Environmental Design Solutions Pvt. Ltd Delhi Mumbai Pune Bangalore Chennai Washington DC...

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

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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

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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

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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.

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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

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ESP-rCommon Simulation tools

Solar-5DOE-2

E-20-II & HAP

TRACE 600

TRNSYS

Common Simulation Tools

33

E - 10NERGY

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Building Performance Simulation Process

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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

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Microclimatic Analysis

Solar AnalysisWind Analysis

Weather Data Analysis

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Solar Analysis

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SUN PATH: JANUARY/DECEMBER (WINTER SOLSTICE)

SUN PATH: MARCH/SEPTEMBER (EQUINOX)

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SUN PATH: JUNE/JULY (SUMMER SOLSTICE)

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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

52

4

8

12

16

20

24

0

20

40

60

80

100

Wk

48

1216

20

24

28

32

36

40

44

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

8

12

16

20

24

28

32

36

40

44

48

52

4

8

12

16

20

24

0

200

400

600

800

1000

Wk

4

8

12

16

20

24

28

32

36

40

44

48

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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

1216

20

24

28

32

36

40

44

48

52

4

8

12

16

20

24

0

20

40

60

80

100

Wk

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1216

20

24

28

32

36

40

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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

48

12

16

20

24

28

32

36

40

44

48

52

4

8

12

16

20

24

0

10

20

30

40

50

Wk

48

12

16

20

24

28

32

36

40

44

48

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Average temperatures

Direct Solar Radiation

Annual Cloud Cover

Annual Relative Humidity

ANNUAL WEATHER DATA

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