observing and modeling the urban boundary layer …...spring summer autumn winter obs clear 23.9...
TRANSCRIPT
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Observing and Modeling the Urban
Boundary Layer in Beijing
22 June 2012
Shiguang Miao (苗世光),孟春雷,李青春,窦军霞,李炬,陈敏,范水勇
IUM/CMA, Beijing (中国气象局北京城市气象研究所)
胡非,李爱国 戴永久
中国科学院大气物理研究所 北京师范大学
Fei Chen,Mukul Tewari,Michael Barlage
National Center for Atmospheric Research
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Heat wave, heavy rainfall
Urban climate change
Urban pollution
Urban planning accessment
Emergency response
Application
needs
Urban
Climate
Traffic/Eme
rgency
Response
Urban
Planning
Urban
Weather
Forecast Atmos.Env./
Human
Health
Application needs
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1、Urban canopy model
2、Urban land surface model & land data assimilation system (HRLDAS)
3、Numerical modeling of UBL
4、Urbanization effects(effects on precipitation &
monthly effects)
5、Dataset(GIS、SEB observation)
6、Operational applications(traffic、urban planning
、emergency response、NWP)
7、Prospects
Contents
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Natural surface
Urban canopy model: Man-made surfaceCoupled through ‘urban fraction’
1)Improved latent heat flux modeling over urban surfaces
2) Improved surface wind
3)Optimizing UCM parameters
1、Urban canopy model
Noah/SLUCM (Kusaka 2001; Miao 2008, 2009,2011)
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The International Urban Energy Balance Models Comparison Project
(CSB Grimmond) 33 UCMs: IUM/NCAR WRF/Noah/SLUCM (Miao and Chen,~11)
NJU-UCM-S, NJU-UCM-M (Zhang and Jiang)
Net radiation SH
LH Storage
Worse
RMSE for every SEB
components
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Taylor plot for every SEB components
Net radiation SH
LH Storage
Overestimate QH、
underestimate QE
Worst performance
of QE:
RMSEs>RMSEu
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1) Irrigation in urban area: Set SM from 0-1m (1-3 model layers) to SMCREF (field moisture capacity) during 06-08 PM, from May to September.
1)Improved latent heat flux modeling over
urban surfaces
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Spring Summer Autumn Winter
Obs Clear 23.9 65.1 23.2 8.7
Cloudy 20.7 46.3 18.7 7.2
Veg
Clear 15.6 36.0 10.6 1.5
Cloudy 10.3 23.9 7.3 1.3
Veg_Diff (Clear-Cloudy) 5.3 12.1 3.3 0.2
Res
Clear 8.3 29.0 12.6 7.2
Cloudy 10.4 22.4 11.3 5.9
Res_Diff (Clear-Cloudy) -2.1 6.6 1.3 1.3
1 + Res_diff / Veg_diff 0.6 1.5 1.4 7.5
2) Oasis effect
Diurnal mean LH under different conditions for 4 seasons: Obs: observation, Veg:
simulated LH for vegetation from case 2, Res: difference of these two values.
