RUS  ENG JOURNALS   PEOPLE   ORGANISATIONS   CONFERENCES   SEMINARS   VIDEO LIBRARY   PACKAGE AMSBIB
 
Kazakov, Aleksandr Viktorovich

Statistics Math-Net.Ru
Total publications: 12
Scientific articles: 12

Number of views:
This page:296
Abstract pages:1016
Full texts:550
References:20

http://www.mathnet.ru/eng/person65442
List of publications on Google Scholar
List of publications on ZentralBlatt
https://mathscinet.ams.org/mathscinet/MRAuthorID/640013

Publications in Math-Net.Ru
2006
1. E. S. Asmolov, A. V. Kazakov, A. F. Kiselev, A. P. Kuryachii, “The effect of interphase interaction on the development of perturbations in a turbulent swirl flow in multicomponent cocurrent supersonic stream”, TVT, 44:6 (2006),  885–891  mathnet  elib; High Temperature, 44:6 (2006), 879–886  elib  scopus
2005
2. E. S. Asmolov, A. V. Kazakov, A. F. Kiselev, D. A. Rus'yanov, “The Calculation of Turbulent Multiphase Swirl Flows of a Viscous Heat-Conducting Gas with Volume Heat Release”, TVT, 43:4 (2005),  594–600  mathnet; High Temperature, 43:4 (2005), 595–602
1999
3. A. V. Kazakov, “The calculation of swirling turbulent flows of viscous heat-conducting gas with volume energy supply”, TVT, 37:5 (1999),  758–764  mathnet; High Temperature, 37:5 (1999), 728–734  isi
4. A. V. Kazakov, A. P. Kuryachii, “The effect of temperature nonuniformity on the stability of swirling flow of gas in a round pipe”, TVT, 37:2 (1999),  254–259  mathnet; High Temperature, 37:2 (1999), 231–236  isi
1998
5. A. V. Kazakov, A. P. Kuryachii, “The effect of viscous–nonviscous interaction on turbulent flow past a plate under conditions of local heating of its surface”, TVT, 36:3 (1998),  418–423  mathnet; High Temperature, 36:3 (1998), 395–400  isi
6. A. P. Kuryachii, A. V. Kazakov, “Linear stability of internal vortex flows”, Zh. Vychisl. Mat. Mat. Fiz., 38:10 (1998),  1767–1773  mathnet  mathscinet  zmath; Comput. Math. Math. Phys., 38:10 (1998), 1695–1700
1997
7. A. V. Kazakov, M. N. Kogan, A. P. Kuryachii, “The effect of the thermal properties of a body being flown about on friction and heat transfer under conditions of local heat input to a turbulent boundary layer”, TVT, 35:1 (1997),  61–66  mathnet; High Temperature, 35:1 (1997), 58–63  isi
1996
8. A. V. Kazakov, “The calculation of swirling flow of viscous heat-conducting gas in a slightly divergent pipe with heat input”, TVT, 34:4 (1996),  560–566  mathnet; High Temperature, 34:4 (1996), 555–561  isi
9. A. V. Kazakov, M. N. Kogan, V. A. Kuparev, “Laminarization of boundary layer under conditions of negative pressure gradient and surface heating”, TVT, 34:2 (1996),  244–249  mathnet; High Temperature, 34:2 (1996), 238–243  isi
10. A. V. Kazakov, M. N. Kogan, V. A. Kuparev, “Delay of laminar-turbulent transition by means of intensive localized heating of the surface in the vicinity of the leading edge of the plate”, TVT, 34:1 (1996),  46–51  mathnet; High Temperature, 34:1 (1996), 42–47  isi  scopus
1995
11. A. V. Kazakov, M. N. Kogan, A. P. Kuryachii, “The effect of local surface heating on friction in a turbulent boundary layer on a plate”, TVT, 33:6 (1995),  888–894  mathnet; High Temperature, 33:6 (1995), 884–890  isi
1985
12. A. V. Kazakov, M. N. Kogan, V. A. Kuparev, “Increase in the stability of subsonic boundary layer upon heating of the surface near the leading edge of a streamlined body”, Dokl. Akad. Nauk SSSR, 283:2 (1985),  333–335  mathnet  zmath

Organisations
 
Contact us:
 Terms of Use  Registration  Logotypes © Steklov Mathematical Institute RAS, 2020