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Environmental Design Solutions Pvt. LtdDelhiMumbaiPuneBangaloreChennaiWashington DC
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INTEGRATED DESIGN APPROACH A KEY TO OPTIMISED DESIGN
Webinar- Glassisgreen
Gurneet Singh
14th December 2012
Why Optimized Design
Building Sector Consumption
Source CEA 2009
Commercial Floor Space Projection
Growth in the Indian Building Sector
Source USAID ECO-III Project
input building output
building materials
energy
water
consumer goods
solar radiation
wind
rainwater
used materials
wasted heat. CO2, CO, SO2
gray water, sewer
waste, recyclable materials
warm air
polluted air
storm water
Impact
40% of World’s Energy
25% of Timber Harvested 16% of the Fresh Water Uses
50% Ozone Depleting CFC’s
30% Raw Materials Used
35% of CO2 Emissions
40% of Landfill Waste
Why Integrated Design Approach
Scenario in 1980
Scenario in 1980
Population
Resources
Land
Demand for new infrastructure
Buildings in 1980
Simple Low rise Less complicated Less services oriented
Electrical Plumbing Structural HVAC
Buildings in 1980
Electrical Interior Lighting ->Switches
Plumbing Floor Trap->Gully Trap->Grease trap->Manhole
Structure Frame Structure->Column-> Beams
HVAC Fans-> Coolers->central plant
ARCHITECT
LIGHTING PLUMBING STRUCTURE HVAC
SIMPLE
INCORPORATE &
OPTIMIZE DESIGN
DESIGN
Scenario in 2010
Scenario in 2010
Population
Resources
Land
Demand for new infrastructure
Buildings in 2010
Complex High rise More services oriented
HVAC Structural Plumbing Electrical Façade; Transport; BMS; Networking
Buildings in 2010
Electrical Interior Lighting ->Switches Sensors -> Controls -> LEDs -> TFLs
Plumbing Floor Trap->Gully Trap->Grease trap->Manhole Rain water harvesting-> dual plumbing-> STP->
Irrigation systems-drip or sprinklers->recycling waste water
Buildings in 2010
Structure Frame Structure->Column-> Beams Post tension Slab ->Flat Slab->Structural Piles-
>Raft HVAC
Fans-> Coolers->central plant VRV system, earth air tunnel, geothermal cooling,
desiccant systems, water cooled system, radiant system, chilled beam system
ARCHITECT
LIGHTING PLUMBING STRUCTURE HVAC
COMPLEX
FACADETRANSPORTIO
NSECURITY NETWORKING
LANDSCAPE BMS FIRE FIGHTINGSUSTAINABLILI
TY
CONVENTIONAL DESIGN PROCESS
Please Dial the Toll Free number 1800 200 2282 or 044 6688 0330 to listen to the speaker © Environmental Design Solutions Pvt. Ltd.
Conventional Design Process
CLIENT
SITE
Property Manager
DESIGN
OPTIONS
FINAL OPTION
LINEAR PROCESS
Conventional Design Team Organization
ClientArchitectStructural EngineerMechanical EngineerElectrical EngineerLandscape EngineerFacade EngineerTransportation Engineer
INTEGRATED DESIGN PROCESS
Concept DesignProcurement phaseConstruction PhasePost-Construction PhasePre-DesignDesign Development
Integrated Design Process
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Project Life-Cycle
ArchitectStructural EngineerMechanical EngineerElectrical EngineerLandscape EngineerFacade EngineerTransportation EngineerArchitectStructural EngineerMechanical EngineerElectrical EngineerLandscape EngineerFacade EngineerTransportation EngineerArchitectStructural EngineerMechanical EngineerElectrical EngineerLandscape EngineerFacade EngineerTransportation EngineerArchitectStructural EngineerMechanical EngineerElectrical EngineerLandscape EngineerFacade EngineerTransportation EngineerArchitectStructural EngineerMechanical EngineerElectrical EngineerLandscape EngineerFacade EngineerTransportation EngineerArchitectStructural EngineerMechanical EngineerElectrical EngineerLandscape EngineerFacade EngineerTransportation EngineerArchitectStructural EngineerMechanical EngineerElectrical EngineerLandscape EngineerFacade EngineerTransportation Engineer
Integrated Design LeaderStructural EngineerMechanical EngineerElectrical EngineerLandscape EngineerFacade EngineerTransportation EngineerArchitect
Integrated Design Team Organization
Structural EngineerMechanical EngineerElectrical EngineerLandscape EngineerFacade EngineerTransportation EngineerArchitect
Please Dial the Toll Free number 1800 200 2282 or 044 6688 0330 to listen to the speaker © Environmental Design Solutions Pvt. Ltd.
