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Tytuł artykułu

Application of the FAPPS system based on the CALPUFF model in short-term air pollution forecasting in Krakow and Lesser Poland

Tytuł czasopisma

Archives of Environmental Protection

Rocznik

2022

Wolumin

48

Numer

3

Afiliacje

Godłowska, Jolanta : Institute of Meteorology and Water Management – National Research Institute, Poland ; Kaszowski, Kamil : Institute of Meteorology and Water Management – National Research Institute, Poland ; Kaszowski, Wiesław : Institute of Meteorology and Water Management – National Research Institute, Poland

Autorzy

Godłowska, Jolanta ; Kaszowski, Kamil ; Kaszowski, Wiesław

Słowa kluczowe

CALPUFF ; air pollution modelling ; Urban air pollution ; FAPPS system

Wydział PAN

Nauki Techniczne

Zakres

109-117

Wydawca

Polish Academy of Sciences

Bibliografia

  1. Chlebowska-Styś, A., Kobus, D., Zathey, M. & Sówka, I. (2019). The impact of road transport
  2. on air quality in selected Polish cities, Ecol. Chem Eng. A. 26(1–2), pp.19–36
  3. CIBSE TM41 (2006). Degree-days: theory and application, The Chartered Institution of Building Services Engineers 222 Balham High Road, London SW12 9BS
  4. Dresser, A.L. & Huizer, R.D. (2011). CALPUFF and AERMOD model validation study in the near field: Martins Creek revisited, J. Air Waste Manage. Assoc. 61, pp. 647–659. DOI:10.3155/1047-3289.61.6.647.
  5. EEA Report 9/2020 (2020). Air quality in Europe — 2020 report (https://www.eea.europa.eu/publications/air-quality-in-europe-2020-report/(25.02.2022)).
  6. EMEP/CEIP (2018). Present state of emission data; https://www.ceip.at/status-of-reporting-and-review-results/2019-submissions
  7. ETC/ACM (2013). Technical Paper 2013/11 (R. Rouil, B. Bessagnet, eds). How to start with PM modelling for air quality assessment and planning relevant to AQD
  8. Gawuc, L., Szymankiewicz, K., Kawicka, D., Mielczarek, E., Marek, K., Soliwoda, M. & Maciejewska, J. (2021). Bottom–Up Inventory of Residential Combustion Emissions in Poland for National Air Quality Modelling: Current Status and Perspectives, Atmosphere 12, no. 11: 1460. DOI:10.3390/atmos12111460
  9. Ghannam, K. & El-Fadel, M. (2013). Emissions characterization and regulatory compliance at an industrial complex: an integrated MM5/CALPUFF approach. Atmos. Environ. 69, pp.156–169. DOI:10.1016/j.atmosenv.2012.12.022.
  10. GMES Mapping Guide for a European Urban Atlas v.1.01, (2010). (http://www.eea.europa.eu/data-and-maps/data )
  11. Godlowska, J., Tomaszewska, A.M., Kaszowski, W. .& Hajto, M. J. (2012) Comparison between modelled (ALADIN/MM5/CALMET) and measured (SODAR) planetary boundary layer height. in: Proc. ICUC8 – 8th International Conference on Urban Climates, 6-10.08.2012, Dublin, Ireland, 255 (http://smog.imgw.pl/pdf/255.pdf )
  12. Godłowska, J. (2019). The impact of meteorological conditions on air quality in Krakow. Comparative research and an attempt at a model approach. Seria: Monografie Instytutu Meteorologii I Gospodarki Wodnej Państwowego Instytutu Badawczego, p. 104, ISBN: 978-83-64979-29-3 9 (In Polish) (https://www.imgw.pl/sites/default/files/2019-12/wplyw-warunkow-meteorologicznych-na-jakosc-powietrza-w-krakowie.pdf )
  13. Godłowska, J. & Kaszowski, W. (2019): Testing various morphometric methods to determine vertical profile of wind speed in Krakow, Poland, Bound.-Layer Meteorol., 172, pp.107-132 DOI:10.1007/s10546-019-00440-9
  14. Grimmond, C. S. B. & Oke, T. R. (1999). Aerodynamic Properties of Urban Areas Derived from Analysis of Surface Form, J. Appl. Meteorol.38, 1262- 1292. DOI:10.1175/1520-0450(1999)038<1262:APOUAD>2.0.CO;2
  15. Holnicki, P., Kałuszko, A., Nahorski, Z., Stankiewicz, K. & Trapp, W. (2017). Air quality modeling for Warsaw agglomeration, Arch. Environ. Prot. 43, pp. 48–64. DOI:10.1515/aep-2017-0005 .
