SU1105682A2 - Microhydroelectric station - Google Patents

Abstract

MICROHYDROELECTRIC POWER station St. No. 977848, characterized in that, in order to expand the control range when performing a micro-hydroelectric power station with a suction pipe, it is provided with an additional shaft located in the suction pipe and connected to a vertical shaft and mounted on the shaft with a flywheel with upper fairing, and the central area of the suction pipe communicated with a pneumatic valve using a vacuum tube with an adjustable air throttle.

Description

The invention relates to hydropower industry and can be used for the autonomous production of electricity in a micro hydro power plant. According to the main author. St. No. 977848 is known for a micro HPP containing a conical pressure chamber, in the lower part of which there is a guiding device and an impeller mounted on a vertical shaft connected to a generator, and the pressure chamber in the upper part is provided with openings and located in the zone of the latter pneumatic valve with atmosphere 1. A disadvantage of the known micro HPP is that it provides for the regulation of water flow in order to maintain the constant speed of the generator in a narrow range. The purpose of the invention is to expand the range of regulation when performing a micro hydro power plant with a suction pipe. This goal is achieved by the fact that the microhydroelectric power station is equipped with an additional shaft located in the suction pipe and connected to the vertical shaft, and a flywheel with an upper fairing mounted on the shaft, and the central part of the suction pipe communicates with the pneumatic valve using a vacuum tube with an adjustable pneumatic throttle valve. The drawing shows a micro hydroelectric station, a section in a vertical plane. The microHPP conical pressure chamber 1, in the lower part of which the guide apparatus 2 and the impeller 3 are mounted on a vertical shaft 4 connected to the generator 5. The pressure chamber 1 in the upper part is provided with openings 6 and a collector 7 located in the zone of the latter, communicated by means of a pneumatic valve 8 with the atmosphere. MicroHPP with suction pipe 9 is equipped with an additional shaft 10 located in the suction pipe 9 and connected to the vertical shaft 4, and the flywheel 11 with the upper fairing 12 mounted on the shaft 10, and the central zone of the suction pipe 9 communicates with the pneumatic valve 8 using a vacuum tube 13 adjustable throttle 14. The throttle 14 is also equipped with a pulsed vacuum tube 15. The shaft 10 rests its lower part on the pad 16. The micro-hydroelectric station works as follows. Water rushes into the pressure chamber 1, passes through the guide apparatus 2 and then onto the impeller 3, rotating the shaft 4 of the generator 5. With a decrease in the load on the generator 5 and a slight increase in the number of revolutions of the shaft 4, the water passes through the pressure chamber 1 s sufficiently high speed, resulting in a vacuum in the zone of the collector 7. The created vacuum opens the pneumatic valve 8 and sucks the air from the atmosphere through the openings 6 into the chamber 1, due to which the water flow through the micro HPP drops. With a further decrease in the load and a slight increase in the number of revolutions of the shaft 4, the adjustable air throttle 14 responds with its opening to an increase in the vacuum in the central zone of the suction pipe 9 and informs the latter through the vacuum tube 13 through the open pneumatic valve 8 with the atmosphere, the air begins to flow into the suction pipe 9 whereby the water consumption is further reduced. When the load is increased, the air throttle 14 first stops the flow of air into the suction pipe 9, due to the fact that the flow of water through the micro HPP increases, and with a further increase in load, the pneumatic valve 8 closes, thereby stopping the flow of air into chamber 1, resulting in a further increase in the flow of water . The handwheel 1 serves as a fast-acting, but short-lasting regulator, while the air inlet to the pressure chamber 1 and the suction pipe 9 provides a non-fast, but long-lasting regulation. The use of this invention will allow for the automatic regulation of microhydroelectric power stations in the simplest way, without complicated control devices.

Claims (1)

MICROHYDROELECTRIC STATION by ed. St. No. 977848, characterized in that, in order to expand the control range when performing a microhydroelectric power station with a suction pipe, it is equipped with an additional shaft located in the suction pipe and connected to the vertical shaft, and a flywheel with a top cowl mounted on the shaft, and the central zone of the suction pipe is communicated with pneumatic valve using a vacuum tube with an adjustable pneumatic throttle. I 105682