organization of course
DESCRIPTION
Organization of Course. Overall Project Issues & Examples Emissions Inventories Source-Receptor Post-Processing Source-Attribution for Deposition Model Evaluation Model Intercomparison Collaboration Possibilities. INTRODUCTION Course overview Air Toxics overview HYSPLIT overview - PowerPoint PPT PresentationTRANSCRIPT
![Page 1: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/1.jpg)
Organization of Course
INTRODUCTION
1. Course overview
2. Air Toxics overview
3. HYSPLIT overview
HYSPLIT Theory and Practice
4. Meteorology
5. Back Trajectories
6. Concentrations / Deposition
7. HYSPLIT-SV for
semivolatiles (e.g, PCDD/F)
8. HYSPLIT-HG for mercury
Overall Project Issues & Examples
9.Emissions Inventories
10.Source-Receptor Post-Processing
11.Source-Attribution for Deposition
12.Model Evaluation
13.Model Intercomparison
14.Collaboration Possibilities
![Page 2: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/2.jpg)
So how good are current models, and how do they compare
with one another?
2
![Page 3: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/3.jpg)
0 - 15 15 - 30 30 - 60
distance range from source (km)
0.01
0.1
1
10
100
1000
for
1 kg
/day
sou
rce
ug/m
2-ye
ar
Hg(2)_50mHg(2)_250mHg(2)_500mHg(p)_250mHg(0)_250m
Wet + Dry Deposition: ISC (Kansas City)for emissions of different mercury forms from different stack heights
Calculated from data used to produce Appendix A of USEPA (2005): Clean Air Mercury Rule (CAMR) Technical Support Document: Methodology Used to Generate Deposition, Fish Tissue Methylmercury Concentrations, and Exposure for Determining Effectiveness of Utility Emissions Controls: Analysis of Mercury from Electricity Generating Units 3
![Page 4: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/4.jpg)
0 - 15 15 - 30 30 - 60
distance range from source (km)
0.01
0.1
1
10
100
1000
for
1 kg
/day
sou
rce
ug/m
2-ye
ar
Hg(2)_50m
Hg(2)_250m
Hg(2)_500m
Hg(p)_250m
Hg(0)_250m
Wet + Dry Deposition: HYSPLIT (Nebraska)for emissions of different mercury forms from different stack heights
0 - 15 15 - 30 30 - 60
distance range from source (km)
0.01
0.1
1
10
100
1000
for
1 kg
/day
so
urce
ug/m
2-ye
ar
Hg(2)_50m
Hg(2)_250m
Hg(2)_500m
Hg(p)_250m
Hg(0)_250m
Wet + Dry Deposition: ISC (Kansas City)for emissions of different mercury forms from different stack heights
0 - 15 15 - 30 30 - 60
distance range from source (km)
0.01
0.1
1
10
100
1000
for
1 kg
/day
so
urce
ug/m
2-ye
ar
Hg(2)_50m
Hg(2)_250m
Hg(2)_500m
Hg(p)_250m
Hg(0)_250m
Wet + Dry Deposition: ISC (Tampa)for emissions of different mercury forms from different stack heights
0 - 15 15 - 30 30 - 60
distance range from source (km)
0.01
0.1
1
10
100
1000
for
1 kg
/day
so
urce
ug/m
2-ye
ar
Hg(2)_50m
Hg(2)_250m
Hg(2)_500m
Hg(p)_250m
Hg(0)_250m
Wet + Dry Deposition: ISC (Phoenix)for emissions of different mercury forms from different stack heights
0 - 15 15 - 30 30 - 60
distance range from source (km)
0.01
0.1
1
10
100
1000fo
r 1
kg/d
ay s
our
ceug
/m2-
year
Hg(2)_50m
Hg(2)_250m
Hg(2)_500m
Hg(p)_250m
Hg(0)_250m
Wet + Dry Deposition: ISC (Indianapolis)for emissions of different mercury forms from different stack heights
HYSPLIT 1996
ISC: 1990-1994
Different Time Periods and Locations, but Similar Results
4
![Page 5: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/5.jpg)
Erie Ontario Michigan Huron Superior0
1
2
3
4
5
6
7
8
De
po
sitio
n (
ug
/m2
-ye
ar) HYSPLIT
CMAQ
Model-estimated U.S. utility atmospheric mercury deposition contribution to the Great Lakes: HYSPLIT-Hg (1996 meteorology, 1999 emissions) vs. CMAQ-HG (2001 meteorology, 2001 emissions).
