autodesk webinar urban design
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PPT to support Autodesk WebinarTRANSCRIPT
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Autodesk® Ecotect® Analysis 20113. Sustainable Sites and Green Urban Planning
Emanuele Naboni MArch, PhD Building Science, LEED AP, EU licensed architect,Associate Professor in Climate Architecture / Royal Danish AcademySustainable Design Consultant / www.e3lab.orgemail: [email protected]
® Emanuele Naboni
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Speaker: Emanuele Naboni
® Emanuele Naboni
Current - Associate Professor in Climate Architecture, Royal Danish Academy – Copenhagen2005-09 Lawrence Berkeley National Laboratory (Researcher)2007-09 Skidmore, Owings and Merril (Performative Design)2006 LEED AP2003-2006 PhD in Building Science, Politecnico di Milano & University of California2002 Master in Architecture [email protected]
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The Earth's major source of heat and light, the sun, also creates the secondary climatic elements of wind andhumidity that affect physiological comfort. These are caused by the configuration and nature of the local surface,such as the mountains, plains, oceans, deserts, and forests. The interplay between this astronomical source ofenergy with the effects it causes and the landscape creates the microclimate, which is the concern of thescience of meteorology. Hassan Fathy
Architectural design for a comfortable microclimate– the Earth
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However, the built environment produces changes in the microclimate. The configuration of buildings, theirorientations, and their arrangement in space create a specific microclimate for each site. To this must be addedthe building materials, surface textures and colors of exposed surfaces of the buildings, and the design of openspaces, such as streets, courtyards, gardens, and squares. These man-made elements interact with the naturalmicroclimate to determine the factors affecting comfort in the built environment: light, heat, wind, and humidity. Hassan Fathy
Architectural design for a comfortable microclimate– the Built Environment
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336cities worldwide with more than 1 million residents
Million+ cities today
Green Urban Planning
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Tokyo 35mJakarta 22mNew York 20mSeoul 20mMumbai 19.5mSão Paulo 19.2mMexico City 18.5mDelhi 18mOsaka 17.3mShanghai 16m
World’s 10 largest cities
Green Urban Planning
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50mpopulation of the pearl river delta
amalgamations of multiple cities into one
Megalopolises
Green Urban Planning
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From “Design with Climate”, Olgyay, 1963
® Emanuele Naboni
Green Urban Planning and Climate
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A sustainable city, or eco-city is a city designed with consideration of environmental impact, inhabited by peoplededicated to minimization of required inputs of energy, water and food, and waste output of heat, air pollution - CO2, andwater pollution. Although the process of growing of the cities can’t be stopped the measures must be taken to minimize the energyconsumption. Architecture and town planning must become instruments for creating harmony between cities and natural environment.
Sustainable city
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water
energy
environment
daylightingOutdoorcomfort
sustainability
Form and fabric
lowcarbonurgency
materials
Buildingperfomances
Green Urban Planning
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Ecotect: Building Performance at Urban Scale
§ Use shadows to protect building when needed to avoid overheating (Ecotectshadows calculations)
§ Consider Energy Implications in Site Selection and Building Orientation (Ecotectcalculated best orientation)
§ Optimize building compactness (Ecotect thermal calculations)
§ Orient building massing to be able to integrate passive and active solar strategies inbuildings (Ecotect solar radiation studies)
§ If renovating/retrofitting an existing structure (i.e. when employing passive solarstrategies is not possible), consider planting trees to shade areas of the buildingthat get more sunshine.
§ Take advantage of natural ventilation and prevailing wind patterns, or protect formthem depending on the climate (Ecotect Weather Tool)
§ Maximize dayllight use. (Ecotect daylighting Analysis)
§ Use reflected light to increase daylighing levels when needed (Radiancecalculations)
§ Investigate the potential impact of future adjacent developments to the site (e.g.,solar and wind exposure, daylighting, ventilation, etc.).
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Ecotect: Outdoor Spaces Performances
§ Control DIRECT SOLAR GAIN in the streets. (Ecotect shadows diagrams) This willmean calibrate street openings, shading or expose the streets
§ Provide oravoid ventilation (Ecotect Weather Analysis Tool)
§ Achieve daylighting by reflectance
§ Balance material properties, thermal absorbtion and light reflectance (EcotectDaylighting Analysis)
§ Reduce Heat Islands Using Landscaping and Building Design Methods, useopposite strategies for cold climates(Ecotect absorbed radiation analysis)
§ Maximize the use of existing trees and other vegetation to shade walkways, parkinglots, and other open areas. (Ecotect absorbed radiation analysis)
§ In hot-dry climates, compact planning with little or no open spaces would minimizeheat gain This is how traditional settlements were often planned.
