General-purpose self-contained life support complex

FIELD: power industry.

SUBSTANCE: general-purpose self-contained life support complex (GSLSC) consists of free power sources, converters of the above energy to electric energy, electric and heat energy accumulators, synchronisation device as to frequency, phase and voltage. Complex is made in the form of general-purpose set consisting of free energy sources, converters of the above energy to heat energy and to electric energy, backup energy sources, controlling, regulating and accumulating instruments and devices for engineering support systems of the buildings, in which various versions of design and completeness are provided, sources of free energy are doubled and equipped with wind-heat generator, hydraulic heat generator of rotary type, which contains turbine blade wheel of hydromechanical thermal power plant with water-lifting device, which in their turn are connected to electric generators. As reserve energy source there used is thermal power plant containing rotary-type heat generator and electric generator driven from internal combustion engine (gasoline, diesel or gas piston engine).

EFFECT: creation of economically reasonable and practically available complex for generation of heat and electric energy with changeable completeness for a certain consumer, which is general-purpose to be used in climatic, geological and other environmental conditions acting on the human life support, with possibility of quick development and start-up.

2 cl, 1 dwg

 

The invention relates to an Autonomous life support systems mainly Autonomous civil, industrial and special purpose and can be used for heating, hot water supply, electrification of these objects through the use of natural (free) energy sources.

Known teplovodenergiya well (patent RU No. 2291255, publ. 10.01.07 year). Teplovodenergiya well contains a source of water, the area of flow with a pressure sufficient to generate thermal energy, which is associated vortex generator.

The disadvantages of the prototype are also the necessity for the presence or artificial ensure elevation and water flow to ensure efficient operation of the vortex heat generator, the high cost of exploration and preparatory works, limited application.

Known hydratebearing rotary type (see patent No. 2336471, publ. 20.10.08 year). Hydratebearing rotary type consists of two buildings with a cylindrical cavity within which are rotatably placed two rotors, with the inlet and the outlet for the first housing and the hole in the input and output channel for the second case. A distinctive feature of hydrotestosterone rotary type is that it does not have the ode, using nonrenewable sources of energy as the rotor in the first cavity made in the form of a blade of the turbine wheel, and the second cavity is in the form of a disk with blind holes, both rotors are mounted on independent shafts connected by the coupling - clutch. The fluid flow from natural or artificial constantly (continuous) current source of power, providing the necessary pressure required for wielding a blade of the turbine wheel, in this case is a source of energy. Solar heat is produced without the cost of electricity, solid or liquid fuel.

Lack of hydrotestosterone rotary type is the mandatory presence or artificial provision of elevation and water flow to ensure efficient operation of the bladed turbine wheel hydrotestosterone, limited application.

Known water-lifting device (patent EA No. 5489 B1, publ. 24.02.2005 the year). The invention relates to water technology and is a modified version of the device called the "hydraulic RAM", which is based on well-known physical phenomenon of "water hammer". The potential energy felt by people as "the water pressure at the depth"can do the work, sposobnostey a certain part of the water to rise from the depths at some height above the surface. This lifting device is no difference of elevation and discharge in still water. In other words, the method of conversion of energy used in water device, is the opposite of a known method based on the use of "falling water". In addition, water-lifting device has the ability to work in pulsed mode hydro jet propulsion with parallel heat water.

Known veritablement (patent RU №2253040, publ. 27.05.05,). Veritablement contains the propeller, which, through bevel gears and a coaxial shaft passes multidirectional rotation of the rotors in the form of a blade stirrer rotating in the housing in the form of a tank. Stirrers are made on the principle regulator watt: the faster the spin, the more divergent their blades. Because the agitators rotate in opposite directions, the fluid friction quickly heated, thereby heating the water in the heat exchanger, which is connected with the system of heat consumption.

Lack of vetratafloreale is the availability of necessary power of the wind to ensure the effective operation of the heat source, limited application.

Known mobile thermal station (MTS) (see patent No. 2333435, publ. 10.09.08,). Mobile thermal station consists of a heat source in the form of stat is RA, in which is rotatably mounted rotor, rotor drive, consisting of induction motor with liquid or air cooling or alternative drive propulsion (petrol or diesel engine with liquid or air cooled).

The disadvantage of mobile heating plant is required the presence of a significant resource of electrical energy and fossil fuels, which leads to a significant cost in the operation.

Known alternative turbogenerator installation (patent RU №2079072, publ. 10.05.97 year). The installation includes a lower stage with vortex generator in a liquid medium, the heat exchange chamber, an evaporator connected to the low-grade heat source, a condenser and a pump, the upper stage centrifugal boiler and electric motor mounted on a common shaft and enclosed within the annular heat exchanger, steam boiler, a turbine with the second condenser and the generator. The unit operates as a conventional hydrocarbon fuel, and low-grade heat to the environment.

The lack of alternative turbine-generator plant is the impossibility of electrical energy large load capacity.