5
![Page 6: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/6.jpg)
Erie Ontario Michigan Huron Superior0
1
2
3
4
5
6
7
8
De
po
sitio
n (
ug
/m2
-ye
ar)
HYSPLIT
25% added to CMAQ
CMAQ
Model-estimated U.S. utility atmospheric mercury deposition contribution to the Great Lakes: HYSPLIT-Hg (1996 meteorology, 1999 emissions) vs. CMAQ-Hg (2001 meteorology, 2001 emissions).
This figure also shows an added component of the CMAQ-Hg estimates -- corresponding to 25% of the CMAQ-Hg results – in an attempt to adjust the CMAQ-Hg results to account for the deposition underprediction found in the CMAQ-Hg model evaluation.
6
![Page 7: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/7.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Summary presentedby Mark Cohen,
NOAA Air Resources Laboratory,
Silver Spring, MD, USA
EMEP/TFMM Workshop on the Review of the MSC-E Models on HMs and POPsOct 13-14, 2005Hotel Mir, Moscow Russia
7
![Page 8: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/8.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Intro-duction
Stage I Stage II Stage III Conclu-sionsChemistry Hg0 Hg(p) RGM Wet Dep Dry Dep Budgets
8
ParticipantsD. Syrakov …………………………….. Bulgaria….NIMH
A. Dastoor, D. Davignon ……………… Canada...... MSC-Can
J. Christensen …………………………. Denmark…NERI
G. Petersen, R. Ebinghaus …………...... Germany…GKSS
J. Pacyna ………………………………. Norway…..NILU
J. Munthe, I. Wängberg ……………….. Sweden….. IVL
R. Bullock ………………………………USA………EPA
M. Cohen, R. Artz, R. Draxler …………USA………NOAA
C. Seigneur, K. Lohman ………………..USA……... AER/EPRI
A. Ryaboshapko, I. Ilyin, O.Travnikov… EMEP……MSC-E
![Page 9: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/9.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Intro-duction
Stage I Stage II Stage III Conclu-sionsChemistry Hg0 Hg(p) RGM Wet Dep Dry Dep Budgets
9
Intercomparison Conducted in 3 Stages
I. Comparison of chemical schemes for a cloud environment
II. Air Concentrations in Short Term Episodes
III. Long-Term Deposition and Source-Receptor Budgets
![Page 10: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/10.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Intro-duction
Stage I Stage II Stage III Conclu-sionsChemistry Hg0 Hg(p) RGM Wet Dep Dry Dep Budgets
10
Model Acronym Model Name and Institution Stage
I II III
CAM Chemistry of Atmos. Mercury model, Environmental Institute, Sweden
MCM Mercury Chemistry Model, Atmos. & Environmental Research, USA
CMAQ Community Multi-Scale Air Quality model, US EPA
ADOM Acid Deposition and Oxidants Model, GKSS Research Center, Germany
MSCE-HM MSC-E heavy metal regional model, EMEP MSC-E
GRAHM Global/Regional Atmospheric Heavy Metal model, Environment Canada
EMAP Eulerian Model for Air Pollution, Bulgarian Meteo-service
DEHM Danish Eulerian Hemispheric Model, National Environmental Institute
HYSPLIT Hybrid Single Particle Lagrangian Integrated Trajectory model, US NOAA
MSCE-HM-Hem MSC-E heavy metal hemispheric model, EMEP MSC-E
Participating Models
![Page 11: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/11.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Intro-duction
Stage I Stage II Stage III Conclu-sionsChemistry Hg0 Hg(p) RGM Wet Dep Dry Dep Budgets
11
Anthropogenic Mercury Emissions Inventoryand Monitoring Sites for Phase II
(note: only showing largest emitting grid cells)
Mace Head, Ireland grassland shore Rorvik, Sweden
forested shore
Aspvreten, Sweden forested shore
Zingst, Germanysandy shore