§ Consider incorporating green roofs or photovoltaics into the project. (Ecotect PVmodules calculations and absorbed radiation analysis)
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Sustainable Sites and Green Urban Planning
® Emanuele Naboni
Green Urban Planning with EcotectSustainable City DesignCase Study: Royal Danish Academy CampusPattern and Outdoor Space PerformancePattern and Building PerformancesThe Solar Enevelope concept with EcotectUrban ShadingRight to Light AnalysisSurface / Volume Ratio optimizationVisisbility calculationActive Design and Photovoltaic Studies 1
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® Emanuele Naboni
Royal Danish Academy Campus
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Royal Danish Academy Campus
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Royal Danish Academy Campus
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Cold Areas Bio-Climatic Urban Design
§ The general RULES that govern Cold Climate Design are:
§ create a sheltered MICROCLIMATE to make it LESS cold. If you design the site tocapture the sun and buffer it from winter winds, it will make the local temperaturesand conditions easier for the building to respond to.
§ Maximize daylighting for both urban spaces and buildings
§ Material should be choose as a balance between heat collection and light reflectivity
§ ORIENT AND SITE THE BUILDING PROPERLY FOR THE SUN. If the buildingscannot receive free heat from the sun due to the orientation of its glazing away fromthe sun, then this will be a problem.
§ maximize south facing facades for easier control. When we look at solar angles inthe Passive Design powerpoint, you will see that south facing windows arepreferable, both for the amount of free energy that they can provide, as well as theease of shading them in the summer months when we wish to exclude unwantedheat from our building interiors.
§ East and West facing windows are more difficult to control for solar issues. Northfacing windows do not benefit from solar gain, and result mostly in heating lossesthrough the envelope.
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Solar Access
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Better solar access is possible with east-west street sections as the south face of the building will get sun formost of the day. Street spacing is adjusted so that the buildings do not block each other’s south light when theangles are lowest in the winter (for good design).
Solar Access
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When working with street layouts that have adominant north-south street orientation, duringthe morning and afternoon hours, particularly inthe winter months, the street level and lowerlevels of opposing buildings are often in theshade.This is only alleviated by making very widestreets.
Solar Access
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North-south canyon effect at Bain Avenue Coop, Toronto
® Emanuele Naboni
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Acoma Pueblo, New Mexico, looking northeast. Terraces,windows and doors face southward to capture the wintersun. (Drawing by Gary S. Shigemura in Energy and Form by Ralph L. Knowles.)
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Solar envelopes (left) replaced by design (right)copyright: Ralph L. Knowles, 1999
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Solar Access – Right to light
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Solar Envelope
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Solar Envelope
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Solar Envelope’s right to light
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Solar Envelope replaced by design
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Shadows – winter optimum
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Shadows – winter optimum
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Solar Envelope butterfly diagramDecember 21st
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Shadows – December 21 – Shadows at 12:0001 RD solar envelope-right to light analysis
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Shadows – December 21 – Butterfly Diagram01 RD solar envelope-right to light analysis
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Shadowing, overshadowing and Sunlight Hours
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Shadowing, overshadowing and Sunlight Hours
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Shadowing, overshadowing and Sunlight Hours
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The Comfort Zone refers to therange of temperature conditions ofair movement, humidity andexposure to direct sunlight, underwhich a moderately clothed humanfeels “comfortable”.This will be different for Indoorversus Outdoor conditions.These will be different for differentCLIMATE types.
As Architects we use our buildings tonot only create comfortable indoorenvironments, but also pleasing anduseful spaces outside of our buildings.
Comfort zone
® Emanuele Naboni
Image from MIT – Maryline Anderson
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This famous illustration istaken from “Design withClimate”, by Victor Olgyay,published in 1963.
Comfort Zone
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Carbon Reduction: The Tier Approach
Image: Norbert Lechner, “Heating, Cooling, Lighting”
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Reduce loads: Passive Strategies
The tiered approach to reducing carbon for HEATING: Maximize the amount of energy required for mechanical heating that comes from renewable sources.Source: Lechner. Heating, Cooling, Lighting.
Tier 1
Tier 2
Tier 3
Maximize HeatRetention
Passive Solar Heating
Mechanical Heating
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Reduce loads: Passive Strategies
The tiered approach to reducing carbon for COOLING: Maximize the amount of energy required for mechanical cooling that comes from renewable sources.Source: Lechner. Heating, Cooling, Lighting.
Tier 1
Tier 2
Tier 3
Heat Avoidance
Passive Cooling
Mechanical Cooling
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Reduce loads: Daylighting
The tiered approach to reducing carbon withDAYLIGHTING: Use energy efficient fixtures!Maximize the amount of energy/electricity required for artificial lighting that comes from renewablesources.Source: Lechner. Heating, Cooling, Lighting.
