Vol. 33, issue 06, article # 9

Raputa V. F., Lezhenin A. A. Estimate the height of the smoke plume from satellite imagery. // Optika Atmosfery i Okeana. 2020. V. 33. No. 06. P. 471–475. DOI: 10.15372/AOO20200609 [in Russian].
Copy the reference to clipboard
Abstract:

A method for determining the ion of height of rise of smoke plumes from pipes of industrial enterprises from using satellite information is suggested. It is tested on the example of the thermal power station in Novosibirsk. The results are compared with the results of calculations according to conventional methods. Possibilities of application of this approach to different meteorological conditions and characteristics of underlying surface are discussed.

Keywords:

atmosphere, pollution, emission sources, buoyancy flow, satellite information

References:

  1. Balter B.M., Balter D.B., Egorov V.V., Stal'naya M.V. Ispol'zovanie dannyh ISZ Landsat dlya opredeleniya kontsentratsii zagryaznitelej v shlejfah ot produvki gazovyh skvazhin na osnovanii modeli istochnika // Issled. Zemli iz kosmosa. 2014. N 2. P. 55–66.
  2. Ermakova T.S., Vankevich R.E., Rudakova Yu.L. Otsenka trekhmernogo prostranstvennogo raspredeleniya polej aerozolya v rajonah intensivnogo zadymleniya ot lesnyh pozharov na osnove dannyh distantsionnogo zondirovaniya iz kosmosa // Uch. zap. RGGMU. 2013. N 31. P. 49–56.
  3. Kondrat'ev K.Ya., Grigor'ev Al.A., Pokrovskij O.M., Shalina E.V. Kosmicheskoe distantsionnoe zondirovanie atmosfernogo aerozolya. L.: Gidrometeoizdat, 1983. 216 p.
  4. Raputa V.F., Lezhenin A.A, Yaroslavtseva T.V. Otsenka parametrov vybrosov Novosibirskih TETS s ispol'zovaniem sputnikovoj informatsii // Interekspo Geo-Sibir'. 2018. V. 1, N 4. P. 137–146.
  5. Gribkov A.M., Zrojchikov N.A., Prohorov V.B. Formirovanie traektorii dymovogo fakela pri nalichii samookutyvaniya ogolovka dymovoj truby // Teploenergetika. 2017. N 10. P. 51–59.
  6. Obolkin V.A., Potemkin V.L., Makuhin V.L., Hodzher T.V., Chipanina E.V. Dal'nij perenos shlejfov atmosfernyh vybrosov regional'nyh ugol'nyh TETS na akvatoriyu Yuzhnogo Bajkala // Optika atmosf. i okeana. 2017. V. 30, N 1. P. 60–65; Obolkin V.A., Potemkin V.L., Makukhin V.L., Khodzher T.V., Chipanina E.V. Long-range transport of plumes of atmospheric emissions from regional coal power plants to the South Baikal water basin // Atmos. Ocean. Opt. 2017. V. 30, N 4. P. 360–365.
  7. Solomos S., Amiridis V., Zanis P., Gerasopoulos E., Sofiou F.I., Herekakis T., Brioude J., Stohl A, Kahn R.A., Kontoes C. Smoke dispersion modeling over complex terrain using high resolution meteorological data and satellite observations – The FireHub platform // Atmos. Environ. 2015. V. 119. P. 348–361.
  8. Byzova N.L., Garger E.K., Ivanov V.N. Eksperimental'nye issledovaniya atmosfernoj diffuzii i raschety rasseyaniya primesi. L.: Gidrometeoizdat, 1991. 278 p.
  9. Atmosfernaya turbulentnost' i modelirovanie rasprostraneniya primesej / F.T.M. N'istad, H. Van Dop (red.). L.: Gidrometeoizdat, 1985. 351 p.
  10. Alekseeva M.N., Yashchenko I.G. Algoritm detektirovaniya fakel'nyh ustanovok po szhiganiyu poputnogo neftyanogo gaza i otsenka ob"emov vybrosov vrednyh veshchestv // Optika atmosf. i okeana. 2019. V. 32, N 6. P. 490–494.
  11. Zilitinkevich S.S. Atmosfernaya turbulentnost' i planetarnye pogranichnye sloi. M.: Fizmatlit, 2013. 252 p.
  12. Baas P., van de Wiel B.J.H., van der Linden S.J.A., Bosveld F.C. From near-neutral to strongly stratified: adequately modelling the clear-sky nocturnal boundary layer at Cabauw // Bound.-Layer Meteorol. 2018. V. 166. P. 217–238.
  13. Odintsov S.L. Razvitie i primenenie akusticheskih sredstv diagnostiki atmosfernogo pogranichnogo sloya // Optika atmosf. i okeana. 2019. V. 32, N 9. P. 786–791; Odintsov S.L. Development and use of acoustic tools for diagnostics of the atmospheric boundary layer // Atmos. Ocean. Opt. 2020. V. 33, N 1. P. 104–108.
  14. Berlyand M.E. Sovremennye problemy atmosfernoj diffuzii i zagryazneniya atmosfery. L.: Gidrometeoizdat, 1975. 448 p.
  15. Priestley C.H.B., Ball F.K. Continuous convection from an isolated source of heat // Quart. J. Roy. Met. Soc. 1955. V. 81. P. 144–157.
  16. Tohidi A., Kaye N.B. Highly buoyant bent-over plumes in a boundary layer // Atmos. Environ. 2016. V. 131. P. 97–114.
  17. Ob utverzhdenii metodov raschetov rasseivaniya vybrosov vrednyh (zagryaznyayushchih) veshchestv v atmosfernom vozduhe // Prikaz Minprirody Rossii ot 6.06.2017 N 273.
  18. Gribkov A.M., Tyuklin D.S. Pod"em dymovyh gazov pri otsutstvii vetra // Elektricheskie stantsii. 2009. N 10. P. 23–27.
  19. Vankevich R.E., Ermakova T.S., Sofiev M.A. Sravnenie rezul'tatov vychisleniya vysoty pod"ema strui dyma ot lesnyh pozharov po poluempiricheskim formulam i odnomernoj modeli BUOYANT // Uch. zap. RGGMU. 2011. N 19. P. 61–70.
  20. Tarasenkov M.V., Kirnos I.V., Belov V.V. Nablyudenie zemnoj poverhnosti iz kosmosa cherez prosvet v oblachnom pole // Optika atmosf. i okeana. 2016. V. 29, N 9. P. 767–771; Tarasenkov M.V., Kirnos I.V., Belov V.V. Observation of the Earth’s surface from the space through a gap in a cloud field // Atmos. Ocean. Opt. 2017. V. 30, N 1. P. 39–43.
  21. Volkov E.P., Gavrilov E.I., Prohorov V.B., Fadeev S.A. Issledovanie pod"ema dymovogo fakela iz gazootvodyashchih trub TES // Teploenergetika. 1984. N 1. P. 57–59.
  22. Ermakova T.S., Vankevich R.E., Kolesnikov I.A. Chislennoe modelirovanie rasprostraneniya dymovyh aerozolej za predely pogranichnogo sloya atmosfery // Uch. zap. RGGMU. 2013. N 31. P. 37–48.
  23. Meteorologiya i atomnaya energiya / D. Slejd (red.). L.: Gidrometeoizdat, 1971. 647 p.