1 part 2: urban climate dr janet barlow department of meteorology, university of reading...
TRANSCRIPT
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Part 2: Urban climate
Dr Janet BarlowDepartment of Meteorology, University of
MSc Intelligent Buildings March 2009
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Outline: Urban Climate
• Why focus on urban climate?• How does an urban area affect the
atmosphere?• How can we improve the urban
climate?• Climate change cf. urban climate?
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Urbanization of world population
• 1800 – 3% urban• 1900 – 14%• 1950 – 30% (83 cities >1M)• 2000 – 47% (76% in WDC, 40% in
LDC)By 2030 the world’s population is projected to be 60% urban, most of the growth in LDC.
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• Tokyo-Yokohama – world’s largest urban area by population: 34,350,000 people7,835 km-2 area
Source: “World Urban Areas: Population and Density”, 4th ed.(2008), Demographia
www.demographia.com
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Why study urban atmospheres?
• Higher percentage of population experiencing urban climate
• Urban microclimate has distinct characteristics
• Source area of many pollutants• Better design can be used to mitigate climate
…Cities responsible for an estimated 80% of carbon emissions! (WMO)
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London!
Nice!
Manchester!
San Francisco!
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How is an urban surface different to a rural surface?
• random array of obstacles, in horizontal and
vertical
• “patchy” – inhomogeneous surface type
• rough surface (causes turbulence)
• warmer surface (range of building materials)
• sources of heat and pollution released at
ground level
• reduced surface moisture
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Windflow around buildings
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Wind over urban areas…street scale
• Define street canyon: two parallel rows of uniform height buildings
• Flow in a street depends on aspect ratio, i.e. ratio of height (H) to width (W): a) isolated roughness H/W <0.3 b) wake interference 0.3<H/W<0.6 c) skimming flow H/W>0.6
• Flow pattern determines flux of heat or pollution out of street
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Research: flow visualisation in a wind tunnel
flat roof H/W=0.6 flat roof H/W=1.0
high pitch H/W=0.6
high pitch H/W=1.0
Model scale ~ 1:400 ~ 400 times faster than in nature !!!
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Design influences heat flows
• So shape and layout of buildings can be changed to optimise ventilation:
Exchange hot, polluted street airWith cool, clean air above
• Next, consider where the heat is coming from….and going to!
The surface energy budget
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Reflection of sunlight (shortwave radiation)
• Materials used quite dark (e.g. tarmac, slate tiles, stone) Reflect less sunlight
• Define albedo: the fraction of incident shortwave radiation which is reflected = 0 (no reflection) = 1 (total reflection)
e.g. tarmac ~ 0.05-0.1 grassland ~ 0.1-0.2 snow ~ 0.4-0.7
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Emission or absorption of heat (longwave radiation)
• Some built materials have high heat capacity, low thermal conductivity they store heat, release it slowly(e.g. stone, brick, concrete)
• Some materials have low heat capacity, high thermal conductivity they heat up rapidly to high temperatures, and cool down rapidly(e.g. “Cat on a Hot Tin Roof”!)
Typically, urban areas store heat, release it slowly
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Turbulent transfer of heat from the surface
Movie! • Buoyant, hot air rising from concrete Hot air less dense
• Shimmering shows turbulence!
• Surface temperature higher than air temperature (day) Flux of heat from ground to air If air temperature higher than surface temperature (night) Flux of heat from air to ground= sensible heat flux
• Sunlight evaporates water Flux of moisture into airSurface energy used up in evaporation (so surface cools!) Flux of energy into air = Latent heat flux
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Surface energy budget
Net radiation
Turbulent heat flux into air
Vapour flux into air
Storage of heat in surface
Heat flux into ground
= + + +
Q* = QG + QH + QE + QS
Surface reflects short-wave radiation (S) according to its albedo (), and absorbs and emits long-wave radiation (L) according to its temperature and emissivity.
Q* = (1-) S + L – L
QS
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• reduced latent heat flux
• increased storage heat flux into building fabric
• delayed peak in sensible heat flux
• delayed transition to downward heat flux during the night
local solar time (hrs)
VancouverCleugh and Oke (1986)
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Nighttime urban heat island(composite of thermal IR images taken at 03:27 on August 6-10 1998)
Paris by daytime(composite of thermal IR images taken at 13:28 August 6-10 1998)
Dousset and Gourmelon, 2003
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Urban Heat Island• Urban areas can be several degrees warmer than surrounding areas. This effect is strongest at night with low wind and clear skies.
• Maximum temperature difference is observed not long after sunset, due to slow release of heat from storage in urban buildings vs. rapid cooling of rural area
Oke, 1987, “Boundary Layer Climates”
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Urban heat island mitigation 1: some methods
High albedo roofs
High albedo pavement
Uni. Of Arizona: asusmart.com
Pervious concrete
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Urban heat island mitigation 2: green roofs
Q: how does a green roof change the surface energy balance?
Q: what impact does a green roof change have on energy use? water cycle?
livingroofs.orgwww.risc.org.uk/garden/
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Climate change cf. urban climate?
• So…. What are the impacts of climate change compared to URBAN climate change?
Case Study: Adaptation of buildings in London, UK
Taken from a study by Arup
“Beating the Heat: Keeping UK buildings cool in a warming climate”Hacker, Belcher and Connell (2005), UKCIP Briefing report, UKCIP, Oxford
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Climate change and urban areas?
• Smoothed daily mean temperature, UK regions• UKCIP09, “The Climate of the UK and Recent Trends”
London’s Urban Heat Island is intensifying...
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UK TEMPERATURE FUTURE RISE
2080s
Medium-high emissions scenario
2050s2020s
UK Climate Impact Programme predictions UKCIP02 Look for updated predictions soon!! www.ukcip.org.uk
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City heat in the future
CIBSE (Chartered Institution of Building Services Engineers) Design Summer Year “morphed” for 2050s (Hacker et al., 2005)
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Heat flows in a building
(Hacker et al., 2005)
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Adaptation of existing buildings
Typical Victorian C19th TownhouseScenario 1: no adaptation
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Adaptation of existing buildings
Typical Victorian C19th TownhouseScenario 2: adaptation- Shuttering on windows reduces solar gain- Mechanical ventilation (at least 0.5 roomchanges per hour)
Thermal comfort achievedBUTAir conditioning system causes MORE carbon emissions!
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What have we found so far?
• The world’s population is predominantly urban, and urban areas are responsible for LOTS of carbon dioxide emissions• Urban heat island is a function of city size and form – INDEPENDENT of climate change!
• Building shape and layout influence wind flow and ventilation• Building materials influence heat flows
BOTH factors control urban climateAND can be adapted!
• BUT urban design should not WORSEN climate change
Good design both mitigates and adapts
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Further reading
• Oke, T.R. (1987) Boundary Layer Climates, 2nd ed, Methuen
- chapter on urban climates• Stull, R.B. (1997) An Introduction to Boundary Layer Meteorology, Kluwer Academic
- good for boundary layer theory• Turco, R.P. (2002) Earth under siege: from air pollution to global change, Oxford University Press
• http://www.urbanclimate.net- weather statistics, news, conferences about
urban areas• http://www.urban-climate.org
- website of the International Association for Urban Climate – free to join!