Vol. 33, issue 06, article # 4

Shalygina I. Yu., Kuznetsova I. N., Nahaev M. I., Borisov D. V., Lesina E. A. Emission correction efficiency for calculations in the CHIMERE chemical transport model in the Moscow region. // Optika Atmosfery i Okeana. 2020. V. 33. No. 06. P. 441–447. DOI: 10.15372/AOO20200604 [in Russian].
Copy the reference to clipboard
Abstract:

The regional correction of the EMEP inventory data (European Monitoring and Evaluation Program) is one of the ways to improve the accuracy of model calculations of pollutant concentrations based on chemical transport models (CTM). Methods for correcting original EMEP emissions are proposed and described. On the example of CTM CHIMERE calculations for the Moscow region, the effectiveness of the application of the emission correction procedure is shown, which is confirmed by a decrease in the errors of model calculations of the PM10 concentration. The completed regional developments for the correction of emissions can be used for other regions of Russia.

Keywords:

emissions, EMEP, chemical transport model, CHIMERE, numerical forecast of air pollution

References:

  1. Kuznetsova I.N., Zaripov R.B., Konovalov I.B., Zvyagintsev A.M., Semutnikova E.G., Artamonova A.A. Vychislitel'nyj kompleks «model' atmosfery – himicheskaya transportnaya model'» kak modul' sistemy otsenki kachestva vozduha // Optika atmosf. i okeana. 2010. V. 23, N 6. P. 485–492.
  2. Zaripov R.B., Konovalov I.B., Kuznetsova I.N., Belikov I.B., Zvyagintsev A.M. Ispol'zovanie modelej WRF ARW i CHIMERE dlya chislennogo prognoza kontsentratsii prizemnogo ozona // Meteorol. i gidrol. 2011. N 4. P. 48–60.
  3. Nahaev M.I., Berezin E.V., Shalygina I.Yu., Kuznetsova I.N., Konovalov I.B., Blinov D.V., Lezina E.A. Eksperimental'nye raschety kontsentratsij РМ10 i СО kompleksom modelej CHIMERE i COSMO-Ru7 // Optika atmosf. i okeana. 2015. V. 28, N 6. P. 569–578.
  4. Nahaev M.I., Berezin E.V., ShHalygina I.Yu., Kuznetsova I.N., Konovalov I.B., Blinov D.V. Prognozirovanie kontsentratsij zagryaznyayushchih veshchestv v atmosfere s primeneniem himicheskoj transportnoj modeli CHIMERE i modeli COSMO-Ru7 // Tr. Gidromettsentra Rossii. 2015. Iss. 357. P. 146–164.
  5. Shalygina I.Yu., Kuznetsova I.N., Nahaev M.I., Konovalov I.B., Berezin E.V. Sutochnyj hod zagryaznyayushchih vozduh veshchestv po izmereniyam i raschetam himicheskoj transportnoj modeli // Tr. Gidromettsentra Rossii. 2016. Iss. 360. P. 149–167.
  6. Shalygina I.Yu. Nahaev M.I., Kuznetsova I.N., Berezin E.V., Konovalov I.B., Blinov D.V., Kirsanov A.A. Sravnenie rasschitannyh s pomoshch'yu himicheskih transportnyh modelej prizemnyh kontsentratsij zagryaznyayushchih veshchestv s dannymi izmerenij v Moskovskom regione // Optika atmosf. i okeana. 2017. V. 30, N 1. P. 53–59.
  7. Shalygina I.Yu., Kuznetsova I.N., Nahaev M.I., Konovalov I.B., Zaharova P.V. Prognozirovanie meteorologicheskih uslovij i zagryazneniya vozduha s primeneniem dannyh chislennoj modeli atmosfery i himicheskoj transportnoj modeli // Tr. Gidromettsentra Rossii. 2017. Iss. 365. P. 81–93.
  8. Shalygina I.Yu., Nahaev M.I., Kuznetsova I.N., Konovalov I.B., Zaharova P.V. Regional'naya adaptatsiya bazy dannyh vybrosov zagryaznyayushchih veshchestv v atmosferu // Gidrometeorol. issled. i prognozy. 2018. N 3 (369) P. 33–45.
  9. Kuznetsova I.N., Shalygina I.Yu., Nahaev M.I., Tkacheva Yu.V., Rivin G.S., Kirsanov A.A., Borisov D.V., Lezina E.A. Sistema prognozirovaniya kachestva vozduha na osnove himicheskih transportnyh modelej // Gidrometeorol. issled. i prognozy. 2019. N 4 (374) P. 203–218.
  10. Blinov D.V., Rivin G.S. Sistema kratkosrochnogo negidrastaticheskogo prognoza pogody COSMO-Ru: tekhnologicheskaya liniya // Tr. Gidromettsentra Rossii. 2017. Iss. 365. P. 142–162.