Various phases of Integrated Design1.SET BENCHMARK & SUSTAINABILITY GOALS
5.EVALUATE VARIOUS DESIGN OPTIONS
2.EVALUATE COST-BENEFIT & ENVIRONMENTAL IMPACT
3.SET PROJECT OBJECTIVES
4.WORK WITH EACH CONSULTANT TO MEET THE OBJECTIVE
6. MONITOR PROGRESS DURING PROCUREMENT & CONSTRUCTION
7.POST CONSTRUCTION/OCCUPANCY EVALUATION
SUSTAINABILITY TOOLS FOR INTEGRATED DESIGN
Please Dial the Toll Free number 1800 200 2282 or 044 6688 0330 to listen to the speaker © Environmental Design Solutions Pvt. Ltd.
Whole Building Design Provides the strategies to achieve a true high-performance building: one
that is cost-effective over its entire life cycle, safe, secure, accessible, flexible, aesthetic, productive, and sustainable.
the ease of maintenance,
global climate change,
operating costs, fuel choice,
the type of lighting and controls used, how
much
natural daylight is brought in, how
the space is organized, the facility's operating hours, and the local m
icroclimate.
aesthetics, accessibility, and security of the project
A successful Whole Building Design is a solution that is greater than the sum of its parts.
Please Dial the Toll Free number 1800 200 2282 or 044 6688 0330 to listen to the speaker © Environmental Design Solutions Pvt. Ltd.
Building Sustainability Tools
ENVELOPE SPECIFICATIONSENERGYWATER WALLROOFWINDOWLIGHTING SPECIFICATIONSCENTRAL PLANT SPECIFICATIONSSTPRWHQUANTITATIVE ANALYSIS
What is Building Performance Simulation Complex and rigorous calculations of the
energy processes within a building using computer models
Advanced software packages are capable of calculating building energy performance hour by hour for an entire year
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Why We Need Building Performance Simulation Powerful tool to analyze how form, size,
orientation and type of building systems affect overall energy performance
For optimizing: Energy Lighting/Day Lighting HVAC Design/IAQ/Natural Ventilation/Airflow Evaluating costs Code compliance – LEED, Title 24, ECBC etc
32
ESP-rCommon Simulation tools
Solar-5DOE-2
E-20-II & HAP
TRACE 600
TRNSYS
Common Simulation Tools
33
E - 10NERGY
Please Dial the Toll Free number 1800 200 2282 or 044 6688 0330 to listen to the speaker © Environmental Design Solutions Pvt. Ltd.
Building Performance Simulation Process
34
BuildingDescription/information
- Physical building data- Design parameters
Simulation software
- Energy consumption (kWh)- Energy demands (kW)- Indoor environmental conditions
Simulationoutputs
- Hourly Weather data- Position of sun
Examples – Building Simulation Applications
35
Microclimatic Analysis
Solar AnalysisWind Analysis
Weather Data Analysis
36
Solar Analysis
37
SUN PATH: JANUARY/DECEMBER (WINTER SOLSTICE)
SUN PATH: MARCH/SEPTEMBER (EQUINOX)
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SUN PATH: JUNE/JULY (SUMMER SOLSTICE)
40
Wind Analysis
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SU
MM
ER
WIN
TE
R
AU
TU
MN
SP
RIN
G
Weather Data
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WEATHER DATA FOR 2100 LOCATIONS ARE AVAILABLE
Weather Data
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Weekly SummaryRelative Humidity (%)Location: Hyderabad, IND (17.5°, 78.5°)© W eather T ool
%
<0102030
40506070
8090+
Wk
Hr
%
48
1216
20
24
28
32
36
40
44
48
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8
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16
20
24
0
20
40
60
80
100
Wk
48
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20
24
28
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48
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Weekly SummaryDirect Solar Radiation (W/m²)Location: Hyderabad, IND (17.5°, 78.5°)© W eather T ool
W/m²
<0
100
200
300
400
500
600
700
800
900+
Wk
Hr
W/m²
4
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Wk
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Weekly SummaryAverage Cloud Cover (%)Location: Hyderabad, IND (17.5°, 78.5°)© W eather T ool
%
<0102030
40506070
8090+
Wk
Hr
%
48
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Weekly SummaryAverage Temperature (°C)Location: Hyderabad, IND (17.5°, 78.5°)© W eather T ool
°C
<0
5
10
15
20
25
30
35
40
45+
Wk
Hr
°C
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Wk
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Average temperatures
Direct Solar Radiation
Annual Cloud Cover
Annual Relative Humidity
ANNUAL WEATHER DATA
44