Tier 1
Tier 2
Tier 3
Orientation andplanning of buildingto allow light to reachmaximum no. ofspaces
Glare, color, reflectivity and materialconcerns
Efficient artificial Lighting w/ sensors
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Different types of buildings an the same territory to build the same 75 tenements (“R. Rogers and partners” studio)
Types of Built up territoriesAspect Ratio: what’s best?
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Aspect Ratio: what’s best?
London City Hall, studies, Norman Foster
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Aspect Ratio: What is best in Copenhagen?
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Solar Envelope ConsumptionsS/V = 0.30
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Solar Envelope ConsumptionsS/V = 0.30
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Solar Envelope ConsumptionsS/V = 0.45
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Solar Envelope ConsumptionsS/V = 1.75
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Webgis Comune di Laives
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Whatever the FOUND condition ofthe site upon which we are toconsider building has a climate thatis not only dependent upon thegeneral climate of the REGION, butalso, the specific climate of the siteas affected by:- the surface or surfaces that coverthe ground- available tree cover, size, height,biodiversity, species, etc.- nearness to water- amount of paving adjacent- height of adjacent buildings
Institute of Contemporary Art, Boston
® Emanuele Naboni
Micro-climate
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When we design WITH the specificlocal environmental characteristics inmind, we start to manipulate therelationship between the climate, thesite and the building to create a localenvironment or MICROCLIMATEaround the building. This “mini climate” that is createdaround the building can decrease theapparent severity of the climate (andhence the work the building must doto make for a comfortable interiorAND exterior environment around thebuilding) OR, if badly handled, canincrease the severity of the localclimate.
St. Thomas University, Houston
Micro-climateMicro-climate
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1. Use maximum solar exposures2. Provide for paved and masonry surfaces on south side of site.3. Provide vegetational canopies to reduce night cooling.4. Encourage “sun pockets” on site.5. Make windbreaks with vegetation or fence like enclosures.6. Remove shading devices during the day (or winter).7. Use heat-retaining materials such as concrete or masonry.8. Locate outdoor terraces for afternoon in the south or southwest.
Temperature Guidelines:Cold City: How to make a site Warmer?
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1. Make extensive use of shade trees as an overhead canopy.2. Use vines, on trellis, or canopies on south and west facing walls.3. Use trellises, overhangs -- this also limits heat loss at night.4. Use ground covers or turf on earth rather than paving.5. Prune lower branches of trees and reduce close shrubs to encourage air circulation.6. Provide for evaporative cooling from water elements.7. Use areas on north and east of building for outdoor activities.8. Remove windbreaks which would limit airflow during warmer months.
Temperature Guidelines:Warm City: How to make a site Cooler?
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1. Allow standing water to stay on site and limit drainage.2. Encourage overhead planting which slows evaporation and provides moisture from the plants.3. Add water elements such as fountains. Also helps from sound of water.4. Use turf or ground cover instead of paving.5. Use low windbreaks (below 1.2m) to preserve moisture transpired by surf or ground cover.6. Use natural wood chip or peat mulch under all plantings.
Humidity Guidelines:Dry Climate: How to make a site more humid?
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1. Maximize solar radiation exposure on site and reduce shading devices.2. Maximize airflow and ventilation across the site.3. Provide an efficient water drainage system for groundwater and storm drainage.4. Pave all horizontal ground surfaces.5. Reduce planting, especially ground covers and turf.6. Eliminate all water bodies, pools and fountains.
Humidity Guidelines:Humid Climate: How to make a site drier?
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Incident Insulation Analysis - Whole Year
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§ The precise condition of the sky istaken into account whendetermining the amount of solarradiation that is received by abuilding.
§ The clearer the sky, the moreenergy received.
Incident Insulation Analysis
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Urban Heat Island
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Albedo
§ "Albedo" or reflectivity is the ratio of the amount of lightreflected from a material to the amount of light shone on thematerial.
§ In the case of pavements, a lower Albedo suggests that moresunlight in absorbed by the pavement.
§ This sunlight is converted into thermal energy and thepavement gets hotter.
§ Pavements with higher albedo collect less energy and are thuscooler.
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Albedo Ranges
Albedo ranges of various surfaces typical to urban areas.[Sources: NASA, Akbari, and Thayer]
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Materiality and Site
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Microclimate and Site Materials
Microclimate is the “mini climate zone” around your building as modified by localconditions.
Things that naturally change your microclimate are:§ amount of sun received over the day§ wind and natural breezes§ The natural materials of the siteThings that YOU select also change the microclimate:§ material choices: paving, roofing, wall materials and planting§ colour of materials i.e.: In a cold climate select materials to:INCREASE HEAT in the WINTERDECREASE HEAT ABSORPTION in the SUMMER
® Emanuele Naboni
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[kWh/m2]
Solar Radiation
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Solar Radiation: Mapping Materials
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Incident Solar Radiation on Buildings
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Incident Solar Radiation
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Absorbed Radiation by Material - Summer
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Absorbed Radiation by Material - Summer
WITH GRASS ALL ASPHALT
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WITH GRASS ALL ASPHALT
Absorbed Radiation by Material – Winter
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Urban reflections
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§ URBAN REFLECTANCES of a space are governed by two primary surfacecharacteristics of the building materials – COLOR AND TEXTURE.
