jeremy gregory and cshub research team: xin xu, liyi xu, adam … · 2018-02-21 · regional...
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Albedo, Climate, & Urban Heat IslandsJeremy Gregory and CSHub research team: Xin Xu, Liyi Xu, Adam Schlosser, & Randolph KirchainCSHub WebinarFebruary 15, 2018(Slides revised February 21, 2018)
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Slide 2
Albedo: fraction of solar radiation reflected from a surface
High Albedo
Measured on a scale from 0 to 1
Earth’s average albedo: ~0.3http://www.nc-climate.ncsu.edu/edu/Albedo
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Slide 3
Climate is affected by albedo
Three main factors affecting the climate of a planet:
Source: Grid Arendal, http://www.grida.no/resources/7033
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Slide 4
Urban heat islands are affected by albedo
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Slide 5
Urban surface albedo is significant
Metropolitan Areas Vegetation Roofs Pavements Other
Salt Lake City 33% 22% 36% 9% Sacramento 20% 20% 45% 15%
Chicago 27% 25% 37% 11% Houston 37% 21% 29% 12%
In many urban areas, pavements and roofs constitute over 60% of urban surfaces
Global change of urban surface albedo could reduce radiative forcing equivalent to 44 Gt of CO2 with $1 billion in energy
savings per year in US (Akbari et al. 2009)
30%~45%20%~25%Source: Rose et al. (2003)
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Slide 6
Cool pavements are a potential mitigation mechanism for climate change and UHI
https://www.nytimes.com/2017/07/07/us/california-today-cool-pavements-la.htmlheatisland.lbl.gov
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Slide 7
Evaluating the impacts of pavement albedo is complicated
Earth’s Energy Balance Incident radiation Ambient Temperature
Radiative forcing Urban Buildings Energy DemandRegional Climate
Climate feedback
Materials Production
Design & Construction Use End-of-Life
Pavement life cycle environmental impacts
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Slide 8
Contexts vary significantly
Location
Climate
Urban morphology
Building properties Electricity grid
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Slide 9
Key research questions
1. Are there climate feedback effects due to changes in pavement albedo?
2. How does context affect the impacts of pavement albedo?
a) Is radiative forcing or building energy demand more significant?
3. How does global warming potential due to albedo compare with other pavement life cycle GWP?
a) Which climate change and UHI mitigation strategies are the most promising?
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Slide 10
Research questions and approach
Earth’s Energy Balance Incident radiation Ambient Temperature
Radiative forcing Urban Buildings Energy DemandRegional Climate
Climate feedback
Materials Production
Design & Construction Use End-of-Life
Pavement life cycle environmental impacts
1. Are there climate
feedback effects due to changes
in pavement albedo?
2. How does context affect the impacts of pavement albedo?
3. How does global warming potential due to albedo compare with other
pavement life cycle GWP?
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Slide 11
Weather Research & Forecasting (WRF) Model
~250km ~40km
Global Climate Model Regional Climate Model
Model regional climate using large scale simulations to identify possible feedback
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Slide 12
WRF Land Cover Map
50km
10kmAnalyze regional climate effects of increasing urbanalbedo from 0.2 (control) to 0.4 over 10 years
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Slide 13
Year-to-year results are highly variable
ΔTsurface = Tsurface(alb0.40) – Tsurface(control)
°C
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Slide 14
Urban areas cooler on average due to albedo changeOnce we consider at least 5 years of temperature data
-1.6
-1.4
-1.2
-1
-0.8
-0.6
-0.4
-0.2
0 1 2 3 4 5 6 7 8 9 10
TEM
PER
ATU
RE
CH
AN
GE
(ºC)
# OF YEARS USED AS AVERAGING PERIOD
Important to consider multiple years of climate data
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Slide 15
Are there climate feedback effects due to changes in pavement albedo?
No – based on multiple years of climate simulations
Urban areas cooler on average
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Slide 16
Research questions and approach
Earth’s Energy Balance Incident radiation Ambient Temperature
Radiative forcing Urban Buildings Energy DemandRegional Climate
Climate feedback
Materials Production
Design & Construction Use End-of-Life
Pavement life cycle environmental impacts
1. Are there climate
feedback effects due to changes
in pavement albedo?
2. How does context affect the impacts of pavement albedo?
3. How does global warming potential due to albedo compare with other
pavement life cycle GWP?
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Slide 17
Albedo Impacts Radiative Balance & Urban Energy Demand
Earth’s Energy Balance Incident radiation Ambient Temperature
Radiative Forcing Urban Buildings Energy Balance
• Negative RF• Cooling benefits
Increasing pavement albedo
• Increased cooling• Reduced heating
• Reduced cooling• Increased heating
NET EFFECT?NET EFFECT?Depends on location, climate, urban geometry, building
properties, energy grid and efficiency, etc.
