RU62683U1 - Autonomous reversible centrifugal pump - Google Patents

Abstract

An original autonomous reversible centrifugal pump is proposed, which contains a snubber stator, a blade rotor and a driving motor, which allows direct conversion of the chemical energy of water and aqueous solutions into other types of useful energy and separately or simultaneously produces mechanical, electrical, and thermal energy from water through the effect of electric shock in water filled into the working chamber of the device due to the introduction of additional electrohydroraz into the classical design of a centrifugal pump yadnoy camera. hydraulically connected to one of its working openings, for example, to a tangential outlet in a spiral scroll of the pump housing with the axial opening of the pump housing completely muffled, and through an electric discharge spark plug screwed into it - electrically when connected to an additional pulse-frequency voltage converter connected electrically to the battery and to the stator windings of the racing electric motor.

Description

The utility model relates to mechanical engineering, motor engineering, electric power industry, heat power engineering, electrochemistry and can be useful to use both in full or in part to obtain certain types of useful energy (mechanical, electric and thermal) from the chemical energy of water through centrifugal pumps and using electropercussion Yutkin effect.

There are various methods and devices for converting water energy into other types of energy, for example, its kinetic energy into mechanical energy of rotation of various hydroturbines by using the energy of a water stream, for example, in hydroelectric power plants. However, these devices are limited in implementation because they require the presence of a flow of liquid, water and are very energy- and material-intensive in implementation.

Known methods and devices for converting into thermal energy by chemical electrolysis of water with the production and subsequent combustion of H2 and O2, simultaneously into thermal and electric energy by converting it into a vapor state by means of heat supplied to water from fuel combustion and others. However, these well-known technical solutions, analogues do not allow direct conversion of the chemical energy of water into mechanical energy, are ineffective in terms of energy performance and costs, material consumption and payback periods.

A known method and device for the direct conversion of chemical energy of water into thermal energy through its forced rotation (Ranke effect), however, this method and devices are ineffective in terms of output indicators and require an external supply of a significant amount of electricity to drive the pump to create the effect of water rotation.

A known method for the direct conversion of chemical energy of water into mechanical energy of the translational motion of the body (patent SU 792003). The chemical energy of water is released in the known invention from water by electric discharge in it and the formation of electro-hydraulic shock and the resulting pressure wave of the liquid. This wave of water pressure drives the piston of a well-known water motor ... However, this invention, despite all its advantages, does not allow the direct conversion of a liquid pressure wave into a rotation of a turbine. And therefore, it does not allow the direct conversion of the chemical energy of water in a closed and constant volume of the working chamber, into the kinetic energy of rotation of a mechanical working body - the turbine rotor, which reduces its efficiency and significantly narrows its scope.

The purpose of the invention is to develop a useful model of the device - an electro-hydraulic turbine for directly converting the chemical energy of water into kinetic energy of rotation of a turbine, for example a blade rotor of a modernized centrifugal pump, to generate kinetic, electric and thermal energy from the internal energy of water.

The closest device in design and for the same purpose to the claimed utility model in terms of features is a typical hydraulic turbine, for example, made in the form of a standard centrifugal hydraulic pump. A standard centrifugal pump (prototype) containing a hollow body with two working openings, one of which is a tangential outlet in the form of a spiral scroll, and an axial inlet in the suction nozzle of the housing cover, hydraulically connected along the axis of rotation with the cavity in the rotor, for passing through him to the blades of the rotor of the pumped fluid to the blades of the rotor. made in the form of a blade impeller, rigidly fixed to a common shaft with a racing electric motor (BSE, t.2. p.616, M., 1991)

The essence of the prototype, the well-known centrifugal pump, consists in the fact that when the rotor is forcibly rotated by a drive motor, the pump rotor blades pump liquid through it. which moves with acceleration from the axial inlet to the rotor blades to the tangential exit of the pump. Kinetic energy is transferred from the impeller to the fluid due to the dynamic interaction of the impellers with the fluid flowing around them, which is captured by the rotor blades and is discarded by centrifugal forces to the periphery of the pump casing and then enters the cochlea of the pump casing and is expelled tangentially outward, with the formation of a passing fluid flow through pump. The performance of the centrifugal pump is regulated by changing the rotor speed. Moreover, to reduce leaks and increase the strength of the blades on the sides are closed by disks of the pump casing.