Neuglobsow, Germany forested area
![Page 12: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/12.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Intro-duction
Stage I Stage II Stage III Conclu-sionsChemistry Hg0 Hg(p) RGM Wet Dep Dry Dep Budgets
12
Neuglobsow
Zingst
AspvretenRorvik
Mace Head
![Page 13: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/13.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Intro-duction
Stage I Stage II Stage III Conclu-sionsChemistry Hg0 Hg(p) RGM Wet Dep Dry Dep Budgets
13
Total Gaseous Mercury at Neuglobsow: June 26 – July 6, 1995
26-Jun 28-Jun 30-Jun 02-Jul 04-Jul 06-Jul 08-Jul0.0
1.0
2.0
3.0
4.0
Tot
al G
aseo
us M
ercu
ry (
ng/m
3)
MEASURED
NW
NW
NW
N
N
S
SE
NW
Neuglobsow
![Page 14: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/14.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Intro-duction
Stage I Stage II Stage III Conclu-sionsChemistry Hg0 Hg(p) RGM Wet Dep Dry Dep Budgets
14
Total Gaseous Mercury (ng/m3) at Neuglobsow: June 26 – July 6, 1995
26-Jun 28-Jun 30-Jun 02-Jul 04-Jul 06-Jul0
1
2
3
4 MEASURED
26-Jun 28-Jun 30-Jun 02-Jul 04-Jul 06-Jul0
1
2
3
4 MSCE
26-Jun 28-Jun 30-Jun 02-Jul 04-Jul 06-Jul0
1
2
3
4 CMAQ
26-Jun 28-Jun 30-Jun 02-Jul 04-Jul 06-Jul0
1
2
3
4 GRAHM
26-Jun 28-Jun 30-Jun 02-Jul 04-Jul 06-Jul0
1
2
3
4 EMAP
26-Jun 28-Jun 30-Jun 02-Jul 04-Jul 06-Jul0
1
2
3
4 DEHM
26-Jun 28-Jun 30-Jun 02-Jul 04-Jul 06-Jul0
1
2
3
4 ADOM
26-Jun 28-Jun 30-Jun 02-Jul 04-Jul 06-Jul0
1
2
3
4 HYSPLIT
![Page 15: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/15.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Intro-duction
Stage I Stage II Stage III Conclu-sionsChemistry Hg0 Hg(p) RGM Wet Dep Dry Dep Budgets
15
Total Particulate Mercury (pg/m3) at Neuglobsow, Nov 1-14, 1999
02-Nov 04-Nov 06-Nov 08-Nov 10-Nov 12-Nov 14-Nov 16-Nov0
50
100
150MEASURED
02-Nov 04-Nov 06-Nov 08-Nov 10-Nov 12-Nov 14-Nov 16-Nov0
50
100
150CMAQ
02-Nov 04-Nov 06-Nov 08-Nov 10-Nov 12-Nov 14-Nov 16-Nov0
50
100
150GRAHM
02-Nov 04-Nov 06-Nov 08-Nov 10-Nov 12-Nov 14-Nov 16-Nov0
50
100
150EMAP
02-Nov 04-Nov 06-Nov 08-Nov 10-Nov 12-Nov 14-Nov 16-Nov0
50
100
150DEHM
02-Nov 04-Nov 06-Nov 08-Nov 10-Nov 12-Nov 14-Nov 16-Nov0
50
100
150ADOM
02-Nov 04-Nov 06-Nov 08-Nov 10-Nov 12-Nov 14-Nov 16-Nov0
50
100
150HYSPLIT
02-Nov 04-Nov 06-Nov 08-Nov 10-Nov 12-Nov 14-Nov 16-Nov0
50
100
150MSCE
![Page 16: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/16.jpg)
16
MSCE Neuglobsow RGM
0
10
20
30
40
50
60
11
/1/1
99
9
11
/2/1
99
9
11
/3/1
99
9
11
/4/1
99
9
11
/5/1
99
9
11
/6/1
99
9
11
/7/1
99
9
11
/8/1
99
9
11
/9/1
99
9
11
/10
/19
99
11
/11
/19
99
11
/12
/19
99
11
/13
/19
99
11
/14
/19
99
pg
/m3
ObsCalc
a
CMAQ Neuglobsow RGM
0
10
20
30
40
50
60
70
1/1
1/9
9
2/1
1/9
9
3/1
1/9
9
4/1
1/9
9
5/1
1/9
9
6/1
1/9
9
7/1
1/9
9
8/1
1/9
9
9/1
1/9
9
10
/11
/99
11
/11
/99
12
/11
/99
13
/11
/99
14
/11
/99
pg
/m3
ObsCalc
a
ADOM Neuglobsow RGM
0
10
20
30
40
50
60
70
11
/1/9
9
11
/2/9
9
11
/3/9
9
11
/4/9
9
11
/5/9
9
11
/6/9
9
11
/7/9
9
11
/8/9
9
11
/9/9
9
11
/10/
99
11
/11/
99
11
/12/
99
11
/13/
99
11
/14/
99
pg
/m3
ObsCalc
a
EMAP Neuglobsow RGM
0
5
10
15
20
25
11
/1/1
99
9
11
/2/1
99
9
11
/3/1
99
9
11
/4/1
99
9
11
/5/1
99
9
11
/6/1
99
9
11
/7/1
99
9
11
/8/1
99
9
11
/9/1
99
9
11
/10
/19
99
11
/11
/19
99
11
/12
/19
99
11
/13
/19
99
11
/14
/19
99
pg
/m3
ObsCalc
a
GRAHM Neuglobsow RGM
0
35
70
105
140
11/1
/99
11/2
/99
11/3
/99
11/4
/99
11/5
/99
11/6
/99
11/7
/99
11/8
/99
11/9
/99
11/1
0/99