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Slide 18
Approach: calculate NET effects of RF & BED
Radiative forcing
• Develop analytical modelaccounting for- Solar radiation intensity- Solar zenith angle- Cloudiness
• Case study of 14representative locations
• Nationwide analysis
Building energy demand
• Parametric analysis onimpact of urban morphology
• Develop context-specific BED model- Microclimate- Urban morphology
• Case study of Boston usingGIS data
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Slide 19
Quantifying location-specific impacts of pavement albedo on radiative forcing using an analytical approach
• Model-based parameterization considering solar intensity, cloudtransmittance and solar angle
• Location-specific data from climate simulations
• Incorporating urban transmittance to account for shading effect in urban areas
• Change of pavement albedo decay linearly over time
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Slide 20
Explore climate change mitigation potential of pavement albedo via radiative forcing
Climate zone 1 – Very hot-humid – Miami FLClimate zone 2A – Hot-humid – Houston, TXClimate zone 2B – Hot-dry – Phoenix, AZClimate zone 3A – Warm-humid – Atlanta, GAClimate zone 3B – Warm-dry – Los Angeles, CAClimate zone 3C – Warm-marine – San Francisco, CAClimate zone 4A – Mixed-humid – Baltimore, MDClimate zone 4A – Mixed-humid – Nashville, TN Climate zone 4A – Mixed-humid – St. Louis, MO Climate zone 4C – Mixed-marine – Seattle, WAClimate zone 5A – Cool-humid – Boston, MAClimate zone 5B – Cool-dry – Denver, COClimate zone 6 – Cold-humid – Minneapolis, MNClimate zone 7 – Very cold – Duluth, MN
14 cities chosen representative of 7 different climate zones
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Slide 21
Location-specific RF estimate of higher-albedo pavements
GWP savings from RF due to 0.01 increase in pavement albedo for the selected 14 locations over 50 years
0.50
0.55
0.60
0.65
0.70
0.0
0.5
1.0
1.5
2.0
Miami
Houston
Phoe
nix
Atlanta LA SF
Baltimore
Nashville
St. Lou
is
Seattle
Boston
Denver
Minne
apolis
Duluth
Cloud Transmittance fcloud
GWP (kg CO
2/m
2 )
GWP savings Cloud transmittance
GWP savings highly correlate with cloud transmittance fcloud
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Slide 22
Nationwide analysis of pavement albedo impact on RF
Highest GWP savings:equivalent to removing 756,317 or 9%, of passenger vehicles from Texas roads for one year.
Unit: kton CO2-eq/yearAnnual GWP savings from RF due to 0.2 albedo increase in all urban and rural roads across the U.S.
Nationwide, savings would be equivalent to removing nearly 9.4 million, or roughly 8%, of passenger vehicles
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Slide 23
Approach: calculate NET effects of RF & BED
Radiative forcing
• Develop analytical modelaccounting for- Solar radiation intensity- Solar zenith angle- Cloudiness
• Case study of 14representative locations
• Nationwide analysis
Building energy demand
• Parametric analysis onimpact of urban morphology
• Develop context-specific BED model- Microclimate- Urban morphology
• Case study of Boston usingGIS data
![Page 24: Jeremy Gregory and CSHub research team: Xin Xu, Liyi Xu, Adam … · 2018-02-21 · Regional Climate Radiative forcing Urban Buildings EnergyDemand Climate feedback Materials Production](https://reader035.vdocuments.mx/reader035/viewer/2022062603/5f02d5157e708231d4063bc0/html5/thumbnails/24.jpg)
Slide 24
Building energy modeling at urban scale
Bottom-up
Modeling approaches:Modeling approaches:Top-down Doesn’t allow for
investigation of urban context
Computationally prohibitive
Combined approach
Goal: To estimate albedo-induced BED at urban scale for any given context
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Slide 25
Categorizing urban neighborhoods using local climate zones
I. D. Stewart, and T. R. Oke. 2012. “Local Climate Zones for Urban Temperature Studies.” Bulletin of the American Meteorological Society 93(12): 1879–1900.
LCZ1
LCZ10
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Slide 26
Urban Weather Generator (UWG)
Morphologicalparameters&∆
Metamodels
∆
H/WS/V⋮
Step 1: Urban geometry generation for LCZs
Step 2: Parametric design of experiment for energy consumption for LCZs
Step 3: Energy metamodel development
Step 4:Application of metamodel with GIS data
∆ &∆
STEPS TOOLS OUTPUTS
∆
Integrated tools for quantifying context-specific BED at neighborhood scale
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Slide 27
Urban geometry generation for parametric analysis
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Slide 28
Realistic neighborhoods in Boston using GIS data
Data sources: City of Boston and State of MassachusettsData processed and visualized with QGIS and Tableau
Boston• 177 census tracts• 129,370 buildings• 20,224 road sections
Parameter to extract:• Avg. building height• Avg. building length• Canyon aspect ratio• Building density
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Slide 29
Results for Boston: Local Climate Zones
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Slide 30
GWP savings from BED due to 0.2 increase in pavement albedo for 50 years
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Slide 31
Total GWP savings from BED due to 0.2 increase in pavement albedo for 50 years
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Slide 32
Net GWP savings from BED and RFdue to 0.2 increase in pavement albedo for 50 years
LCZ 1 Financial District
LCZ 9 Hyde Park
RF
BED-Cooling
BED-Heating
Total
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Slide 33
GIS data enables highly localized analyses
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Slide 34
GIS data enables highly localized analyses
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Slide 35
GIS data enables highly localized analyses
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Slide 36
How does context affect the impacts of pavement albedo?