With all the advantages of the prototype, (simplicity and efficiency), its scope is quite narrow and it is intended only for pumping liquids, and for its operation a racing motor is required, which is necessary for the forced rotation of the blade rotor. Therefore, without the use of an energy-consuming racing electric motor, the known centrifugal pump cannot operate in a reversible mode of a turbo-hydroelectric generator and cannot produce mechanical electrical and thermal energy without supplying external electricity from outside.

The aim of the invention is the modernization of the known device of a centrifugal pump, to obtain through it from water mechanical, thermal and electrical energy.

The technical result of this utility model is the technical improvement of the known device, necessary to achieve the goal.

The specified technical result is achieved by the fact that the known device of a centrifugal pump for pumping liquids containing a stator and a blade rotor located on a common shaft with a racing electric motor, as well as a coaxial inlet in the housing and rotor for introducing fluid into the pump and a tangential outlet in the stator, additionally equipped with an electric discharge chamber, muffled from the outside, and on the other hand hydraulically connected to one of the working openings of the pump, the second working opening The pump casing is reliably sealed, and the entire working cavity of the stator and the electric discharge chamber is filled with liquid, for example, water, the electric discharge chamber being equipped with an electric spark plug screwed onto its muffled end surface, and the central electrode of the spark plug is electrically connected via a step-up pulse-frequency voltage converter to battery and through the relay to the output of the stator windings of the racing engine.

The essence of the device The proposed device based on a standard, but modified centrifugal pump allows you to extract and use chemical energy from water through electrical discharges in water, followed by the formation of an electric shock effect in it (Utkin effect). A device that implements this method is a reversible electro-hydraulic turbine (EGT) consists essentially of three nodes -

1. a standard hydraulic turbine, for example, a centrifugal pump with a tangential nozzle of its body, embedded in the working cavity of a hydraulic turbine

2. a hollow electrohydrodischarge chamber, extended outside the turbine, (centrifugal pump housing), muffled from the outside and hydraulically connected to it from the second working side through this tangential hollow pipe in the pump housing, with the internal cavity of the pump housing containing the two mentioned elements is filled with water or an aqueous solution

3. an electric part containing a storage battery, a driving electric motor used in a reversible mode as an electric generator, and a high-voltage pulse-frequency voltage converter connected at the output to the central electrode of an electric spark plug screwed into this

an electrohydrodischarge chamber, and electrically connected to the storage battery and stator windings of the said ton electric motor at the input.

The essence of the device The rotation of the rotor and with it the ton engine in the reversible mode of operation of this centrifugal pump is achieved by transmitting a water pressure wave from an electro-hydraulic shock from a separate separate electric discharge chamber (ERC) directly to the blades of a turbine rotor, for example, by transmitting this pressure wave through a tangential input in a snug housing of a centrifugal pump, when the axial hole in the pump housing is muffled, or through the central axial inlet of a centrifugal pump of the pump, with its second hole plugged in the tangential nozzle of the housing in

Isolation and useful use of the internal chemical energy of water in the form of pressure energy in water and heat in it when the Yutkin effect is realized in it is carried out in a closed electrochemical cycle according to the formula 2Н2O + electric discharge = 2Н2 + O2 electrohydroshock = 2Н2O + 484 kJ. in a completely enclosed volume of water in the working chamber, which is converted directly into the kinetic energy of rotation of the rotor of the centrifugal pump, and, further, by electromechanical conversion of energy from a common shaft by an electric motor operating in the mode of an electric generator into electric energy, some of which is returned to create electric discharges in water, and another part of the generated electricity is useful in other electrical consumers. Moreover, the water in such a device is a source of mechanical energy and at the same time a working fluid, providing rotation of the centrifugal pump rotor in a closed volume of water, and a source. at the same time a source of thermal energy, since it heats up during cavitation and restoration processes in it during cyclic electrohydroshocks.

Figure 1, 2, shows a simplified proposed device, made structurally in the form of a modernized centrifugal pump. In Fig. 1, a general block diagram of the device is shown, and Fig. 2 shows in more detail the design of the stator and rotor of the modernized centrifugal pump - the position numbering is through in Fig. 1.2.

