taken at the site during construction.
Materials and Resources
80% of the materials used in the building are sourced within 500 miles from
the project site. Most of the construction material also uses post-consumer and
industrial waste as a raw material during the manufacturing process. Fly-ash
based bricks, glass, aluminum, and ceramic tiles, which contain consumer
and industrial waste, are used in constructing the building to encourage the usage
of recycled content.Office furniture is made of bagasse based composite wood.
More than 50%of the construction waste is recycled within the building or sent to
other sites and diverted from landfills.
20% of the building energy requirements are catered to by
solar photovoltaics.The solar PV has an installed capacity of 23.5 kW.
Indoor Air Quality
Indoor air quality is continuously monitored and a minimum fresh air
is pumped into the conditioned spaces at all times Fresh air is also
drawn into the building through wind towers. The use of low
volatile organic compound (VOC) paints and coatings,
adhesives, sealants, and carpets also helps to improve indoor air quality.
solar photovoltaics.The solar PV has an installed capacity of 23.5 kW.
Indoor Air Quality
Indoor air quality is continuously monitored and a minimum fresh air
is pumped into the conditioned spaces at all times Fresh air is also
drawn into the building through wind towers. The use of low
volatile organic compound (VOC) paints and coatings,
adhesives, sealants, and carpets also helps to improve indoor air quality.
•Fenestration maximized on the north orientation
•Rain water harvesting
•Water-less urinals in men’s restroom
•Water-efficient fixtures: ultra low and low-flow flush fixtures
•Water-cooled scroll chiller
•HFC-based refrigerant in chillers
•Energy-efficient lighting systems through compact fluorescent light bulbs(CFLs)
•Roof garden covering 60% of building area
•Large vegetative open spaces
•Swales for storm water collection
•Maximum day lighting
•Operable windows and lighting controls for better day lighting and views
•Rain water harvesting
•Water-less urinals in men’s restroom
•Water-efficient fixtures: ultra low and low-flow flush fixtures
•Water-cooled scroll chiller
•HFC-based refrigerant in chillers
•Energy-efficient lighting systems through compact fluorescent light bulbs(CFLs)
•Roof garden covering 60% of building area
•Large vegetative open spaces
•Swales for storm water collection
•Maximum day lighting
•Operable windows and lighting controls for better day lighting and views
This was the first green building in the country. Hence, the incremental cost was
18% higher. However, green buildings coming up now are being delivered at
an incremental cost of 6-8%. The initial incremental cost gets paid back in 3 to 4 years.
Benefits achieved so far:
Over 120,000 kWh of energy savings per year as compared to an ASHRAE 90.1 base
case
Potable water savings to tune of 20-30% vis-à-vis conventional building
Excellent indoor air quality
100% day lighting (Artificial lights are switched on just before dusk)
Higher productivity of occupants
18% higher. However, green buildings coming up now are being delivered at
an incremental cost of 6-8%. The initial incremental cost gets paid back in 3 to 4 years.
Benefits achieved so far:
Over 120,000 kWh of energy savings per year as compared to an ASHRAE 90.1 base
case
Potable water savings to tune of 20-30% vis-à-vis conventional building
Excellent indoor air quality
100% day lighting (Artificial lights are switched on just before dusk)
Higher productivity of occupants
Location
Hyderabad, India
Name
CII Sohrabji Godrej Green Business Centre
Developer
The project is a unique and successful model of
public-private partnership between the Government of Andhra Pradesh,
Pirojsha Godrej Foundation, and the Confederation of Indian Industry
(CII), with the technical support of US aid.
Architectural Design
Karan Grover and Associates, India
Size
4.5 acres (total site area)
1,858 m2 (total built up area)
1,115 m2 (total air-conditioned area)
Hyderabad, India
Name
CII Sohrabji Godrej Green Business Centre
Developer
The project is a unique and successful model of
public-private partnership between the Government of Andhra Pradesh,
Pirojsha Godrej Foundation, and the Confederation of Indian Industry
(CII), with the technical support of US aid.
Architectural Design
Karan Grover and Associates, India
Size
4.5 acres (total site area)
1,858 m2 (total built up area)
1,115 m2 (total air-conditioned area)
Size
4.5 acres (total site area)
1,858 m2 (total built up area)
1,115 m2 (total air-conditioned area)
Type
Office building
Building details
Office building
Seminar hall
Green Technology Centre displaying the latest and emerging green building materials
and technologies in India Large numbers of visitors are escorted on green building tour
Ratings
Awarded the LEED Platinum Rating for New Construction (NC) v 2.0 by the
U.S. Green Building Council (USGBC) in November 2003
4.5 acres (total site area)
1,858 m2 (total built up area)
1,115 m2 (total air-conditioned area)
Type
Office building
Building details
Office building
Seminar hall
Green Technology Centre displaying the latest and emerging green building materials
and technologies in India Large numbers of visitors are escorted on green building tour
Ratings
Awarded the LEED Platinum Rating for New Construction (NC) v 2.0 by the
U.S. Green Building Council (USGBC) in November 2003
Energy Savings
55% reduction, with ASHRAE 90.1 as the baseline 120,000 kWh / year
Reduction in CO 2 emissions
~ 100 tons / year(building is functional since January 2004)
Water savings
35% reduction in potable water consumption
55% reduction, with ASHRAE 90.1 as the baseline 120,000 kWh / year
Reduction in CO 2 emissions
~ 100 tons / year(building is functional since January 2004)
Water savings
35% reduction in potable water consumption
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