Vol. 32, issue 10, article # 8

Gorchakov G. I., Buntov D. V., Karpov A. V., Kopeikin V. M., Mirsaitov S. F., Gushchin R. A., Dazenko O. I. Wind effect on saltating particle size distribution. // Optika Atmosfery i Okeana. 2019. V. 32. No. 10. P. 848–855. DOI: 10.15372/AOO20191008 [in Russian].
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Abstract:

Saltating aleurite and sand particle size distributions have been measured in a windsand flux over desertified area in Astrakhan oblast and approximated using lognormal distributions for aleurite – sand and aleurite modes. A wind velocity threshold for the total saltating particle concentration during non-intermittent saltation was determined. The threshold velocity dependence on the saltating particle size has been derived. Empirical dependences of the total particle concentration and differential number aleurite and sand particle concentrations on the wind velocity have been received.

Keywords:

windsand flux, saltating aleurite particles, quasi-continuous saltation, aleurite and sand particle size distribution, aleurite-sand mode, aleurite mode, threshold velocity dependence from the size particle

References:

  1. Zolotokrylin A.N. Klimaticheskoe opustynivanie. M.: Nauka, 2003. 247 p.
  2. Bagnold R.A. The Physics of Blown Sand and Desert Dunes. London: Methuen, 1941. 265 р.
  3. Shao Y. Physics and Modeling of Wind Erosion. New York: Springer, 2000. 393 р.
  4. Zheng X. Mechanics of Wind Blown Sand Movements. Berlin: Springer-Verlag, 2009. 290 p.
  5. Gorchakov G.I., Titov A.A., Buntov D.V. Parametry nizhnego sloya sal'tatsii na opustynennoj territorii // Dokl. RAN. 2009. V. 424, N 1. P. 102–106.
  6. Gorchakov G.I., Karpov A.V., Sokolov A.V., Buntov D.V., Zlobin I.A. Eksperimental'noe i teoreticheskoe issledovanie traektorij sal'tiruyushchikh peschinok na opustynennykh territoriyakh // Optika atmosf. i okeana. 2012. V. 25, N 6. P. 501–506; Gorchakov G.I., Karpov A.V., Sokolov A.V., Buntov D.V., Zlobin I.A. Experimental and theoretical study of the trajectories of saltating sand particles over desert areas // Atmos. Ocean. Opt. 2012. V. 25, N 6. P. 423–428.
  7. Gorchakov G.I., Karpov A.V., Kopejkin V.M., Sokolov A.V., Buntov D.V. Vliyanie sily Sefmana, pod"emnoj sily i elektricheskoj sily na perenos chastits v vetropeschanom potoke // Dokl. RAN. 2016. V. 467, N 3. P. 336–341.
  8. Kok J.F., Parteli E.J.R., Michaels T.I., Karam D.B. The physics of wind-blown sand and dust // Rep. Prog. Phys. 2012. V. 75, N 106901. P. 1–119.
  9. Byutner E.K. Dinamika pripoverkhnostnogo sloya vozdukha. L.: Gidrometeoizdat, 1978. 158 p.
  10. Semenov O.E. Vvedenie v eksperimental'nuyu meteorologiyu i klimatologiyu peschanykh bur'. Almaty: KazNIIEK, 2011. 580 p.
  11. Gorchakov G.I., Karpov A.V., Kopejkin V.M., Zlobin I.A., Buntov D.V., Sokolov A.V. Issledovanie dinamiki sal'tiruyushchikh peschinok na opustynennykh territoriyakh // Dokl. RAN. 2013. V. 452, N 6. P. 669–676.
