Introduction Adaptation of EU methodologies for Integrated Impact Assessment of energy scenarios (an Environmental and Human Health) Emission database Atmospheric Transport: SO 2, NO x, PM, HM Critical loads, Dose-response function Benefits Negative impacts Emission reduction Cost savings Avoided costs
Evaluation of Polyphemus for 2004 Janusz Zyk, Yelva Roustan,
Artur Wyrwa, Denis Quelo. Atelier Polyphemus Champs-sur-Marne, 28th
October 2008 Outline Air quality in Poland Impact studies Modeling
in local scale Validation of Polyphemus for 2004 Plans for future
Introduction Adaptation of EU methodologies for Integrated Impact
Assessment of energy scenarios (an Environmental and Human Health)
Emission database Atmospheric Transport: SO 2, NO x, PM, HM
Critical loads, Dose-response function Benefits Negative impacts
Emission reduction Cost savings Avoided costs From emissions
estimation... to health and environmental impact Concentration and
deposition POLYPHEMUS Population density distributionEnvironment
impact ECOSENS, RiskPoll Emission level of different pollutants
RAINS Sectors emissions modelling The annual EMEP emission of SO2
from SNAP 1 [Mg/cell] Average yearly concetration of SO2 from SNAP
1 [g/m3] Annual costs of loss of life due to SO2 emission, from
SNAP1 [x1000 EUR/y] Estimation of external cost horizontal
resolution of the grid is 0,01 o x 0,01 o with number of the cells
34 x 28 first cell localized in the left lower corner W, E Points
emitors Surface emission Linear Emission Change in concentration of
SO2 in the air [g/m3], after eliminating domestic emission in The
Old Town (60 Mg/y). Change in concentration of PM10 in the air
[g/m3], after eliminating domestic emission in The Old Town (140
Mg/y) Population of Toru in different regions of the city
People/cell Avoided external costs about 7 % Estimation of external
cost Polyphemus in local scale Measurements stations All stations
KrasiskiegoKrowodrzaNowa HutaSkawina SO Meas_mean Sim_mean RMSE
Correlation [%] NO Meas_mean Sim_mean RMSE Correlation [%] PM
Meas_mean Sim_mean RMSE Correlation [%] longitude: first 19,70 0,
step 0,02 0, 30 cells, latitude: first 49,90 0, step 0,01 0, 25
cells. Simulation for 2005 base on ECMWF The emission inventory
consisted of: area emissions 200 by 200km Krakow in the center with
resolution 5 by 5 km, area emissions from Krakow and surroundings
(30 by 30 km) with resolution 1 by 1 km, emissions from point
sources 430 main points emitters NO 2 concentration (Krowodrza
station) SO 2 concentration (Krowodrza station). Polyphemus in
local scale Validation of Polyphemus for 2004 over Europe The two
simulations over Europe for 2004 were performed. I.longitude from W
to E and latitude from 34,75 N to 57,25 N with resolutions 0,5 x
0,5 (lon/lat) II.longitude from -4,6 W to 27,4 E and latitude from
39,75 N to 56,75 N with resolutions 0,8 x 0,5 (lon/lat).
Simulations was done for 5 levels with boundaries 0, 50, 600, 1200,
2000, 3000 m. For meteorological, emission, boundary condition for
gases and aerosols inputs the EMCWF, EMEP, Mozart 2 and GOCART data
were used respectively Average concetration of SO 2 [g/m 3 ] in
2004 Results for gaseous species Average concetration of NO 2 [g/m
3 ] in 2004 Average concetration of PM 2.5 [g/m 3 ] in 2004
Concetration of aerosols Average concetration of PM 10 [g/m 3 ] in
2004 Average concetration of sea salt [g/m 3 ] in 2004 Validation
of Polyphemus for 2004 The results from Polyphemus were compared
with data from EMEP and AirBase. The red results are coming from:
K.N. Sartelet, E. Debry, K. Fahey, Y. Roustan, M. Tombette, B.
Sportisse. Simulation of aerosols and gas-phase species over Europe
with the Polyphemus system: Part I Model to data comparison for
2001 Atmosheric Enviroment 41 (2007) The location of EMEP
stationsThe location of AirBase stations Validation of Polyphemus
for 2004 Sym. nr. DatabaseStationsObs. mean Mod. mean RMSECorr. SO
2 IEmep301,75,34,947,2% AirBase9916,37,07,344,0%
IIEmep241,96,26,043,7% AirBase9046,37,57,642,9%
Emep432,05,24,847,5% AirBase6566,46,96,544,5%
SulfateIEmep302,21,51,924,6% AirBase83,62,23,23,7%
IIEmep242,31,92,022,9% AirBase83,61,63,211,9% Emep572,52,11,755,8%
AirBase111,92,41,651,3% Validation of Polyphemus for 2004 Sym. nr.
DatabaseStationsObs. mean Mod. mean RMSECorr. NO 2
IEmep256,57,74,750,6% AirBase117323,413,618,841,1%
IIEmep207,38,34,850,0% AirBase108223,613,419,041,4%
Emep3010,012,310,133,6% AirBase99023,915,318,339,5%
NitrateIEmep112,03,42,833,2% AirBase71,63,42,635,2%
IIEmep102,13,72,933,6% AirBase71,63,83,130,3% Emep142,64,13,141,4%
AirBase83,54,42,771,7% Validation of Polyphemus for 2004 Sym. nr.
DatabaseStationsObs. mean Mod. mean RMSECorr. NH 3
IEmep31,92,71,745,0% AirBase1816,65,819,017,2%
IIEmep31,92,91,744,6% AirBase1816,55,418,617,8% Emep37,46,35,429,5%
AirBase912,97,412,928,4% AmmIEmep81,42,41,737,4%
IIEmep71,42,71,938,1% Emep91,82,01,351,9% Validation of Polyphemus
for 2004 Sym. nr. DatabaseStationsObs. mean Mod. mean RMSECorr.
O3O3 IEmep4265,763,125,055,2% AirBase121351,859,127,563,3%
IIEmep3664,363,325,953,3% AirBase110951,759,827,664,3%
Emep9663,257,024,363,9% AirBase99349,953,226,067,5%
PM10IEmep1818,820,917,236,4% AirBase42926,119,724,023,9%
IIEmep1219,722,518,525,7% AirBase37425,420,823,421,0%
Emep2616,915,612,654,5% AirBase52924,915,416,644,0% Plans for
future Working on developing Polyphemus for simulations of heavy
metals mercury module. Developing plume in grid model - for the
heavy metals particles - for mercury (specific chemistry)
Investigating of behavior of heavy metals in PM (size distribution,
deposition) Thank you
