EurekaMag.com logo
+ Site Statistics
References:
53,623,987
Abstracts:
29,492,080
+ Search Articles
+ Subscribe to Site Feeds
EurekaMag Most Shared ContentMost Shared
EurekaMag PDF Full Text ContentPDF Full Text
+ PDF Full Text
Request PDF Full TextRequest PDF Full Text
+ Follow Us
Follow on FacebookFollow on Facebook
Follow on TwitterFollow on Twitter
Follow on LinkedInFollow on LinkedIn

+ Translate

Extrapolation of water discharges based on hydrometric identification of equations of motion of the flow in river channels and floodplains



Extrapolation of water discharges based on hydrometric identification of equations of motion of the flow in river channels and floodplains



Soviet Meteorology and Hydrology (8): 70-74



An approximate solution of the equation of a kinematic wave is proposed as an analytical base for extrapolation of water discharges.

(PDF 0-2 workdays service: $29.90)

Accession: 001364990

Download citation: RISBibTeXText



Related references

Full Equations (FEQ) model for the solution of the full, dynamic equations of motion for one-dimensional unsteady flow in open channels and through control structures. 1997

Global flow equations for membrane transport from local equations of motion 2. the case of a single nonelectrolyte solute plus water. Bulletin of Mathematical Biology 41(5): 629-640, 1979

Global flow equations for membrane transport from local equations of motion: I. The general case for (n-1) nonelectrolyte solutes plus water. Bulletin of Mathematical Biology 40(6): 791-805, 1978

Global flow equations for membrane transport from local equations of motion part 1 the general case for n 1 nonelectrolyte solutes plus water. Bulletin of Mathematical Biology 40(6): 791-806, 1978

Upper-flow-regime mud floodplains, lower-flow-regime sand channels; sediment transport and deposition in a drylands mud-aggregate river. Journal of Sedimentary Research 77(9): 702-712, 2007

Identification of synthetic steroids in river water downstream from pharmaceutical manufacture discharges based on a bioanalytical approach and passive sampling. Environmental Science & Technology 48(7): 3649-3657, 2014

Motion-based grouping of optical flow fields: the extrapolation and subtraction technique. IEEE Transactions on Image Processing 6(10): 1358-1363, 1997

Three-dimensional modeling of ground water flow in floodplains; example of central Elbe River. Schriftenreihe der Deutschen Geologischen Gesellschaft 19: 101, 2002

River stage response to alteration of Upper Mississippi River channels, floodplains, and watersheds. Hydrobiologia0: 17-47, 2010

Experimental use of hydrometric survey data for appraising underground flow in rivers with unstable water regimes, based on the central part of the Baikal-Amur Railroad zone. Trudy Gosudarstvennogo Ordena Trudovogo Krasnogo Znameni Gidrologicheskogo Instituta 335: 114-125, 1988

Hydrometric measurement of discharge on the Big River in the unsteady flow conditions. Przeglad Geofizyczny = Geofizicheskoye Obozreniye = Review of Geophysics = Revue de Geophysique 27(3-4): 261-264, 1982

Motion-based prediction explains the role of tracking in motion extrapolation. Journal of Physiology, Paris 107(5): 409-420, 2014

The ecological regime based nomenclature of water discharges in river systems. Russian Meteorology And Hydrology: 10, 670-675, 2008

Environmental effects of aggregate extraction from river channels and floodplains. Pages 113-129:, 1998