SU1645595A1 - Method of operation of hydroelectric stations - Google Patents

Abstract

This invention relates to hydropower. The goal is to increase efficiency and reliable, and hydroelectric power stations and an increase in electricity generation. The proposed method is implemented using a device containing hydraulic units 1 with standard impellers and 3 generators 2 Hydraulic units connected to the reservoir via pipelines 3, 5, 7 with water inlets 4, 6, 8 The generator 2 is equipped with an automatic excitation regulator 9 and connected through an adjustable transformer 10 to converter 11 The converter contains rectifier and inverter units 12 and 13, and the last 14 and 1 control systems. Synchronous compensator 16 is equipped with an automatic excitation controller. 17 When the reservoir is filled, the hydro unit is operated at lower frequencies, which allows to increase the efficiency and reliability of hydroelectric power plants, while increasing the frequency of the current to the network frequency is provided by means of converter 11. The possibility of operating hydroelectric power stations at low pressures with standard impellers provides an increase in electricity generation 2 or less C / WITH

Description

The invention relates to (idenergy and can be used in the operation of a hydroelectric power plant during the start-up period with significant fluctuations in pressure.

The aim of the invention is to increase the efficiency v of the reliability of hydroelectric power stations and increase the production of electricity.

Figure 1 shows a diagram of a hydroelectric station, during operation of which the proposed method can be used, in figure 2 - a diagram of the electric part of a hydroelectric power station.

The hydroelectric power plant contains hydraulic units 1 with standard impellers

(not indicated in the drawing) and generators 2. Hydraulic units 1 are connected to the reservoir by means of pipelines 3,5,7 with water intakes 4,6 and 8 The electric part of the hydroelectric power station contains an automatic generator excitation regulator 9, an adjustable transformer 10 and a converter 11 connected through a transformer 10 to the generator 2 and including the rectifying and inverter units 12 and 13 of the control system of the rectifying and inverting units 14 and 15 and the synchronous compensator 16, equipped with an automatic excitation controller Synchro compensator 17.

about s / a h: sg

The method is carried out as follows.

Install hydraulic units with standard impellers. The rotor speed is set to correspond to the maximum efficiency for a given head, and the equality of the frequency of the generated current to the mains frequency is carried out by comparing these frequencies and changing the frequency of the current by sequentially straightening the latter using rectifier unit 12 and inverting with inverter unit 13 The control of the blocks 12 and 13 is carried out using control systems 14 and 15. The voltage regulation on the load side and the supply of the inverter unit 13 reactive power This is provided by a synchronous compensator 16.

With this implementation of the method, during the period of filling the reservoir, the impellers are operated at lower frequencies with maximum efficiency and without limiting the power.

five

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conditions of cavitation resistance, and, in addition, it is possible to vary the reservoir filling schedules.

Claims (1)

The invention The method of operating a hydroelectric station with fluctuations in pressure, including installing hydraulic units with standard impellers and adjusting the frequency of rotation of the impellers by setting this frequency, comparing the frequency of the generated current with the frequency of the network and ensuring the equality of the latter by varying the current with the help of regulators, that, in order to increase efficiency and reliability and improve the environmental performance of hydropower plants, the rotational speed of the wheels sets the corresponding maximum the overall efficiency for a given head, and the change in the frequency of the produced current is carried out by successively straightening and inverting the latter. / FIG. one 2