SU892011A1 - Stand for cavitation investigations of hydraulic turbines - Google Patents

Description

one

This invention relates to hydraulic turbines and can be used in test benches for the study of hydraulic turbines.

Closest to the invention, the technical essence is a cavitation test bench for hydro turbines, which contains a feed pump connected by a pressure conduit to a test turbine connected to a vacuum tank connected to the suction pipe of feed pump 1 fLZj.

However, the use as the main elements of a vacuum system for a vacuum tank of pumps having rotating parts complicates the design.

11 of the invention is the simplification of stand structures.

This goal is achieved by the fact that the stand additionally contains a sealed container having a level gauge and a drain pipe with a throttle connected with a vacuum tank pipe, and a drain valve is additionally installed on the latter.

The drawing shows the scheme of the stand.

The bench for cavitational studies of hydraulic turbines contains a feed pump 1 connected by a pressure conduit 2 to a test turbine 3 connected to a vacuum tank 4 connected to the suction pipe 5 of the feed pump 1. The stand further comprises a sealed container 6 having a level gauge 7 and a drain pipe 6 seconds choke 9 connected to a vacuum tank 4 by a pipe 10, on which a drain valve 11 is additionally installed.

The stand works as follows.

Claims (2)

After filling the stand, including the hermetic tank 6, with water from the technical water supply, the feed pump 1 is turned on, from which water flows through the conduit 2 to the test turbine 3 and then through the vacuum tank 4 and the suction pipe 5 returns to the pump 1, Drain valve 11 at this time is open. Then the other valve 11 is closed, the required opening of the vanes of the guide vane (not shown) of the turbine 3 is established, and the pump 1 is the working head of the stand. Next, the throttle 9 opens, and as the water level decreases in - f J pUtJHH of the water in the hermetic tank 6 decreases: even in the vacuum tank 4 and at the outlet from the test turbine 3, as a result, the latter works. In studying the development and erosive effects of various forms of cavitation, it is necessary to maintain a predetermined pressure in the vacuum tank 4. To reduce the pressure in the vacuum tank 4 to a specified value resulting from a decrease in the water level in the airtight container 6, the throttle 9 is applied, which ensures constant The water level in the hermetic tank 6, the pressure in the vacuum tank 4 and at the outlet from the test turbine 3, and allows using special technical means to make a study of the development of the mouth ovivsheys shapes cavitation. To switch to another mode of operation (reduction of pressure in the vacuum tank), using the throttles 9, the required level of water in the hermetic tank 6 is established. When generating water from the hermetic container b, prior to 11 opening the drain valve 11, it is added to it from the technical water supply. Further, the drain valve 11 is closed and the testing process can be resumed. Use as a main element of the vacuum system of an airtight container is equal to & t drip. b ™ en1G ° ™ hydro turbines with the use of vacuum pumps, which greatly simplifies the design of the stand. . Formula of the invention A bench for cavitation studies of hydro turbines, containing a feed pump connected by a pressure conduit to a test turbine connected to a vacuum tank connected to the feed pipe of the feed pump, characterized in that, in order to simplify the design, the stand additionally contains a sealed container having a level gauge and drain piping with a choke, connected to the vacuum tank piping, and on the latter an additional drain valve is installed. Sources of information taken into account in the examination of 1, Chistkov A. M. Study of hydro-turbine power units of hydroelectric power plants. L., Energie, 1972, p. 148. 2. Smirnov I., N. Hydraulic Tours and Pumps, M ,, Higher School, 1969, p. 167. I I I H (I I I I III J tliiii w "M