The device contains a standard centrifugal pump 1, consisting of a spiral snail hollow body (stator) 2, an impeller rotor 3 inserted inside it with an axial fluid supply through an axial inlet pipe 4, supplemented by an electric discharge hollow chamber 5 with a working cylinder 6. blanked from the outside , and an output nozzle 7, hydraulically tightly connected to the inlet pipe 4 of the pump 1, and on the muffled end of the cylinder 6

An electric spark plug 8 is placed (screwed) into an electric spark plug 8, comprising an electric insulator 9 and high-voltage electrodes 10 (only one electrode is shown for simplicity) electrically connected via a controlled boost pulse-frequency voltage converter 11 to the battery 12 and via a relay (not shown ) to the windings of the racing electric motor 13, located on a common shaft 14 with the rotor 3 of the pump 1, and the tangential output 15 of the snail housing 2 of the pump 1 is hermetically and firmly closed by a plug 16, and everything is working the hollow space of the closed compartment, including a hollow body 2, a rotor 3 and a hollow electric discharge chamber 5 is filled with a liquid, e.g., water.

In another embodiment of the device based on the modernized centrifugal pump 1, the electric-discharge chamber 5 can be hydraulically connected to the tangential nozzle 15, and the plugs 16, in this embodiment, the device is placed on the inlet nozzle 4, to form a completely closed working chamber with water.

In the particular case of another design of the device for intensifying heat dissipation in water with electroshocks and the beneficial use of thermal energy of the liquid, the device is performed with an open tangential output 15 of the housing 2 connected by a closed loop of the pipeline containing heat radiators from tangential output 14 to an additional tangential input into the working cavity the stator housing 2 of the pump 1, (not shown) or to the electric discharge chamber 5 through an additional tangential entrance to the working cylinder p 6 (Figures 1, 2 are not shown), the nozzle 7 can be designed as Laval cavitation nozzles for intensification of heat in the water from intense cavitation during cyclic pressure waves.

The device operates as follows.

First, the battery 12 is connected to a pulse-frequency voltage converter 11, high-voltage pulses are supplied from its high-voltage output, through an electric spark plug 8 with an electrode 10. immersed in water, into an electric discharge chamber 5 filled with water. As a result, during electric discharges in water of a sufficient magnitude of electric current and spark power in chamber 6, an electro-hydraulic shock of liquid (water) occurs, and a powerful water pressure wave generated from it is transmitted through the focusing nozzle 7 and inlet 4 to the rotor blades 3 in the pump cavity 1 bringing the rotor 3 into rotation. By adjusting the magnitude of the electric discharge current, the frequency and duration of the electric discharges in the chamber 6 from the block of the voltage Converter 11 the strength and ability

electrohydroshocks in water and, as a result, regulate power, rotor torque on shaft 14 and rotor speed 3. In this case, the electric machine 13, rotating together with the rotor 3 and from the rotor energy, starts working in a reversible generator mode (self-excitation and regulation of the generator parameters not shown) and begins to generate electricity, converting part of the kinetic energy of rotation of the rotor 3 into electrical energy by the electric generator 13. The stator winding of the electric generator 13 is electrically connected through with a relay (not shown) to the voltage converter 11 and to an autonomous source 12 (not shown for recharging this battery. Since water is intensively heated in a closed working cavity during this process of electric discharges and electroshocks, its heat can be used by removing it by additional external heat exchangers (not shown) from the surface of the pump casing 2 and the electric discharge chamber 5.

Thus, the proposed stand-alone reversible centrifugal pump allows for efficient direct conversion of the chemical energy of water through the electro-hydraulic effect of electric discharges in water - into other types of useful energy.

The proposed utility model has previously been partially tested in laboratory experiments. Please grant a patent for this utility model with the following claims.

Claims (1)

An autonomous reversible centrifugal pump containing a hollow casing in the form of a cochlea with two working holes in it, one of which is an outlet tangential hole, and the second is an inlet axial hole hydraulically connected to the blade rotor, and a driven electric motor on the rotor shaft, characterized in that the pump is additionally equipped with a hollow cylindrical electrodischarge chamber, muffled from the outer end and hydraulically connected to one of the aforementioned openings of the centrifugal pump, and its second working hole The casing is reliably and firmly sealed, and the entire working cavity of the pump casing and the electric discharge chamber is filled with liquid, for example water, with an electric spark plug screwed into the casing of the electric discharge chamber and connected electrically through an adjustable pulse-frequency voltage converter to the battery and to the stator windings of the racing electric motor .