  11. Rivin G.S., Rozinkina I.A., Astahova E.D., Blinov D.V., Bundel' A.Yu., Kirsanov A.A., Shatunova M.V., Chubarova N.E., Alferov D.Yu., Varentsov M.I., Zaharchenko D.I., Kopejkin V.V., Nikitin M.A., Polyuhov A.A., Revokatova A.P., Tatarinovich E.V., Churyulin E.V. Sistema kratkosrochnogo chislennogo prognoza vysokoj detalizatsii COSMO-Ru, ee razvitie i prilozheniya // Gidrometeorol. issled. i prognozy. 2019. N 4 (374). PС. 27–53.
  12. Holnicki P., Nahorski Z. Emission data uncertainty in urban air quality modeling–case study // Environ. Model. Assess. 2015. V. 20. P. 583–597.
  13. Francoisa S., Grondina E., Fayetb S., Ponche J.-L. The establishment of the atmospheric emission in ventories of the ESCOMPTE program // Atmos. Res. 2005. V. 74. P. 5–35.
  14. Bofeng Caia, Sai Liangb, Jiong Zhouc, Jinnan Wanga, Libin Caoa, Shen Qud, Ming Xud, Zhifeng Yang. China high resolution emission database (CHRED) with point emission sources, gridded emission data, and supplementary socioeconomic data // Resour., Conserv. & Recycl. 2018. V. 129. P. 232–239.
  15. URL: https://www.unece.org/fileadmin/DAM/env/ documents/2018/Air/EMEP/EMEP_MSC-E_POPs.pdf (last access: 19.12.2019).
  16. Ponomarev N.A., Elanskij N.F., Zaharov V.I., Verevkin Ya.M. Optimizatsiya emissij zagryaznyayushchih primesej dlya modelirovaniya kachestva vozduha v Moskve // Protsessy v geosredah. 2019. N 1. P. 65–73.
  17. Ponomarev N.A., Elanskij N.F., Kirsanov A.A., Postylyakov O.V., Borovskij A.N., Verevkin Ya.M. Primenenie himiko-transportnyh modelej atmosfery dlya validatsii emissij zagryaznyayushchih primesej v Moskve // Optika atmosf. i okeana. 2020. V. 33, N 2. P. 119–126.
  18. Antohin P.N., Gochakov A.V., Kolker A.B., Penenko A.V. Modelirovanie rasprostraneniya primesej v gorodskih usloviyah s uchetom apriornoj i vosstanovlennoj informatsii// Tr. mezhdunar. konf. po izmereniyam, modelirovaniyu i informatsionnym sistemam dlya izucheniya okruzhayushchej sredy: ENVIROMIS-2018. Tomsk, 2018. P. 291–294.
  19. Revokatova A.P. Metod rascheta emissii ugarnogo gaza dlya prognoza zagryazneniya vozduha v Moskve // Meteorol. i gidrol. 2013. N 6. P. 43–55.
  20. Konovalov I.B. Otsenka mnogoletnih izmenenij emissij oksidov azota v megapolisah po dannym sputnikovyh izmerenij // Izv. RAN. Fiz. atmosf. i okeana. 2011. V. 47, N 2. P. 220–229.
  21. Mailler S., Khvorostyanov D.,  Menut L. Impact of the vertical emission profiles on background gas-phase pollution simulated from the EMEP emissions over Europe // Atmos. Chem. Phys. 2013. V. 13. P. 5987–5998. URL: https://doi.org/10.5194/acp-13-5987-2013
  22. Crippa M., Janssens-Maenhout G., Dentener F., Guizzardi D., Sindelarova K., Muntean M., Van Dingenen R., Granier C. Forty years of improvements in European air quality: The role of EU policy – industry interplay // Atmos. Chem. Phys. Discuss. 2016. V. 16. P. 3825–3841. DOI: 10.5194/acp-16-3825-2016.
  23. Konventsiya o transgranichnom zagryaznenii vozduha na bol'shie rasstoyaniya, prinyata 13 noyabrya 1979 goda: ofits. tekst [Elektronnyj resurs]. Ofits. sajt OON. URL: https://www.un.org/ru/documents/decl_conv/conventions/transboundary.shtml (last access: 12.12.2019).
  24. Kuenen J.J.P., Visschedijk A.J.H., Jozwicka M., Denier van der Gon H.A.C. TNO-MACC_II emission inventory; a multi-year (2003–2009) consistent high-resolution European emission inventory for air quality modelling // Atmos. Chem. Phys. 2014. V. 14, iss. 20. P. 10963–10976.
  25. Menut L., Bessagnet B., Khvorostyanov D., Beekmann M. et al. CHIMERE-2013: A model for regional atmospheric composition modelling // Geosci. Model Dev. 2013. V. 6. P. 981–1028. DOI: 10.5194/gmd-6-981-2013.