11/1
1/99
11/1
2/99
11/1
3/99
11/1
4/99
pg/m
3
ObsCalc
a
HYSPLIT Neuglobsow RGM
0
10
20
30
40
50
60
11/1
/99
11/2
/99
11/3
/99
11/4
/99
11/5
/99
11/6
/99
11/7
/99
11/8
/99
11/9
/99
11/1
0/99
11/1
1/99
11/1
2/99
11/1
3/99
11/1
4/99
pg/m
3
ObsCalc
a
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
BudgetsDry DepWet DepRGMHg(p)Hg0Chemistry
Conclu-sions
Stage IIIStage IIStage IIntro-duction
DEHM Neuglobsow RGM
0
6
12
18
24
30
11/1
/199
9
11/2
/199
9
11/3
/199
9
11/4
/199
9
11/5
/199
9
11/6
/199
9
11/7
/199
9
11/8
/199
9
11/9
/199
9
11/1
0/19
99
11/1
1/19
99
11/1
2/19
99
11/1
3/19
99
11/1
4/19
99
pg/m
3
ObsCalc
a
Reactive Gaseous Mercury at Neuglobsow, Nov 1-14, 1999
![Page 17: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/17.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Intro-duction
Stage I Stage II Stage III Conclu-sionsChemistry Hg0 Hg(p) RGM Wet Dep Dry Dep Budgets
17
Stage II Publications:
2003 Ryaboshapko, A., Artz, R., Bullock, R., Christensen, J., Cohen, M., Dastoor, A., Davignon, D., Draxler, R., Ebinghaus, R., Ilyin, I., Munthe, J., Petersen, G., Syrakov, D. Intercomparison Study of Numerical Models for Long Range Atmospheric Transport of Mercury. Stage II. Comparisons of Modeling Results with Observations Obtained During Short Term Measuring Campaigns. Meteorological Synthesizing Centre – East, Moscow, Russia.
2005 Ryaboshapko, A., Bullock, R., Christensen, J., Cohen, M., Dastoor, A., Ilyin, I., Petersen, G., Syrakov, D., Artz, R., Davignon, D., Draxler, R., and Munthe, J. Intercomparison Study of Atmospheric Mercury Models. Phase II. Comparison of Models with Short-Term Measurements. Submitted to Atmospheric Environment.
![Page 18: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/18.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Intro-duction
Stage I Stage II Stage III Conclu-sionsChemistry Hg0 Hg(p) RGM Wet Dep Dry Dep Budgets
18
DE01 DE09 NL91 NO99 SE02 SE11 SE12 SE05 FI96
Monitoring Station
0.0
0.5
1.0
1.5
2.0
2.5
3.0
wet
Hg
depo
sitio
n (g
/km
2-m
ont
h)
Obs
MSCE-HM
MSCE-HM-Hem
HYSPLIT
DEHM
EMAP
CMAQ
August 1999 Mercury Wet Deposition
![Page 19: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/19.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Intro-duction
Stage I Stage II Stage III Conclu-sionsChemistry Hg0 Hg(p) RGM Wet Dep Dry Dep Budgets
19
Stage III Publication:
2005 Ryaboshapko, A., Artz, R., Bullock, R., Christensen, J., Cohen, M., Draxler, R., Ilyin, I., Munthe, J., Pacyna, J., Petersen, G., Syrakov, D., Travnikov, O. Intercomparison Study of Numerical Models for Long Range Atmospheric Transport of Mercury. Stage III. Comparison of Modelling Results with Long-Term Observations and Comparison of Calculated Items of Regional Balances. Meteorological Synthesizing Centre – East, Moscow, Russia.
![Page 20: Organization of Course](https://reader035.vdocument.in/reader035/viewer/2022062807/56815044550346895dbe44ea/html5/thumbnails/20.jpg)
EMEP Intercomparison Study of Numerical Models for Long-Range Atmospheric Transport of Mercury
Intro-duction
Stage I Stage II Stage III Conclu-sionsChemistry Hg0 Hg(p) RGM Wet Dep Dry Dep Budgets
20
Conclusions: Uncertainties in Mercury Modeling
• Elemental Hg in air - factor of 1.2
• Particulate Hg in air - factor of 1.5
• Oxidized gaseous Hg in air - factor of 5
• Total Hg in precipitation - factor of 1.5
• Wet deposition - factor of 2.0
• Dry deposition - factor of 2.5
• Balances for countries - factor of 2