RU195338U1 - HYBRID WIND POWER COMPLEX - Google Patents

Abstract

The utility model relates to installations that generate electric and thermal energy, and can be used as an energy source for objects remote from the energy system, to which it is not economically feasible to build traditional power lines, including oil production facilities, oil fields, production facilities and in oil wells during oil and gas production in off-balance fields, and can also be used as an alternative autonomous source of electric energy in various The purpose of the utility model is to ensure uninterrupted power supply to consumers remote from the power system, while it is important to significantly reduce the impact of wind flow on the wind wheel of a hybrid wind power installation and the organization of additional air flows that increase the heat pressure and the resulting effect on the wind wheel on the constant component of the generated power, improved control of the operation of the wind wheel and increase its efficiency, reliability, achieved saving material costs and compliance with the basic requirements of environmental protection. The complete autonomy of the hybrid wind power installation is of great importance. The goal is achieved by a hybrid wind power installation, including a tower casing with inlet channels with air dampers in the lower confuser part, the middle cylindrical part and the upper diffuser part with a deflector, a wind wheel located in the cylindrical part of the tower on a vertical shaft connected to the electric generator, the input channels are made tangentially directed and inclined to the vertical axis of the housing ba nor, inside the lower confuser part, coaxially with it, an additional confuser channel is installed. The new one is that the external and internal heat emitters are located in the lower part of the tower. The new one is that the external heat emitter is a metal pipe connected to the solar to the collector, and filled with heat carrier. It is also new that the internal heat emitter is made of copper pipes with heating cables inside. The proposed hybrid wind power installation is a completely autonomous device, which also ensures guaranteed stability of energy supply regardless of wind speed and solar insolation, high energy efficiency and environmental safety: there are no emissions of toxic substances into the environment, unlike diesel generator sets. When developing the device, all modern requirements for environmental protection from the effects of emissions of harmful substances, in connection with which a hybrid wind power installation can be attributed to Poison cleaner production. Allows you to reasonably carry out measures to reduce the technological load on the environment. Hybrid wind power installation is simple to manufacture and install, reliable in operation, which leads to lower material costs for maintenance and repair. Contributes to the reduction of capital investments put into operation of production facilities. The proposed device is compact enough, does not require the construction of complex structures for its installation. Immediately after installation, it can be connected to consumers for their power supply. It allows you to get savings from the use of primary energy sources: wind and solar, that is, there is no need for a periodic drive to the diesel power supply facility. The inventive utility model meets the production conditions, its use allows you to comply with labor safety rules, and the implementation of a hybrid wind power installation does not require restructuring of the production process and applied technology.

Description

The utility model relates to installations that generate electric and thermal energy and can be used as an autonomous energy source for objects remote from the energy system, to which it is not economically feasible to build traditional power lines, including oil production facilities, oil fields, production facilities and in oil wells during oil and gas production in off-balance fields, and can also be used as an alternative autonomous source of electric energy gii in various industries and national economy.

Analysis of the current level of technology in the field of power plants using renewable energy sources showed the following:

1. Existing plants operating on alternative power sources have a low coefficient of performance (COP).

2. The percentage of using hybrid plants at alternative sources in various industries is quite small compared to plants using traditional energy sources, this is due to the fact that these plants cannot guarantee the stability of the quality of electric energy, according to GOST 32144-2013 “Electric energy. Electromagnetic compatibility. Quality standards for electric energy in general-purpose power supply systems. ”

3. The reliability of power supply from installations on alternative energy sources cannot currently compete with sources on traditional energy sources, this is due to the inconsistency of the wind flow, solar insolation, hot sources of mineral resources, tidal forces, etc.

Known wind power installation with a vertical axis of rotation, containing a horizontal base and a conical dome, which is installed above the horizontal base on the uprights. An impeller with a vertical shaft is installed in the upper central hole of the dome on a conical baffle to drive consumer mechanisms. The horizontal base and the dome form an annular opening for air inlet for the blades of a wind wheel (US Patent No. 4017205, F03D 3/04, 1977).

The disadvantages of this installation are the low efficiency of converting the energy of the incoming wind flow, the poor use of local natural heat fluxes and the insufficient reliability of the installation of the wind wheel with large diametrical dimensions.

There is a construction of a wind power installation comprising a tower casing with a wind wheel and inlet channels with air dampers, the tower casing consists of a lower confuser, middle cylindrical and upper diffuser parts, a wind wheel is installed horizontally in the cylindrical part of the tower casing on a vertical shaft, the unit is equipped with an actuating mechanism containing a shaft with a common central rotary link kinematically connected with the dampers and the vertical shaft of the wind wheel (A. St. USSR No. 1134771, F03D 3/04, 04/09/1981 Bull. No. 2 , 1985).

The disadvantages of such wind power plants are low specific power, large uneven operation of the wind wheel, lack of efficient use of internal heating of additional gas-air flows and insufficient reliability of the installation of the wind wheel with large diametrical dimensions.

Closest to the technical nature of the claimed utility model is the wind-thermal power installation selected by us as a prototype (RF Patent No. 2244849, F03D 3/04, 02.20.2003, 2005).

Wind thermal power plant contains a tower case with a lower confuser, middle cylindrical and upper diffuser parts. In the lower part there are inlet channels with air dampers, in the upper part there is a deflector. In the cylindrical part of the tower on a vertical shaft there is a wind wheel, a servo mechanism with a common central rotary link kinematically connected to the dampers, and the input channels are tangentially directed and inclined to the vertical axis of the tower body, an additional confuser channel is installed coaxially with it, and the wind wheel is made with movable supports resting on a monorail. At the bottom of the tower are heat sources.

The disadvantage of this installation is the binding to an external heat source to create additional heat fluxes.