  12. Gorchakov G.I., Karpov A.V., Kuznetsov G.A., Buntov D.V. Kvaziperiodicheskaya sal'tatsiya v vetropeschanom potoke na opustynennoj territorii // Optika atmosf. i okeana. 2016. V. 29, N 6. P. 472–477; Gorchakov G.I., Karpov А.V., Kuznetsov G.А., Buntov D.V. Quasiperiodic saltation in the windsand flux over desertified areas // Atmos. Ocean. Opt. 2016. V. 29, N 6. P. 501–506.
  13. Morsi S.A., Alexander A.Z. An investigation of particle trajectories in two-phase flow systems // J. Fluid Mech. 1972. V. 55, N 2. P. 193–208.
  14. White B.R., Schulz J.C. Magnus effect in saltation // J. Fluid Mech. 1977. V. 81, N 3. P. 497–512.
  15. Rasmussen K.R., Sorensen M. Vertical variation of particle speed and flux in aeolian saltation: Measurement and modeling // J. Geophys. Res. 2008. V. 113. N FO2S12. P. 1–12.
  16. Ishizuka M., Mikami M., Leys J.F., Yamada Y., Heidenreich S., Shao Y., McTainsh G.H. Effects of soil moisture and dried raindroplet crust on saltation and dust emission // J. Geophys. Res. 2008. V. 113. N D24212. P. 1–15
  17. Huang N., Wang C., Pan X.Y. Simulation of aeolian sand saltation with rotational motion // J. Geophys. Res. 2010. V. 115, N D22211. P. 1–8.
  18. Leenders J., van Boxel J., Sterk G. Wind forces and related saltation transport // Geomorphology. 2005. V. 71. N 3–4. P. 357–372.
  19. Creyssels M., Dupont P., El Moctar A., Valance A., Cantat I., Jenkins J.T., Pasini J.M., Rasmussen K.R. Saltating particles in a turbulent boundary layer: Experiment and theory // J. Fluid Mech. 2009. V. 625. P. 47–74.
  20. Gorchakov G.I., Shukurov K.A. Fluktuatsii kontsentratsii submikronnogo aerozolya v konvektivnykh usloviyakh // Izv. RAN. Fizika atmosf. i okeana. 2003. V. 39, N 1. P. 85–97.
  21. Singh A., Fienberg K., Jerolmack D.J., Marr J., Foufoula-Georgiou. Experimental evidence for statistical scaling and intermittency in sediment transport rates // J. Geophys. Res. 2007. V. 114, N F01025. P. 1–16.
  22. Stout J., Zobeck T.M. Intermittent saltation // Sedimentology. 1997. V. 44, N 5. P. 959–970.
  23. Dupont S., Bergamett G., Marticorena B., Simoëns S. Modeling saltation intermittency // J. Geophys. Res.: Atmos. 2013. V. 118. P. 7109–7128.
  24. Karpov A.V. Fluktuatsii mikrostruktury grubodispersnogo i submikronnogo aerozolya na opustynennoj territorii // Optika atmosf. i okeana. 2008. V. 21, N 10. P. 844–849.
  25. Li B., McKenna Neuman C. Boundary-layer turbulence characteristics during aeolian saltation // Geophys. Res. Lett. 2012. V. 39, N LII402. P. 1–4.
  26. Martin R.L., Barchyn T.E., Hugenholtz C.H., Jerolmack D.J. Timescale dependence of aeolian sand flux observation under atmospheric turbulence // J. Geophys. Res. 2013. V. 118, N 16. P. 9078–9092.
  27. Liu D., Ishizuka M., Mikami M., Shao Y. Tutrbulent characteriostics of saltation and uncertain of saltation model parameters //Atmos. Chem. Phys. 2018. V. 18. P. 7595–7606.
  28. Ma G.S. Zheng X.J. The fluctuation property of blown sand particles and the wind-sand flow evolution studied by numerical method // Eur. Phys. J. E. 2011. V. 34, N 54. P. 1–11.
