UA28262U - Complex for production of hydrogen and fuel elements - Google Patents

Abstract

A complex for production of hydrogen and fuel elements, in which on the carrying tower of each wind power station a hydraulic accumulator, a hydraulic motor with electric generator and a tank for working fluid with two hydraulic cylinders, a bracket, a rocking arm and a float are installed. The release valves of hydraulic cylinders and hydraulic pump are connected to the hydraulic accumulator by means of delivery conduits with check valves, hydraulic pump and hydraulic motor are connected to the tank for working fluid by means of servicing conduits, and hydraulic accumulator is connected to hydraulic motor by means of supply conduit.

Description

Description of the invention

A useful model refers to the electric power industry, namely to the generation of cheap environmentally friendly 2 electricity.

A hydro-wind power plant is known, which contains a floating platform on which vertical shafts and horizontal rods with blades are mounted, see patent of the Russian Federation Mo2.248.46202, IPC ROZOZ/00, ROZV17/06, 2002.1.

The rods are made through and installed on the shafts with the possibility of limited rotation relative to their axes, the opposite blades of each rod are rigidly fixed on it perpendicularly to each other and eccentrically 70 to the axis of the rod. At the same time, horizontally adjacent shafts are made to rotate in opposite directions. The blades of the upper location are driven by the flow of wind, and the blades of the lower location are driven by the flow of water.

The disadvantage of the known installation is its low operational qualities, because marine floating platforms have low efficiency due to the absence of powerful currents in the upper layer of the sea. 19 The closest to the proposed technical solution is the complex chosen as a prototype for the production of hydrogen and fuel cells, which is described in (patent of Ukraine Mo76955, IPC B63835/44, ROZO 9/00, 2002.

This complex contains a floating platform on which an electrolyzer for the production of hydrogen, connected to equipment for the production of fuel cells, wave and wind power plants are installed. Each wave power station consists of a rocker on which a float and a bracket are fixed, and a reservoir for the working fluid, in which two hydraulic cylinders with inlet and outlet valves are mounted. Each wind power plant consists of a supporting tower on which a rotating device, a hydraulic pump and a wind wheel are mounted.

Each power plant has a hydroaccumulator, a hydromotor connected to an electric generator, and pipelines that connect its hydrounits.

Wave and wind power stations are autonomous and do not depend on each other: each station has its own generator. But the action of the wind and the action of the waves are variable factors, as a result of which electric generators at different power stations produce electric energy with different parameters (power, frequency, etc.).

The disadvantage of the well-known complex is its low operational qualities, such as: - high complexity of the complex, because each power station has its own hydromotor and its own electric generator; - the complex occupies a large area on the floating platform, because each station is located separately; c - low quality of electrical energy; Ge) - low reliability of the hydraulic system of the wind power plant, because it does not have a reservoir of working fluid; - a large bending moment acting at the place of attachment of the float with the bracket; c - large loads acting on the rocker arm and hydraulic cylinders from large waves. with

The basis of the useful model is the task of creating an improved design of the complex for the production of hydrogen and fuel cells, which would allow to ensure the improvement of its operational qualities by introducing new elements and technical solutions into it, such as: - a hydroaccumulator, a hydromotor are mounted on the supporting tower of each wind power plant with an electric generator and a tank for the working fluid with two hydraulic cylinders, a bracket, a rocker and a float, which allows you to combine units in each pair of wave and wind power stations and, thus, to simplify the complex and reduce its area; c - the exhaust valves of hydraulic cylinders and the hydraulic pump are connected to the hydraulic accumulator by means of pressure valves

From" pipelines with non-return valves, the hydraulic pump and hydraulic motor are connected to the tank for the working fluid by means of filling pipelines, and the hydraulic accumulator is connected to the hydraulic motor by means of a supply pipeline, which allows creating a single hydraulic system in each pair of power plants and, in this way, increasing its reliability functioning and quality of electrical energy; di - vertical guides are mounted on the floating platform, in which a float is installed with the possibility of movement, which allows to reduce the load on the bracket; - stops are made on the ends of the vertical guides to limit the movement of the float during large waves, which allows to reduce the load on the rocker arm and hydraulic cylinders from the action of large waves. b 20 The task is solved in such a way that in the proposed complex for the production of hydrogen and fuel cells, which contains a floating platform on which an electrolyzer for the production of hydrogen is installed, o equipment for the production of fuel cells, wave power plants, each of which consists of a float, a bracket . power supply, in it a hydraulic accumulator, a hydraulic motor with an electric generator and a tank for working fluid with two hydraulic cylinders, a bracket, a rocker arm and a float are mounted on the supporting tower of each wind power station, while the outlet valves of the hydraulic cylinders and the hydraulic pump are connected to the hydraulic accumulator by means of pressure pipelines from the valves, the hydraulic pump and the hydraulic motor 60 are connected to the reservoir for the working fluid by means of filling pipelines, and the hydraulic accumulator is connected to the hydraulic motor by means of the supply pipeline. Vertical guides are mounted on the floating platform, in which a movable float is installed. Stops are made on the ends of the vertical guides to limit the movement of the float during large waves.

