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Operating stability of hydroelectric stations with downstream surge tanks (1995)

Murav'ev, O. A. ; Berlin, V. V.

Springer

In: Power Technology and Engineering. 1995; 29(4): 242-247. Published 1995 Apr 01. doi: 10.1007/bf01545801.

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Publication Date: 1995-04-01

Print ISSN: 1570-145X

Electronic ISSN: 1570-1468

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by Springer

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Underground pumping station (1997)

Mostkov, V. M. ; Kubetskii, V. L. ; Berlin, V. V. ; [et al.]

Springer

In: Power Technology and Engineering. 1997; 31(9): 528-532. Published 1997 Sep 01. doi: 10.1007/bf02767229.

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Publication Date: 1997-09-01

Print ISSN: 1570-145X

Electronic ISSN: 1570-1468

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by Springer

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3

Electronic Resource

Mathematical modeling of hydraulic regimes in the transition between the surge tank and conduits of a hydroelectric station (1984)

Arshenevskii, N. N. ; Berlin, V. V. ; Murav'ev, O. A.

Springer

Power technology and engineering 18 (1984), S. 105-110

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ISSN: 1570-1468

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Conclusions 1. The introduction into design practice of computer calculations of transients led, on one hand, to an increase of possibilities for analyzing various operating regimes of surge tanks, including those which investigators have lost sight of, and, on the other hand, required considerable expansion of the volume of data characterizing the operation of conduits, branches, and local resistances. 2. The developed method permits analytic determination of the relationship between the specific energies of flows in the fork of a tank in the complete range of its operating regimes. In this case two values of the resistance coefficient are used, one of which is determined with respect to the regime of the entry of the total flow from the diversion into the tank and the second with respect to the entry of the total flow from the tank into the diversion. 3. As a result of analyzing Soviet and foreign data of investigations of the hydraulics of forks [3, 4, 5] it was established that the resistance coefficient of a transition between a tank and conduits is composed of a constant component which depends on the geometry of the transition and a variable component determined by the relationship of discharges in the branches. 4. The use of the proposed analytic relations in calculating transitions on a computer increase the quality of modeling and reliability of the results obtained.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01428698

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Electronic Resource

Optimization of design parameters of complex surge tanks (1984)

Arshenevskii, N. N. ; Berlin, V. V. ; Murav'ev, O. A.

Springer

Power technology and engineering 18 (1984), S. 145-148

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ISSN: 1570-1468

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Conclusions 1. The proposed method of optimizing the design parameters permits automated design of various types of surge tanks. 2. For each particular type of surge tank the method calls for specific schemes of selecting the design parameters meeting the prescribed boundary conditions. 3. The method makes it possible to compare variants of surge tanks of various types with respect to their cost. The diversion is not taken into account, since a unified maximum pressure is assigned as the initial conditions of calculation in it.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01425122

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5

Electronic Resource

Operating stability of hydroelectric stations with downstream surge tanks (1995)

Murav'ev, O. A. ; Berlin, V. V.

Springer

Power technology and engineering 29 (1995), S. 242-247

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ISSN: 1570-1468

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Conclusions 1. Hydraulic investigations of T-shaped forks made it possible to refine the character of head losses in the junction of the tank with the conduits. The use of the dependences obtained in calculating the stability of the regimes of a hydroelectric station just due to a more accurate consideration of the effect of the velocity head in the base of the surge tank permits substantiating a considerable decrease of the critical area of downstream surge tanks. 2. In calculations of the critical area of downstream surge tanks it is necessary to include in total head losses the velocity head in the outlet section of the outflow channel. In this case the value of the critical area decreases. 3. The proposed method of analyzing the stability of HES regimes with the use of the Routh algebraic criterion permits relating the adjustment parameters of the ARS, turbine characteristics, and power system among themselves to the area of the surge tank and solving the problem of stability in the complex. 4. At hydrostations with short outflow pressure conduits it is advisable to take small, up to 10% of the Thoma critical, cross-sectional areas of the surge pipe of a surge tank with an expansion chamber. This makes it possible, on one hand, to reduce the amount of works on the tank and, on the other, to provide stable regimes of the hydrostations while retaining the adjustment parameters of the ARS.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01545801

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