urban greening and the uhi · modern b, 20% glassmodern c, 20% glass 15 • to find building’s...
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Urban Greening and the UHI: Seasonal Trade-offs in Heating and Cooling Energy Consumption in Manchester, UK
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TH
E
RE
SE
AR
CH
ER
S
C y n t h i a S k e l h o r n
S a r a h L i n d l e y
PhD Physical Geography Post-Doctoral Research Specialist Qatar Green Building Council
Reader Geography University of Manchester
• PhD thesis addressed greenspace impacts on building energy consumption.
• ENVI-met as a primary model for analysis of microclimate impacts, coupled with IES-VE for building energy modelling
• Current research – Qatar Passivhaus, FM for High Performance Buildings, and Urban Ecology Working Group
G e o f f L e v e r m o r e
Emeritus Professor Building Physics & Engineering University of Manchester
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Context of Research
Building energy requirements (heating and cooling loads) that will change due to increasing temperatures (climate change and UHI)
Potential for urban vegetation to reduce cooling loads
Debate in the UK about trade-offs between reduced heating loads in winter and increased cooling loads in summer due to UHI - which is most detrimental or beneficial?
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Methods iButtons - from a UHI study completed in 2011 by Henry Cheung and from 5 study areas for thesis
Served as later model validation and analysis of air temperature changes due to greenspace changes
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Air Temperature Measurements iButtons on Lighting Columns
Maxim DSM
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Analysis of iButton data for correlations between air temperature and greenspace Microclimate modelling in ENVI-met (with +5% mature trees) to determine changes for:
• Air temperature changes • RH changes • Wind speed changes
Building Energy Modelling in IES-VE
Methods
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Urban Morphology Manchester - City Centre
668m x 544m, about 3% greenspace
Office and Retail, av building height 20 m (max 118 m)
Av SVF for study area (buildings only) 0.66
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0%
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35%
-2 -1 0 1 2 3 4 5 6 7 8 9 10
Day time
Urban Heat Island Intensity (K)
Freq
uen
cy(%
)
Summer UHII for Manchester city centre May to August inclusive
Average = 0.91K Mode = 1.0K Median = 0.87K
0%
5%
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15%
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35%
-2 -1 0 1 2 3 4 5 6 7 8 9 10
Night time
Urban Heat Island Intensity K
Fre
qu
em
cy(%
)Average = 2.86K Mode = 1.5K Median = 2.22K
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Winter UHII for Manchester city centre January to April inclusive
Average = 0.86K Mode = 1K Median = 0.79K
0%
5%
10%
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30%
35%
-2 -1 0 1 2 3 4 5 6 7 8 9 10
Fre
qu
en
cy (
%)
Urban Heat Island intensity (K)
Day time
0%
5%
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30%
35%
-2 -1 0 1 2 3 4 5 6 7 8 9 10
Fre
qu
en
cy (
%)
Urban Heat Island Intensity (K)
Night time
Average = 2.13K Mode = 1.50K Median = 1.53K
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Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
Tem
pe
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°C)
Max. temp
Min. temp
0,00
0,50
1,00
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Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
Tem
pe
ratu
re (
°C)
Manchester Monthly Wind Speed
Woodford, rural reference, 1981-2010 average
Manchester Monthly Maximum and
Minimum Temperatures
December: Avg Max: 7.1 °C Avg Min: 0.6 °C Avg Wind: 4.2 m/s
July: Avg Max: 20.2 °C Avg Min:11.7 °C Avg Wind: 3.5 m/s
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While the UHI is highest at night, for Manchester’s temperate maritime climate and building energy, we need to consider: • Daytime may be more important, as daytime maximums are
those that most influence cooling energy requirements • Even with a UHI of 1-2 °C in daytime, and with predicted
climate change, it may only experience maximums of 23-25 °C. But if recent heat waves become more frequent, then adaptation measures become more important.
• Most frequently consider residential because of most people being in residential at night, need to consider commercial (institutional, retail, etc.) buildings as these are where people are likely to experience the highest temperatures, which will occur during the day.
Building Energy Implications for Manchester
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Building Models
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Building A - Three-Storey Shallow Plan
Building B - Ten-Storey Shallow Plan
Building C - Three-Storey Deep Plan
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Building Settings
• Building constructions - 2002 Building Regulations for England and Wales (HM Government 2002), 20% glazing.
