Automated Operation of Pumping Stations in Soviet Union
Publication: Journal of Irrigation and Drainage Engineering
Volume 118, Issue 4
Abstract
One of the problems in high capacity pumping stations (called crossover pumping stations in Russia is controlling the pump discharge as a function of the difference in demand and actual flow. This paper presents a mathematical model that enables the design engineer to optimize the parameters early in the design process, thereby overcoming large corrections later on.
Get full access to this article
View all available purchase options and get full access to this article.
References
1.
Atavin, A. A. (1975). “Calculation of unsteady water flow in ramified systems of river beds of channels.” Dynamics of solid medium, (22), Institute of hydromechanics, Siberian Department of the Academy of Sciences, of the Novosibirsk, Russia (In Russian).
2.
Boman, B. J., and Hill, R. W. (1989). “LP operation model for on‐demand canal systems.” J. Irrig. and Drain Engrg., ASCE, 115(4), 684–700.
3.
Corriga, G., Salimbeni, D., Sanna, S., and Usai, G. (1988). “A control method for speeding up response of hydroelectric station power canals.” Appl. Math. Modelling, 12, 627–633.
4.
Ermolin, Y. A. (1990). “Power‐optimal control of a municipal sewer system.” Instrumentation, Control and Automation of Water and Wastewater Treatment and Transport Systems, Pergamon Press, London, U.K., 519–522.
5.
Kovalenko, P. I. (1983). “Automatization of land‐reclamation systems.” Kolos, Moscow, Russia (in Russian).
6.
Makovski, E. E., and Volchkova, V. V. (1977). “Automatization of processes of the transformation of a uniform water flow.” Ilim, Frunze, Russia (in Russian).
7.
Makovski, E. E., and Volchkova, V. V. (1984). “Automatization of hydrotechnic constructions.” Ilim, Frunze, Russia (in Russian).
8.
Margolin, M. S. (1990). “Optimization of parameters of irrigating channels with automatized water‐distribution.” Methods of increasing the crop capacity of reclamated lands and decreasing specific water consumption, Soyuzvodproekt, Moscow, Russia (in Russian).
9.
Rozhdestvenski, B. L., and Yanenko, N. N. (1968). “Systems of quasi‐linear equations, and application of them to the gas dynamics.” Nauka, Moscow, Russia (in Russian).
10.
Vasiliev, O. F., and Godunov, S. K. (1963). “Numerical method of calculating the wave distribution in open beds, and its applications to the problem of flood.” Reports of the Academy of Sciences of the USSR, 151(3), Moscow, Russia (in Russian).
11.
Zimbelman, D. D., and Bedworth, D. D. (1983). “Computer control for irrigation‐canal system.” J. Irrig. and Drain Engrg., ASCE, 109(1), 43–59.
Information & Authors
Information
Published In
Copyright
Copyright © 1992 ASCE.
History
Published online: Jul 1, 1992
Published in print: Jul 1992
Authors
Metrics & Citations
Metrics
Citations
Download citation
If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.