  16. Jiřík, V., Hermanová, B., Dalecká, A., Pavlíková, I., Bitta, J., Jančík, P., Ośródka, L., Krajny, E., Sładeczek, F., Siemiątkowski, G., Kiprian, K. & Głodek Bucyk, E. (2020). Wpływ zanieczyszczenia powietrza na zdrowie ludności w obszarze polsko-czeskiego pogranicza. Opole 2020, ISBN 978-83-7342-714-3 (In Polish and Czech)
  17. Juda-Rezler, K. (2010) New challenges in air quality and climate modeling. Arch. Environ. Prot. 36, pp.3–28.
  18. Juginović, A., Vuković, M., Aranza, I. et al. (2021). Health impacts of air pollution exposure from 1990 to 2019 in 43 European countries. Sci Rep 11, 22516. DOI:10.1038/s41598-021-01802-5.
  19. Kanda, M, Inagaki, A, Miyamoto, T, Gryschka, M. & Raasch, S. (2013). A new aerodynamic parametrization for real urban surfaces. Bound.-Layer Meteorol.148, pp.357–377.DOI:10.1007/s10546-013-9818-x
  20. Oleniacz, R. & Rzeszutek, M. (2018). Intercomparison of the CALMET/CALPUFFmodeling system for selected horizontal grid resolutions at a local scale: a case study of the MSWI Plant in Krakow, Poland. Appl. Sci. 8, 1–19. DOI:10.3390/app8112301.
  21. PSU/NCAR Mesoscale Modeling System (https://a.atmoswashington.edu/~ovens/newwebpage/mm5-home.html (26.02.2022))
  22. Rood, A.S. (2014). Performance evaluation of AERMOD, CALPUFF, and legacy air dispersion models using the Winter Validation Tracer Study dataset. Atmos. Environ. 89, pp.707–720. DOI:10.1016/j.atmosenv.2014.02.054.
  23. Rzeszutek M. (2019). Parameterization and evaluation of the CALMET/CALPUFF model system in near-field and complex terrain– Terrain data, grid resolution and terrain adjustment method, Sci. Total Environ 689, pp.31–46, DOI:10.1016/j.scitotenv.2019.06.379
  24. Samek, L., Styszko, K., Stegowski, Z., Zimnoch, M., Skiba, A., Turek-Fijak, A., Gorczyca, Z., Furman,P., Kasper-Giebl, A., Rozanski, K. (2021) Comparison of PM10 Sources at Traffic and Urban Background Sites Based on Elemental, Chemical and Isotopic Composition: Case Study from Krakow, Southern Poland. Atmosphere, 12, 1364. DOI:10.3390/atmos12101364
  25. Scire, J. S., Robe, F. R., Fernau, M. E. & Yamartino R. J. (2000a). A user’s guide for the CALMET Meteorological Model (Version 5.0). Earth Tech, Inc., Concord, MA
  26. Scire, J. S., Strimaitis, D. G. & Yamartino R.J. (2000b). A user’s guide for the CALPUFF Dispersion Model (Version 5.0). Earth Tech, Inc., Concord, MA
  27. Schlünzen, K.H. & Sokhi, R.S. (2008). Overview of Tools And Methods For Meteorological And Air Pollution Mesoscale Model Evaluation And User Training. Joint Report by WMO and COST Action 728, GURME. pp. 116.
  28. Termonia, P., Fischer, C., Bazile, E., Bouyssel, F., Brožková, R., Bénard, P., Bochenek, B., Degrauwe, D., Derková, M., El Khatib, R., Hamdi, R., Mašek, J., Pottier, P., Pristov, N., Seity, Y., Smolíková, P., Španiel, O., Tudor, M., Wang, Y., Wittmann, C.& Joly, A. (2018). The ALADIN System and its canonical model configurations AROME CY41T1 and ALARO CY40T1 . Geosci. Model Dev., 11, pp.257–281. DOI:10.5194/gmd-11-257-2018
  29. Thunis, P., Miranda, A., Baldasano, J.M., Blond, N., Douros, J., Graff, A., Janssen, S., Juda-Rezler, K., Karvosenoja, N., Maffeis, G., Martilli, A., Rasoloharimahefa, M., Real, E., Viaene, P., Volta, M. & White, L. (2016). Overview of current regional and local scale air quality modelling practices: assessment and planning tools in the EU. Environ. Sci. Policy. 65, pp.13–21. DOI:10.1016/j.envsci.2016.03.013.
  30. WHO global air quality guidelines. Particulate matter (PM2.5 and PM10), nitrogen dioxide, sulfur dioxide and carbon monoxide. (2021). Geneva: World Health Organization; 2021
  31. Yessad K. (2019). Basics about ARPEGE/IFS, ALADIN and AROME in the cycle 46t1r1 of ARPEGE/IFS (http://www.umr-cnrm.fr/gmapdoc/IMG/pdf/ykarpbasics46t1r1.pdf /28.02.2022

Data

2022.09.19

Typ

Article

Identyfikator

DOI: 10.24425/aep.2022.142695 ; ISSN 2083-4772 ; eISSN 2083-4810

DOI

10.24425/aep.2022.142695

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