1. bookVolumen 22 (2019): Heft 2 (November 2019)
Zeitschriftendaten
License
Format
Zeitschrift
eISSN
1338-5259
Erstveröffentlichung
06 Sep 2013
Erscheinungsweise
2 Hefte pro Jahr
Sprachen
Englisch
Uneingeschränkter Zugang

Movement of the Suspended Flow in the Open Irrigation Channels

Online veröffentlicht: 01 Nov 2019
Volumen & Heft: Volumen 22 (2019) - Heft 2 (November 2019)
Seitenbereich: 80 - 83
Zeitschriftendaten
License
Format
Zeitschrift
eISSN
1338-5259
Erstveröffentlichung
06 Sep 2013
Erscheinungsweise
2 Hefte pro Jahr
Sprachen
Englisch

ARIFJANOV, A.M. – FATKHULLAEV, A.M. 2014. Dynamics of a suspended flow in the channels. Tashkent : Fan, 2014, 180 p.Search in Google Scholar

ARIFJANOV, A.M. – FATKHULLOEV, A.M. 2017. The program for calculation of dynamic parameters of a turbulent weighing flow. Copyright certificate for computer No. DGU 04730. Intellectual Property Agency of the Republic of Uzbekistan. Tashkent, 2017.Search in Google Scholar

BELOLIPETSKY, V.M. – GENOVA, S.N. 2004. Computational algorithm for determining the dynamics of suspended sediment and bottom sediment in the river bed. In Computation. technology, vol. 9, 2004, no. 2, pp. 9–25.Search in Google Scholar

BOROVKOV, V.S. – BAIKOV, V.N. – PISAREV, D.V. – VOLYNOV M.A. 2012. Local similarity of the flow and velocity distribution in turbulent flows. In Engineering – Construction Journal, 2012, no. 6, pp. 12–19.Search in Google Scholar

BOROVKOV, V.S. Channel processes and dynamics of river flows in urban areas. L: Gidrometeoizdat, 1989, 286 p.Search in Google Scholar

DAS, A. 2008. Chance constrained design of trapezoidal channels. In Journal of Water Resources Planning and Management, vol. 134, 2008, pp. 310–313.Search in Google Scholar

DEBOLSKY, V.K. et al. 1994. Dynamics of channel flows and lithodynamics in the coastal zone of the sea. Moscow : Nauka, 1994, 301 p.Search in Google Scholar

DEPEWEG, H. 2002. Sediment transport applications in irrigation canals. In Irrigation and Drainage, vol. 51, 2002, pp. 167–179. doi: 10.1002/ird.4910.1002/ird.49DOI öffnenSearch in Google Scholar

FIDMAN, B.A. 1991. Turbulence of water flows. Leningrad : Hydrometeoizdat, 1991, 240 p.Search in Google Scholar

FRANKL, F.I. 1953. On the theory of suspended sediment movement. Report. In USSR Academy of Sciences, vol. 92, 1953, no. 2, pp. 247–250.Search in Google Scholar

GRISHANIN, K.V. 1992. Hydraulic resistance of natural channels. St. Petersburg: Gidromnteoizdat, 1992, 133 p.Search in Google Scholar

IBAD-ZADE, Y.A. 1983. Transportation of water in open channels. Moscow : Stroyizdat, 1983, 555 p.Search in Google Scholar

IOVCHU, Y.I. 2006. Model studies of rough channels of canals. Ways to improve the efficiency of irrigated agriculture: Sat. Art. FGNU “RosNIIPM“; by ed. VN Shchedrina – Novocherkassk : Helikon LLC, vol. 36, 2006, pp. 145–150.Search in Google Scholar

KARAUSHEV, A.V. 1977. Theory and methods of calculation of river sediments. Leningrad : Gidrometeoizdat, 1977, 270 p.Search in Google Scholar

LATIPOV, K.Sh. – ARIFJANOV, A.M. 1994. Issues of motion of a suspended flow in open channels. Tashkent : Publisher “Mekhnat“, 1994, 110 p.Search in Google Scholar

LATIPOV, K.Sh. – UMAROV, A.I. 1969. On the coefficient of interaction of multiphase media. In Questions of Mechanics, 1969, no. 7, pp. 57–60.Search in Google Scholar

LEE, C-H. – HUANG, Z. – CHIEW, Y.-M. 2015. A multi-scale turbulent dispersion model for dilute flows with suspended sediment. In Advances in Water Resources, vol. 79, 2015, pp. 18–34. https://doi.org/10.1016/j.advwatres.2015.02.00210.1016/j.advwatres.2015.02.002DOI öffnenSearch in Google Scholar

MIKHAILOVA, N. A. 1966. Transfer of solid particles by turbulent water flows. Hydrometeorological publishing house, 1966.Search in Google Scholar

PAL, D. – GHOSHAL, K. 2017. Hydrodynamic interaction in suspended sediment distribution of open channel turbulent flow. In Applied Mathematical Modelling, vol. 49, 2017, pp. 630–646. doi: 10.1016/j.apm.2017.02.04510.1016/j.apm.2017.02.045DOI öffnenSearch in Google Scholar

ROSSINSKY, K.I. – DEBOLSKY, V.K. 1960. River sediments. Moscow : Science, 1960, 215 p.Search in Google Scholar

VELIKANOV, M.A. 1955. Dynamics of channel flows. Moscow : Gostekhizdat, 1955, 323 p.Search in Google Scholar

VOLGIN, V.G. 2009. The influence of the length of the implementation of the velocity pulsations on the accuracy of the calculation of turbulent shear stresses. Moscow. In Vestnik MGSU, 2009, no. 9, pp. 93–99.Search in Google Scholar

ZIDSHLAG, S. 2008. Modern method of measuring the flow rate used in the measurement of water consumption by the standard method. In Journal of Meteorology and Hydrology, 2008, no. 10, pp. 100–104.Search in Google Scholar

Empfohlene Artikel von Trend MD

Planen Sie Ihre Fernkonferenz mit Scienceendo