UA26772U - Gas hydro-electric power plant - Google Patents

Abstract

A gas hydro-electric power plant has at least one gas power plant placed in cavity of reservoir with working agent, hydro-turbine and connecting pipeline connected by one end to hydro-turbine. The gas power unit is arranged as airtight chamber and is provided with float-valve fixing level of working agent in it. The gas power plant is partially filled with compressed gas, partially with liquid and is placed inside the reservoir with working agent at depth providing increased outer pressure compared to pressure inside the chamber. The connecting pipeline is placed inside the liquid of gas chamber, and float-valve is placed in it at other end going to the reservoir with working agent.

Description

Description of the invention

The utility model refers to power generating devices that use the energy of a falling liquid and 2 can be used to generate electricity.

The closest analogue to a useful model in terms of technical essence is a gas hydroelectric power plant, which contains at least one gas power plant placed in the cavity of the pool with the working agent, a hydro turbine and a connecting pipeline connected at one end to the hydro turbine, and the gas power plant is made in in the form of a sealed chamber and equipped with a float valve that fixes the level of the working agent in it at least 70, a control unit, spark plugs, a combustion chamber, a pressure stabilizer, a spring, a hydro turbine. Due to the combustion of natural gas in the combustion chamber, increased pressure is created, while the liquid activates the hydroturbine (see patent of KO Mo2154171, 2000).

The disadvantage of this device is that in order to obtain increased pressure for the movement of liquid, it is necessary to burn natural gas in the combustion chamber and stabilize the pressure. The design of the device is energy-dependent and inefficient 72 and requires constant burning of natural gas.

The basis of a useful model is the task of creating such a gas power plant, in which, by changing its internal filling and location, it is possible to simplify the design of the device due to the exclusion of natural gas combustion from the work cycle, while simultaneously increasing the efficiency.

To solve the problem, a gas hydroelectric power plant is proposed, which contains at least one gas power plant placed in the cavity of the pool with the working agent, a hydro turbine and a connecting pipeline connected at one end to the hydro turbine, and the gas power plant is made in the form of a sealed chamber and equipped with a float a valve that fixes the level of the working agent in it, in which, according to a useful model, the gas power plant is partially filled with compressed gas, partially with liquid and is located inside the pool with the working agent at a depth that provides an increased external pressure compared to the pressure 22 inside the chamber, and the connecting pipeline is located inside the liquid of the gas chamber, and the above-mentioned float valve is located in it at the second end, which goes into the pool with the working agent.

In the proposed hydroelectric power plant, the liquid flow is formed due to the high pressure of the gas in the sealed chamber, and the high pressure of the liquid outside it. high school

The drawing shows the scheme of the proposed power plant. -

The gas hydroelectric power plant consists of a hydro turbine 1, a crane 2, a pipe 3, which is connected to the hydro turbine 1 at one end, and its other end 7 is equipped with a float valve 6, a sealed chamber 4, and a pneumatic duct 5.

The device works like this. Gee)

The hydroturbine 1 is placed above the surface of the liquid and is connected to the sealed chamber 4 through the pipe C with the tap 2, which is in the closed position before the device starts working. Hermetic chamber 4, partly filled with liquid and partly with gas and pumped through the pneumatic inlet 5, sinks to a depth with sufficient pressure of the surrounding liquid. After opening the tap 2, the liquid in the hermetic chamber 4 rises under gas pressure through the pipe C to the hydroturbine 1, from where it reaches its destination. At the same time, the amount of liquid and gas pressure in the sealed chamber 4 decreases, and so the float valve 6 lowers and opens the C passage at the end 7 of the pipe 3, while closing the passage in the pipe 3. The surrounding liquid, under its own pressure, through the open passage on ends 7 of pipe 3, enters the hermetic chamber 4. As it fills with the surrounding liquid

From" the sealed chamber 4, the gas in it is compressed again, and the float valve 6 rises and closes the passage at the end 7 of the pipe 3, opening the passage in the pipe 3, after which the liquid repeats the entire cycle of the device.

It should be noted that the pipe 3, in the sealed chamber 4, is immersed in the liquid to prevent its depressurization. yuyu 45 The rise of liquid can be used for any purpose.

F

Claims (1)

The formula of the invention -AND -I 50 Gas hydroelectric power station, containing at least one gas power plant placed in the cavity of the pool with the working agent, a hydro turbine and a connecting pipeline connected at one end to the hydro turbine, g" and the gas power plant is made in the form of a hermetic chamber and is equipped with a float valve that fixes the level of the working agent in it, which is characterized by the fact that the gas power plant is partially filled with compressed gas, partially with liquid and is located inside the pool with the working agent at a depth that 22 provides an increased external pressure compared to the pressure inside the chamber, and the connecting pipeline c is located inside the liquid of the gas chamber, and the float valve is located in it at the second end, which goes into the pool with the working agent. 60 b5