Oasis coefficient: αoasis=1.5
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3) LH from impervious surface
19.84
13.84
7.10
0
5
10
15
20
25
0 3 6 9 12 15
Dai
ly-a
vera
ged
Res
idu
al L
aten
t Hea
t Flu
x
Clear Days After Rain
Rainfall >= 10 mm
0 < Rainfall < 10 mm
Mean value after 1st day
Variation of diurnal mean LH from impervious surface in summer (diff between obs and LH from veg in Case 3) with clear days after rain
GWR
dt
G
G
rainNoe
RainmmR
mmR
,
,100,5.0
10,0.1
)5/(
0,
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0.0
0.2
0.4
0.6
0.8
1.0
1.2
0 4 8 12 16 20 24
ALH
diu
rnal
pro
file
Local time (Hour)
Air conditioning Traffic
4) ALH: Max. for Spr, Sum, Aut, and Win are
17, 42, 24, and 18 W m-2
Diurnal variation of ALH (Diff. between obs
and sim. value from Case 4)
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Su
rface
flu
x (
W/m
2) Q*o
Qho
Qeo
Qso
Q*m
Qhm
Qem
Qsm
Old
SH
LH
Obs Model
New
Su
rfa
ce
flu
x (
W/m
2)
LST
Bias (W/m2)
RMSEs (W/m2)
IOA
LH Old -14.50 39.43 0.61
New -0.01 29.95 0.72
SH Old 13.20 15.29 0.87
New 7.18 14.67 0.87
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SLUCM
2)Improved surface wind
3)Optimizing UCM
parameters:
Morphological
Physical
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BIAS RMSE
2m T、10m Wind Speed from BJ-RUC for April 2010)
BJ-RUC New
Evaluation:
Obs BJ-RUC New
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2、Urban land surface model & land data assimilation system (HRLDAS)
Natural surface
Urban canopy model: Man-made surfaceCoupled through ‘urban fraction’
Land surface dataset
Met. driving: GLDAS/obs/BJ-RUC
1)Setting up of u-HRLDAS
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RMSE for skin temperature (℃)
Period:1-31 Aug 2009
u-HRLDAS markedly improves skin T.,especially for no-rain daytime
RM
SE (℃
)
11℃
3℃
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2、Urban land surface model & land data
assimilation system (HRLDAS)
1)Setting up of u-HRLDAS
2)Improvements of u-HRLDAS
① surface exchange coef.,profiles for urban area
② Evapotraspiration for impervious sfc., modeling
the seeper depth
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• Evaluation
ET
Seeper depth: better
ET: more,last longer
Rainfall
Seeper depth & ET
Seeper
New ET
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3、Numerical modeling of UBL
2-m T、Skin T 10-m wind speed
2-m specific hum.
Road T
Wall T
Diurnal variation of observed and simulated variables for high-
density urban stations
2m T
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Vertical velocity and horizontal wind vectors -zi / L
Horizontal Convective Rolls (HCRs)
-zi /L < 25
UBL structures at 0600UTC (1400LST) 18 Aug 2005:
Horizontal distribution of (z=384m)
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Half Double
Cross section of vertical velocity
Building
Heihgt
AH
The aspect ratio of HCRs in urban areas (~1.5), due to the
impacts of building height and AH, is smaller than the typical
value over natural landscapes (2–15).
Aspect ratio of HCRs
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Diurnal variation of UBL structures(BaoLian)
(vertical velocity in shade, horizontal wind vectors in red)
WRF Obs from wind profiler
11LST 11LST
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Impact of urban area on nocturnal BL LLJ
Cross-section of wind speed
(b)
(a) (b)
(a)
Urban Urban 2100 LST 0200 LST
LLJ over urban areas: form later, located higher, and weaker
intensity than that over rural areas.
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CTRL
U2C
NOHUM
U80
NOUCM
DYN
NODYN
FU 16:00-19:00 3-h accumulated rainfall (mm)