§ Color determines the quantity of light reflected by a surface. Dark-coloredmaterials absorb light while light-color materials reflect light.
§ Texture determines the quality of light leaving the surface after the reflection.Rough textured surfaces, referred to as matte, create diffused reflected light.Smooth or glossy surfaces create specular reflected light.
§ When lighting a urban space, diffuse light is preferable because specularsurfaces can lead to glare.
§ A larger space has more opportunity for interreflections (losses) than asmaller space
Urban reflections
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Reflectance of Materials
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Urban Daylighting: Reflectance
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External Reflection
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Private – Local - Global
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Daylighting Factor
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Daylighting Levels
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Internally Reflected
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Sky Component
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Reflectance Comparison
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Glare issue - Glass EnvelopeDecember 21st – 10:00
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Glare issue – Glass EnvelopeDecember 21st – 12:00
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Glare issue – Glass EnvelopeDecember 21st – 14:00
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Site Visibility
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Site Visibility
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Site Visibility
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Ecotect: Wind Flows in Copenhagen
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Wind Flows and PressuresImage from MIT – Maryline Anderson
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Form: ventilation
§ the form of the building has a significant impact on the abilityto ventilate a building using natural means
§ natural ventilation is achieved by two mechanisms: winddriven pressure and stack effect
§ when considering natural ventilation it is important toremember that the ventilation level is dependent upon windspeed and/or temperature and is therefore variable
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1. Use extensive windbreaks (plants, landforms, structures).2. Use outdoor living areas that are semi-enclosed by building or landscape.3. Do not prune or thin lower branches on tall trees.4. Locate outdoor activities in areas protected by natural windbreaks.5. Excavate and place activities partly below ground level in order to use the earth to block winds and requirelower windbreaks.
Wind Guidelines:Windy Climate: How to make a site less windy?
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1. Remove all obstructions to prevailing and predictable wind sources.2. Use plants and landforms to funnel and accelerate breezes.3. Prune all lower branches of taller trees.4. Curtail and limit low plant growth between 1 and 10 feet high which would obstruct wind flow.5. Locate outdoor activities in areas with maximum exposure to prevailing breezes.6. Build decks or platforms in areas exposed to breezes.7. Locate evening activities in cool air puddles or in sloped valleys to take advantage of airflow.
Wind Guidelines:How to increase wind flow and cooling?
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Form: natural ventilation
§ in low energy buildings the form is often engineered tomake best use of stack and/or wind driven ventilation
§ shallow plan (low driving force resistance)§ atrium (high/low openings + high low pressure)§ ventilation chimney (high/low openings + high low
pressure)
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Form: wind driven ventilation
§ air flowing over a building gives rise to natural pressuredifferences
§ creates pressure difference across the building façade – this isthe driving force for air flow
§ judicious placement of ventilation opening creates a naturalventilation scheme
low pressure
high pressure low pressure
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Form: wind driven ventilation
2
21)( fpbpa VccP ρ−=Δ
§ the available pressure difference between two surfaces of afaçade is given by
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Form: stack ventilation
§ this is driven by internal and external temperature differences§ occurs between openings at different heights§ as with wind pressure ventilation schemes the amount of
ventilation is variable
h
!"
#$%
&−−=Δ
int
11273
TThgP
ext
ρ
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Ecotect: Photovoltaic collection optimization
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® Emanuele Naboni
Royal Danish Academy Campus Photovoltaic
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Royal Danish Campus´ RoofsEcotect Photovoltaic Potential
34%
12%
44%
10%
PV Est
PV Sud
PV Ovest PV Nord
PV crystal
0
50000000
100000000
150000000
200000000
250000000
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Decmonth
Wh
PV Est
PV Sud
PV Ovest PV Nord
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0
20
40
60
80
100
PV Est PV Sud PV Ovest PV NordRoof
% Winter
Summer
Royal Danish Campus’ RoofsEcotect Shading Coefficients
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050000
100000150000200000250000300000350000
solarenvelope
court court+greenhouse
tower
KWh
Form and Photovoltaic Collection
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0
20
40
60
80
100
PV Est PV Sud PV Ovest PV Nord-
% Winter
Summer
Solar Envelope’s RoofEcotect Shading Coefficients
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Emanuele Naboni MArch, PhD Building Science, LEED AP, EU licensed architect,
Associate Professor in Climate Architecture / Royal Danish AcademyAutodesk Sustainable Design Consultant
email: [email protected]
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