• Key thermal template settings were:
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Setting Value
Office occupancy 08:00-18:00
Cooling set point 23.0 °C
Heating set point 19.0 °C
Relative Humidity set point 70 % Max
Infiltration Air Change Rate 0.25 ACH
Internal Gains Fluorescent lighting, 12 W/m2; Occupancy 14 m2/person; Equipment, 12 W/m2
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UHI Building Energy Scenarios for Manchester 3 buildings in Manchester using “rural”Test Reference Year (TRY) for July.
• Base – Building in rural conditions, without shading
• Shade – North 4 trees added, 2 on the North, 1 on Northwest, 1 on Northeast. Shading about 20% of the building wall area
• Shade - South - 4 trees added, 2 on the South, 1 on Southwest, 1 on Southeast;
• Urb_UHI urban city weather adjusted TRY to show the effect of the UHI
• Urb_UHI_green tested the effect of greening the area around a building with shading
• Urb_UHI_green_wind assessed the reductions in wind speed due to the trees
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Effect of UHI on Summer Chiller Energy
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Modern A, 20%glass
Modern B, 20% glassModern C, 20% glass
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• To find building’s energy increase due to the UHI (ie, a building placed in urban conditions), a new weather file was created
• Daytime temperatures were increased by 1.0 °C, and nighttime by 2.9 °C
• July (16th-18th) are clear, calm and warm days, conditions for an intense UHI, so temperatures increased strongly, +3 °C for daytime, +6 °C for nighttime
12.1%
12.2%
9.8%
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Urb_UHI_green scenario
• To test the effect of shading plus reduced UHII peak hours (as evidenced from iButton analysis), a new weather file was created – peak days (16th-18th July) reduced by 1 °C
– i.e., URB_UHI weather file with peak days +2 °C for daytime and +5 °C for nighttime
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Effect of Tree Shading and Peak UHI Reduction
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Trees placed in the model and shading simulated with SunCast in IES-VEshading plus reduced UHII peak hours (as evidenced from iButton analysis)
-1,60%
-1,40%
-1,20%
-1,00%
-0,80%
-0,60%
-0,40%
-0,20%
0,00%
�A � B � C
Trees North
Trees South
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Peak UHI results (16th to 18th July)
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-3,00%
-2,50%
-2,00%
-1,50%
-1,00%
-0,50%
0,00%
�A � B � C
Trees North
Trees South
Results begin to look more interesting on Peak days: A - 4.8% B - 3.4% C - 3.2%
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Winter Results
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A B C
Winter Changes in Boiler Energy (kWh) for Buildings A, B, C
Base Boiler Energy (Rural Weather File) Boiler Energy with Avg UHI
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Winter Results, Boiler Energy
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-80,00%
-60,00%
-40,00%
-20,00%
0,00%
20,00%
40,00%
60,00%
80,00%
A B C
Percentage Change in Boiler Energy and Chiller Energy (kWh)
Boiler Energy Chiller Energy
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Carbon Emissions Change with Winter UHI
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Total System CE
(Electricity, kg
CO2)
Total System CE with Avg UHI
kg kg % Change
640.24 563.04 -12.06%
1435.48 1243.44 -13.38%
4165.2 4882.52 17.22%
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Co
nc
lu
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on
s
Manchester UK has a UHI that is strongest in winter, at nighttime
For a temperate climate, such as Manchester’s, the daytime summer UHI and its impact on commercial buildings is most important to consider in terms of long-term climate adaptation
UHI can increase the cooling energy requirement by up to 12% in July
Tree shading with 8 trees (4 N and 4 S), can reduce the cooling load by up to 2% in July and up to 4.8% for a 3-day period of peak UHI conditions
Tree shading is better for south than north facades
Winter heating loads for commercial buildings may be reduced by 55%-60% in urban, compared to rural settings, with an average nighttime UHI of 2C. However, chiller energy also increases by 27%-57%. The increase in chiller energy (in any season) will be a detriment in terms of carbons emissions, as electricity has a higher emissions factor.(.48 compared to .19 for natural gas)
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