The importance of UCM
No urban
Thermal impact vs. dynamic
SH vs LH
1980s, FU
A Case Study of Heavy Rainfall in Beijing on 1 August 2006
4、Urbanization effects: on precipitation
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0 10 20 30 40Distance(km)NW SE Distance(km)NW SE
0
Hei
gh
t(k
m)
1
2
3
0
Hei
gh
t(k
m)
1
2
3 (a)
5.5 m s-1
1.06 m s-1
(b)
6.0 m s-1
2.24 m s-1
(c)
5.6 m s-1
2.11 m s-1
(d)
5.6 m s-1
2.84 m s-1
0 10 20 30 40
m s-1
3.0
-2.0
-1.5
-1.0
-0.5
0.0
0.5
1.0
1.5
2.0
2.5
-3.0
-2.5
U2C
CTRL
U80
FU
Urbanization→Dry、
hot →Stronger
updrafts →higher PBL
→Weaker capping
inversion →Convection
Urbanization effects: on precipitation
A Case Study of Heavy Rainfall in Beijing on 1 August 2006
Cross section at 0800 UTC (1600 LST) 1 Aug 2006 of
vertical velocity (shaded), potential temperature (red contour),
water vapor mixing ratio (green contour), and circulation vectors
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Urbanization
→Increasing CAPE、
decreasing CIN
(a) (b)
(c) (d)
0 10 20 30 40 50 60Distance(km)NW SE
0 10 20 30 40 50 60Distance(km)NW SE
0
Hei
gh
t(k
m)
1
2
3
4
5
6
7
0
Hei
gh
t(k
m)
1
2
3
4
5
6
7
J kg-1
1800
1600
1400
1200
1000
800
600
400
200
0
U2C
CTRL
U80
FU
Cross section at 0900 UTC (1700 LST) 1 Aug 2006 of
CAPE (shaded), CIN (black contour)
Urbanization effects: on precipitation
A Case Study of Heavy Rainfall in Beijing on 1 August 2006
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Urbanization:
thermodynamic
→Thunderstorm
movement
Urbanization effects: on precipitation
A Case Study of Heavy Rainfall in Beijing on 1 August 2006
Horizontal distribution of 2-m T at 0900
UTC (1700 LST) 1 Aug 2006
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Urbanization
→separate, merge,
→Rain:
concentrated
U2C
CTRL
U80
FU
Horizontal distribution of maximum reflectivity from
WRF simulation at 0900 UTC (1700 LST) 1 Aug 2006
Urbanization effects: on precipitation
A Case Study of Heavy Rainfall in Beijing on 1 August 2006
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4、Urbanization monthly effects
Cross-section of monthly mean diff. along
116.34oE : Case CTRL and case U2C
(a) TC: Daytime (b) TC: Nighttime
1.4
0.4
0.8
0.6
0.2
(c) WSPD: Daytime (d) WSPD: Nighttime
-0.2
-0.4
-0.6
-0.8
(e) QV: Daytime (f) QV: Nighttime
-0.2
-0.4
-0.6
-0.8
-1.0
-1.2
1.0
0.5
0.0
40.1N39.9N39.7N
1.0
1.2
0.2
0.4
1.5
Z(k
m)
1.0
0.5
0.0
1.5
Z(k
m)
1.0
0.5
0.0
1.5
Z(k
m)
40.1N39.9N39.7N
Air T: Day:800m,1℃ and up
Night:200m,1.4℃ and up
Wind Speed:Day:slight decrease
Night:200m,0.8m/s and up
Humidity:Day:700m,1.2g/kg and up
Night: slight decrease
Period: Aug 2006
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Monthly mean daily rainfall and surface
wind due to urbanization effects for
Aug 2006
Urbanization increases
rainfall in Haidian and
Changping, and the
frequence of heavy rainfall
Wind rose at met. stations from obs.
and modeling for Aug 2006
UHIC→Wind rose
WRF/Noah/UCM simulates
this characteristics very well.
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(a) LU/LC in Jing-Jing-Ji area;(b)Emission inventory at 0.01o for
Shanghai (PM10: g m-2 yr-1);(c) LU/LC in PRD
图 4
图 5
5、Dataset 1)Land info
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LU/LC in Jing-Jing-Ji area
Urban area expands to 8 times
USGS:1992-1993 LANDSAT-TM:2009
Urban:Default Low Medium High Density
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AH for Jing-Jing-Ji area
冬、夏季人为热随时间变化
0
50
100
150
200
250
0 5 10 15 20 25
北京时间
人为
热(
w/m2)
Q_total_winter
Q_total_summer
Yearly variation
Diurnal variation
AH for winter 2009,W/m2