  29. Manukyan E., Prigozhin L. Formation of aeolian ripples and sand sorting // Phys. Rev. E. 2009. V. 79, N 031303. P. 1–10.
  30. Tong D., Huang N. Numerical simulation of saltating particles in atmospheric boundary layer over flat bed and sand ripples // J. Geophys. Res. 2012. V. 117, N DI6205. P. 1–12.
  31. Gordon M., McKenna Neuman C. A study of particle splash on developing ripple forms for two bed materials // Geomorphology. 2011. V. 129. P. 79–91.
  32. Schmidt D.S., Schmidt R.A., Dent Y.D. Electrostatic force on saltating sand // J. Geophys. Res. 1998. V. 103, N D8. P. 8997–9001.
  33.  Kоk J.F., Renno N.O. Electrostatics in wind-blown sand // Phys. Rev. Lett. 2008. V. 100, N 01450L. P. 1–4.
  34.  Gorchakov G.I., Ermakov V.I., Kopeikin V.M., Isakov A.A., Karpov A.V., Ul'yanenko A.V. Elektricheskie toki sal'tatsii v vetropeschanom potoke // Dokl. AN. 2006. V. 410, N 2. P. 259–262.
  35.  Gorchakov G.I., Kopeikin V.M., Karpov A.V., Buntov D.V., Sokolov A.V. Udel'nyj zaryad sal'tiruyushchikh peschinok na opustynennykh territoriyakh // Dokl. RAN. 2014. V. 456, N 4. P. 476–480.
  36.  Gorchakov G.I., Kopeikin V.M., Karpov A.V., Titov A.A., Buntov D.V., Kuznetsov G.A., Gushchin R.A., Datsenko O.I., Kurbatov G.A., Seregin A.O., Sokolov A.V. Variatsii udel'nogo zaryada sal'tiruyushchikh peschinok v vetropeschanom potoke na opustynennoj territorii // Optika atmosf. i okeana. 2016. V. 29, N 1. P. 31–39; Gorchakov G.I., Kopeikin V.М., Karpov А.V., Тitov А.А., Buntov D.V., Kuznetsov G.А., Gushchin R.А., Dazenko О.I., Kurbatov G.А., Seregin А.О., Sokolov А.V. Variations in the specific charge of saltating sand in a windsand flux over a desertified area // Atmos. Ocean. Opt. 2016. V. 29, N 3. P. 244–251.
  37. Gorchakov G.I., Karpov A.V., Kopeikin V.M., Buntov D.V., Titov A.A., Gushchin R.A, Datsenko O.I. Issledovanie protsessov v vetropeschanom potoke na opustynennykh territoriyakh // Mezhdunar. konf. «Dinamika atmosfery i klimata»: sb. trudov. M.: Fizmat-kniga, 2018. P. 328–332.
  38.  Gorchakov G.I., Buntov D.V., Karpov A.V., Titov A.A., Gushchin R.A., Datsenko O.I. Alevritovaya fraktsiya vetropeschannogo potoka // XXIV Mezhdunarod. Cimpoz. «Optika atmosf. i okeana. Fizika atmosfery».: tr. konf. Tomsk: Izd-vo IOA SO RAN. 2018. P. 304–С307.
  39.  Pettijohn F.G. Sedimentary Rocs. New York: Harper, 1957. 526 р.
  40.  Muzafarov V.G. Opredelitel' mineralov, gornykh porod i okamenelostej. M.: Nauka, 1979. 328 p.
  41.  Buntov D.V., Gushchin R.A., Datsenko O.I. Chetyrekhkanal'nyj fotoelektricheskij schetchik sal'tiruyushchikh peschinok // Optika atmosf. i okeana. 2018. V. 31, N 6. P. 485–488; Buntov D.V., Gushchin R.А., Dazenko О.I. Four-channel photoelectric counter of saltating sand particles // Atmos. Ocean. Opt. 2018. V. 31, N 5. P. 548–551.
  42. Obukhov A.M. Turbulentnost' i dinamika atmosfery. L.: Gidrometeoizdat, 1988. 414 p.
  43. Smirnov N.V., Dunin-Barkovskij I.V. Kratkij kurs matematicheskoj statistiki dlya tekhnicheskikh prilozhenij. M.: Fizmatgiz, 1959. 436 p.