The purpose of the utility model is to ensure uninterrupted power supply to consumers remote from the power system, while it is important to significantly reduce the negative impact of wind flow fluctuations on the wind wheel of a hybrid wind power installation, organize additional air flows that increase the heat pressure and the resulting effect on the wind wheel on the constant component of the generated power, and improve work management wind wheels and increasing its efficiency, reliability, achieving savings m atrial costs and compliance with basic environmental requirements. Of great importance is the complete autonomy of the hybrid wind turbine.

The goal is achieved by a hybrid wind power installation, including a tower casing with inlet channels with air dampers in the lower confuser part, the middle cylindrical part and the upper diffuser part with a deflector, a wind wheel located in the cylindrical part of the tower on a vertical shaft connected to the electric generator, the input channels are tangential directed and inclined to the vertical axis of the tower body, and inside the lower confuser part, coaxially with it, an additional embarrassment is installed molecular channel.

New is that in the lower part of the tower there are external and internal heat emitters.

New is the fact that the external heat emitter is a metal pipe connected to the solar collector and filled with heat carrier.

Also new is the fact that the internal heat emitter is made of copper pipes with heating cables inside.

The specified hybrid wind power installation is illustrated by drawings, where:

- in FIG. 1 shows a general view of a hybrid wind turbine;

- in FIG. 2 illustrates the clarifying elements of the device: sections A-A - a wind wheel, BB - configuration of air dampers, BB - a system of heat emitters;

- in FIG. 3 shows a three-phase connection diagram of a system of heating cables, sections G-D and D-D.

The hybrid wind power installation includes a tower casing 1, consisting of a lower confuser part 2 with tangentially directed inlet channels with air flaps 3 inclined towards its vertical axis (Fig. 2, BB), a middle cylindrical part 4 with a monorail 5, and the upper diffuser part 6 with a deflector 7, a wind wheel 8 (Fig. 2, A-A) connected to the shaft of the generator 9, mounted on a vertical strut 15 and additionally supported by movable bearings (not shown in Fig.) on the monorail 5, additional confuser channel 10, coaxially aspolozhennogo confuser inside the lower part 2 of the housing 1 of the tower.

In the lower part of the tower 1 are two systems of excitation of air flows from the external and internal heat emitters 11 and 12 (Fig. 2, B-B). External heat emitter 11 - a metal pipe filled with heat carrier connected to the solar collector 16.

The internal heat emitter 12 (Fig. 2, section BB) is a copper pipe with heating cables, the ends of which are connected to a star (Fig. 3, section DD), and the beginning of the heating cables (Fig. 3, section D- D) is connected to the supply cable line 14, which is connected through the control station (not shown in FIG.) To the output of the accumulated and converted electric energy conversion system (not indicated in FIG.). The generator 9 by a cable line 13 is connected to a system for storing and converting electrical energy.

The proposed utility model works as follows. A hybrid wind power installation is mounted on the site of the intended operation, and can be immediately put into operation.

Inlet tangentially directed channels with air dampers 3 inclined to the vertical axis of the tower 1 perceive natural air currents and pulsations of various directions and transform them into an organized internal vortex upward flow, which creates an additional vacuum in the center vertically of the entire tower body, into the zone of which they come from the central the output part of the additional confuser channel 10 heated by an external heat emitter 11 (daytime) and an internal heat emitter 12 (at any time I day) additional air flow, increasing the thermal head and the resulting impact on the wind wheel 8, which increases the efficiency of the plant.

The external heat emitter 11 is a closed loop filled with thermal carrier, which receives thermal energy from the solar collector 16.

The internal heat emitter 12 receives part of the electric energy through the supply cable line 14, which is generated by the generator 9 and transmits via the cable line 13 through the system of storage and conversion of electric energy to consumers.

An increase in the efficiency of the hybrid wind turbine is achieved through the stable generation of a constant component of active power, which is 65 ... 70% of the power of the generator 9, since part of the generated electric energy is spent on maintaining a stable additional air flow, which increases the heat pressure and the resulting effect on the wind wheel 8.

The proposed hybrid wind power installation is an absolutely autonomous device, which also ensures guaranteed stability of energy supply regardless of wind speed and solar insolation, high energy efficiency and environmental safety: there are no emissions of toxic substances into the environment, unlike diesel generator sets.

When developing the device, all modern requirements for protecting the environment from the effects of emissions of harmful substances were taken into account, in connection with which a hybrid wind power installation can be classified as environmentally friendly production. Allows you to reasonably carry out activities to reduce the technological pressure on the environment.

The hybrid wind power installation is simple to manufacture and install, reliable in operation, which leads to lower material costs for maintenance and repair. Helps to reduce the investment of commissioned production facilities. The proposed device is compact enough, does not require the construction of complex structures for its installation. Immediately after installation, it can be connected to consumers for their power supply. It allows you to get savings from the use of primary energy sources: wind and sun, that is, there is no need for a periodic drive to the diesel power supply facility.

The inventive utility model meets the conditions of production, its use allows you to comply with labor safety rules, and for the introduction of a hybrid wind power installation does not require restructuring of the production process and the equipment used.

Claims (1)

A hybrid wind power installation, including a tower casing with inlet channels with air dampers in the lower confuser part, a middle cylindrical part and an upper diffuser part with a deflector, a wind wheel located in the cylindrical part of the tower on a vertical shaft connected to an electric generator, the input channels are tangentially directed and inclined to the vertical axis of the tower body, and inside the lower confuser part, coaxially with it, an additional confuser channel is installed, characterized in that o in the lower part of the tower there are external and internal heat emitters, while the external heat emitter is a metal pipe connected to the solar collector and filled with heat carrier, and the internal heat emitter is made of copper pipes with heating cables inside.

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