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325m Tower
47m
140m
280m
Building
height
around
tower
50~70m
Mean
building
height
~19m
5、Dataset
2)SEB observation in Beijing
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Mean values of total daytime energy fluxes and flux ratios (Asian, European, American cities are in Black, Green, and Blue respectively)
City location Green space (%)
Building height
(m)
Observation height (m)
Observation period
Frequency of days with rain
(%)
Ratio
Qh/Q* Qe/Q* Qs/Q* Qh/Qe
Vancouver, (49°16'N,
123°06'W) 4.0 8.6 / Aug 1992 / 0.42 0.10 0.48 4.42
Marseille, (43°17'N, 5°23'E)
11.0, 14.0 15.6 43.9,34.6 Jun-Jul 2001 5.0 0.69 0.16 0.28 4.27
Basel, (47°34'N, 7°36'E) 16.0 14.6 32.0 Jun-Aug 2002 / 0.49 0.20 0.36 2.50
COSMO, (39°04'N, 139°07'E)
0.0 1.5 3.0 Jul 2006 45.2 0.31 0.16 0.53 1.90
Tokyo, Japan (35°34'N, 139°41'E)
29.1 7.3 29.0 Jul 2001 / 0.49 0.28 0.26 1.77
Beijing, China (39°58'N, 116°42'E)
21.7 18.3 140.0 Jul-Aug 2009, Jun 2010 33.3 0.22 0.27 0.51 0.82
Chicago, (41°57'N, 87°48'W)
44.2 5.2 18.0 Jul 1992 59.8 0.32 0.41 0.26 0.78
Mexico City, (19°25'N, 99°10'W)
1.0 18.4 28.0 Dec 1993 0.0 0.38 0.04 0.58 8.80
Beijing, (39°58'N, 116°42'E)
21.7 18.3 140.0 Dec 2009 – Feb 2010 5.0 0.28 0.07 0.66 4.16
Tokyo, (35°34'N, 139°41'E)
29.1 7.3 29.0 Dec 2001 / 0.35 0.11 0.62 3.13
COSMO, (39°04'N, 139°07'E)
0.0 1.5 3.0 Dec 2006 16.1 0.25 0.11 0.63 2.29
Basel, (47°34'N, 7°36'E) 16.0 14.6 32.0 Dec 2001 -
Feb 2002 / 0.56 0.28 0.34 2.01
Mediterranean climate: Sum: hot dry
Mediterranean climate: Win: humid
Oceanic monsoon climate: Sum: hot humid
Oceanic monsoon climate: Sum: cold dry
Beijing:building, climate …
→ Different urban SEB
characteristics
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6、Operational applications
Road surface forecasting system→Traffic service
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Now Planning Nocturnal T in summer
6、 Operational applications
UCM/UBL
→ urban planning
UNSM/UBL
→ emergency response
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Evaluation of T2 and WS10 from BJ-RUC for Apr 2010
6、 Operational applications
Obs BJ-RUC New
Dataset、UCM →
BJ-RUC: improve the performance of surface forecast
Rainfall: in test
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UHI
More service products
BJ-RUC New(LU+UCM)
2m T.:2010-04-03_0200LST (℃)
6、 Operational applications
![Page 40: Observing and Modeling the Urban Boundary Layer …...Spring Summer Autumn Winter Obs Clear 23.9 65.1 23.2 8.7 Cloudy 20.7 46.3 18.7 7.2 Veg Clear 15.6 36.0 10.6 1.5 Cloudy 10.3 23.9](https://reader033.vdocuments.net/reader033/viewer/2022042300/5ecb3dc78e31d005556f5186/html5/thumbnails/40.jpg)
1) Urban land surface/canopy/BL model: • Heterogenity of urban surface: classification,
characteristic length scale, MOST • Vegetation in urban • Hydrology in urban
2) Impacts on precipitation and for/haze 3) Impacts on regional climate & climate change
7、Prospects
![Page 41: Observing and Modeling the Urban Boundary Layer …...Spring Summer Autumn Winter Obs Clear 23.9 65.1 23.2 8.7 Cloudy 20.7 46.3 18.7 7.2 Veg Clear 15.6 36.0 10.6 1.5 Cloudy 10.3 23.9](https://reader033.vdocuments.net/reader033/viewer/2022042300/5ecb3dc78e31d005556f5186/html5/thumbnails/41.jpg)
Contents 1、Urban canopy model
2、Urban land surface model & land data assimilation system (HRLDAS)
3、Numerical modeling of UBL
4、Urbanization effects(effects on precipitation & monthly
effects)
5、Dataset(GIS、SEB observation)
6、Operational applications(traffic、urban planning、
emergency response、NWP)
7、Prospects
THANKS FOR YOUR ATTENTION &
HAPPY DRAGON BOAT FESTIVAL !
22 June 2012