For Boston location and climate:• Dense, urban neighborhoods:
– BED larger than RF due to shading– GWP is a net burden
• Most other neighborhoods:– RF larger than BED– GWP is a net savings
Next: evaluate other locations and climatesand impacts of aggregation
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Slide 37
Research questions and approach
Earth’s Energy Balance Incident radiation Ambient Temperature
Radiative forcing Urban Buildings Energy DemandRegional Climate
Climate feedback
Materials Production
Design & Construction Use End-of-Life
Pavement life cycle environmental impacts
1. Are there climate
feedback effects due to changes
in pavement albedo?
2. How does context affect the impacts of pavement albedo?
3. How does global warming potential due to albedo compare with other
pavement life cycle GWP?
![Page 38: Jeremy Gregory and CSHub research team: Xin Xu, Liyi Xu, Adam … · 2018-02-21 · Regional Climate Radiative forcing Urban Buildings EnergyDemand Climate feedback Materials Production](https://reader035.vdocuments.mx/reader035/viewer/2022062603/5f02d5157e708231d4063bc0/html5/thumbnails/38.jpg)
Slide 38
Sustainable pavement design decisions
• Pavement life cycle: Should one use materials with recycled content, or increase surface albedos?
• What are life cycle environmental impacts of cool pavements?
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Slide 39
Pavement life cycle assessment model
• Onsite equipment
Materials End-of-Life/ Rehabilitation
• Excavation• Landfilling• Recycling• Transportation
• Excess Fuel Consumption Roughness Deflection
• Albedo• Carbonation• Lighting• Extraction and
production• Transportation
• Materials• Construction
Construction
Use
Maintenance
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Slide 40
Pavement scenarios for Boston LCZ9 Census Tract
Key question: is climate change and/or UHI mitigation explicitly part of pavement design goal?
New construction Rehabilitation Aged
AlbedoPCC Full depth repair 0.25
High albedo PCC Full depth repair 0.5AC Mill & fill AC overlay 0.1
AC + coating Mill & fill AC overlay + reflective coating 0.25
AC + high albedo coating
Mill & fill AC overlay + high albedo reflective coating 0.5
Pavement designs and maintenance scenarios created by a pavement engineer for urban traffic loadsAged albedo values from UCPRC and LBNL, except AC+ high albedo coating
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Slide 41
Pavement life cycle GWP breakdown for Boston LCZ9
-2000
-1000
0
1000
2000
3000
4000
5000
6000
7000
PCC High albedoPCC
AC AC + coating AC + highalbedo coating
Pave
men
t life
cyc
le G
WP
(Mg
CO
2e/m
i pav
emen
t)
EoLCarb & LightEFC-DeflEFC-RoughAlbedoM&RConstruction
NET
NET
Albedo impacts relative to baseline of average earth albedo (0.3)M&R=maintenance & rehabilitation; EFC= excess fuel consumption; Defl=deflection; Rough=roughness; Carb&Light= carbonation & lighting; EoL= end-of-life
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Slide 42
How does global warming potential due to albedo compare with other pavement life cycle GWP?
Preliminary results:• Comparison of scenarios depends on goal:
include climate change and/or UHI mitigation?• Albedo can be significant portion of pavement life cycle GWP
Next:• Evaluate relative impacts of albedo for range of scenarios:
location, climate, LCZs, materials, M&R, albedos• Analyze impacts of uncertainty
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Slide 43
Research questions and approach
Earth’s Energy Balance Incident radiation Ambient Temperature
Radiative forcing Urban Buildings Energy DemandRegional Climate
Climate feedback
Materials Production
Design & Construction Use End-of-Life
Pavement life cycle environmental impacts
1. Are there climate
feedback effects due to changes
in pavement albedo?
2. How does context affect the impacts of pavement albedo?
3. How does global warming potential due to albedo compare with other
pavement life cycle GWP?
![Page 44: Jeremy Gregory and CSHub research team: Xin Xu, Liyi Xu, Adam … · 2018-02-21 · Regional Climate Radiative forcing Urban Buildings EnergyDemand Climate feedback Materials Production](https://reader035.vdocuments.mx/reader035/viewer/2022062603/5f02d5157e708231d4063bc0/html5/thumbnails/44.jpg)
Slide 44
Overall Conclusions
• Increasing pavement albedo has significant potential to mitigate impacts of climate change and UHI effects
• Climate simulation models should be run for several years• Significant opportunity for RF benefits at the national level • BED impacts depend on urban morphology and favor less
dense neighborhoods• RF is more significant in most neighborhoods• Albedo can be a significant portion of pavement life cycle
environmental impacts, but is context sensitive