To explain the design of the complex and its operation, drawings and its detailed description are attached. 62 drawings show:

- in Fig. 1 - a general view of the floating platform of the complex; - in Fig. 2 - view A of Fig. 1 (general view of the power plant).

The proposed complex consists of a floating platform 1, on which electrolyzers 2, equipment C and power station 4 are installed (Fig. 1).

Each power station 4 consists of a supporting tower 5, on which are mounted: a rotation device 6 with a hydraulic pump 7 and a windmill 8, a hydraulic accumulator 9, a reservoir 10 for the working fluid, a hydraulic motor 11 and an electric generator 12 (in Fig. 2, the hydraulic motor 11 and the electric generator 12 are conventionally depicted on the deck of the floating platform 1). Two vertical hydraulic cylinders 13 with inlet 14 and outlet 15 /o valves are placed in the tank 10, and a rocker arm 16 is hinged on the walls of the tank 10, which is rigidly fixed with a bracket 17. The bracket 17 is connected to the float 18, which is installed in the vertical guides 19 , fixed on the floating platform 1 and equipped with stops 20. The hydraulic accumulator 9 is connected: to the hydraulic pump 7 by means of the pressure pipe 21 and the check valve 22, to the inlet valves 15 of the hydraulic cylinders 13 by means of the pressure pipe 23 and the check valve 24, to the hydraulic motor 11 by with the help of pipeline 25 of power supply and a reducing valve. The reservoir 10 for the working fluid is connected: to the hydraulic motor 11 by means of the refueling pipeline 26, and to the hydraulic pump 7 by means of the refueling pipeline 27. Spindle oil is used as the working fluid.

The operation of the proposed complex for the production of hydrogen and fuel cells is carried out as follows.

Floating platform 1 is installed in the open sea.

Under the influence of the wind, the hydraulic pump 7 is turned with the help of a rotating device 6 towards the wind flow, and the windmill 8 activates the hydraulic pump 7. The hydraulic pump 7 takes the working fluid from the tank 10 through the filling pipeline 27 and supplies it to the hydraulic accumulator 9 through the pressure pipeline 21.

Under the action of the waves, the float 18, moving up and down, drives the bracket 17 with the rocker arm 16, which, in turn, drives the pistons of the hydraulic cylinders 13. The working fluid through the inlet valves 14 enters the hydraulic cylinders 13 in turn, and through the exhaust valves valves 15 and pressure pipeline 23 - to hydraulic accumulator 9. t

The hydraulic accumulator 9 accumulates the combined energy of wind and waves, and the working fluid enters the hydraulic motor 11 through the supply pipeline 25, and the working fluid returns to the reservoir 10 through the filling pipeline 26. The hydraulic motor 11 rotates the electric generator 12, which provides electrical energy of stable quality for c from electrolyzers 2 and equipment 3. Electrolyzers 2 produce hydrogen from seawater, and equipment C produces fuel cells from hydrogen. X,

As a bracket 17, an arrow with a damper and a toothed sector can be used according to patent

of Ukraine Mo23122A, IPC GOZV 17/00, 1996.

Thus, the proposed complex, which has a simple and reliable design, allows to ensure energy-intensive production of fuel cells by environmentally friendly means. with

Claims (2)

The formula of the invention " 1. A complex for the production of hydrogen and fuel cells, which contains a floating platform, on which an electrolyzer for the production of hydrogen, equipment for the production of fuel cells, wave power stations, each of which consists of a float, a bracket, a rocker, a tank for the working fluid, are installed. :z" of two hydraulic cylinders, inlet and outlet valves, and wind power plants, each of which consists of a supporting tower, a rotating device, a hydraulic pump, a wind wheel, as well as hydraulic accumulators, hydraulic motors, electric generators, pressure and refueling pipelines and supply pipelines, which is distinguished by the fact that a hydraulic accumulator, a hydraulic motor with an electric generator and a tank for working fluid with two hydraulic cylinders, a bracket, a rocker and a float are mounted on the d) supporting tower of each wind power station, while the outlet valves of the hydraulic cylinders and the hydraulic pump are connected to the hydraulic accumulator by means of pressure d) pipelines with non-return valves, hydraulic pump and hydraulic motor or are connected to the reservoir for the working fluid by means of filling pipelines, and the hydraulic accumulator is connected to the hydraulic motor by means of the supply pipeline (22). GE 2. The complex according to claim 1, which differs in that vertical guides are mounted on the floating platform, in which a movable float is installed. Z. The complex according to p. 2, which differs in that the ends of the vertical guides are equipped with stops to limit the movement of the float during large waves. p. 60 b5