Known Autonomous life support system (Is W) (patent RU №2215244, publ. 27.10.03,), adopted for the prototype. The system contains the sources of free energy, converting this energy into electrical energy provided from the energy storage and conversion device battery power into heat and electrical energy supplied to the accepted objects. The energy accumulator is designed as two heat accumulators: one low-temperature liquid, the second high-temperature solid-state, and the first battery is hydraulically communicated with the heating system and hot water supply of buildings, second - containing heater and refrigerator heat machine drive an electric generator provided at least with the power supply system of the building. The technical result is to enable the implementation of environmentally safe ground of Autonomous objects technology with low operating costs.

The disadvantages of the prototype are high losses in the double conversion of energy, limited application.

The invention solves the problem: reduction of energy consumption by addressing livelihood objects remote from centralized electricity and heat.

The technical result obtained by carrying out the invention, is to create economically useful is brasego and available almost complex to produce thermal and electrical energy with variable set for a specific user, which is universal in terms of climatic, geological or other environmental conditions that affect human activity, with the ability to quickly deploy and run.

This technical result is achieved by the fact that in the proposed universal standalone complex life support (OICA), consisting of the source(s) free energy converters of this energy into electrical energy, battery electric and thermal energy, device synchronization frequency, phase and voltage, what is new is that OICA made in the form of a universal set consisting of sources of free energy converters of this energy into heat energy and electrical energy, backup power sources, control, regulating and storage devices for systems engineering of buildings, which provides various options execution and completion of, the sources of free energy are duplicated and are equipped with vitrualisation, hydrodefluorination rotary type, containing a bladed turbine wheel, hydro-mechanical thermal plant with a water-lifting device, which, in turn, are associated with power, as a backup source of energy is heat station containing the first heat generator rotor type and an electric generator driven by the internal combustion engine (gasoline, diesel or gas reciprocating engine).

OICA equipped with turbine-generator installation.

Execution OICA in the form of a universal set consisting of sources of free energy converters of this energy into heat energy and electrical energy, backup power sources, control, regulating and storage devices for systems engineering of buildings, which provides various options and configuration allows you to:

- firstly, to use for heat and electric energy in the full sources of free energy due to the action of natural factors: wind energy, energy of the flow of water with sufficient pressure, the energy of the pressure in the water reservoir at a depth that makes it possible to use OICA on most geographical areas;

- secondly, to ensure smooth functioning of the complex due to backup power sources that use hydrocarbon fuel or accumulated electric energy;

- thirdly, to ensure ease of use for the consumer through the use of control, control instruments and devices for engineering systems of buildings, which are programmed climatic parameters on the service(the x) the object(s), formed mode of heat, energy-saving;

- fourthly, to form three main options for completion and execution OIKEO:

a) complete for the implementation of the entire scope of tasks of life with all stipulated in the complex capacity to generate thermal and electric energy;

b) a base for implementation of the entire scope of tasks of life support using a range of opportunities for the generation of heat and electric energy that are characteristic and easily accessible in this location or under particular conditions;

in) kit custom kit for specific tasks involves the use of separate units OIKEO, and revise it when non-standard conditions of installation and operation.

Duplication and equipment sources of free energy vitrualisation, hydrodefluorination rotary type, containing a bladed turbine wheel, hydro-mechanical thermal station with water-lifting device, which, in turn, are associated with power, allows you to:

- first, to maximize the possibility of applying due to duplication and equipment sources of free energy corresponding converters:

a) to use wind power when using bladed wind plants, the United States as with the vortex generator, so with the Converter in the form of an electric generator;

b) use the energy of falling water when using hydrogenerator rotor type, containing the turbine wheel, from natural or artificial source (river, canal, water supply) with a difference in height providing the necessary pressure sufficient to wielding a blade of the turbine wheel, which is connected with the vortex generator, and the generator;

C) use the energy of water pressure at the depth with the help of hydro-mechanical thermal station with water-lifting device,

- secondly, to obtain thermal energy directly without prior conversion into electricity, thereby reducing energy losses that inevitably arise when transforming;

- thirdly, to receive thermal energy by means of vortex generators rotary type, having a high conversion efficiency;

- fourth, to generate electrical energy from its further use and/or accumulation in parallel with thermal energy.

Use as a backup energy source heat station containing the rotary type heat generator and the generator driven by the internal combustion engine (petrol, diesel or gas reciprocating engine), called the em:

- firstly, to facilitate the life of an object during repair and maintenance work on the units OIKEO, and occurrence of peak loads in the systems of heat and electricity;

- secondly, to ensure the full autonomy of the complex, regardless of adversely folding external climatic influences (low strength of the wind, the pressure loss in natural water sources due to various natural and artificial factors).

Equipment OICA turbogenerator plant operating according to the method described in patent RU No. 2079072, allows you to transform low-grade heat to the environment (atmosphere, surface and ground water) into electrical energy, which further reduces energy consumption.

Technical solutions with the features distinguishing the claimed solution to the prototype, is not known and obvious manner from the prior art do not follow. It can be considered that the claimed solution is new and involves an inventive step.

The invention is illustrated in the drawing, which shows a General scheme of a universal Autonomous complex life support (OICA).

Universal Autonomous complex life support contains veritablement 1, which consists of a blade (propeller) wind installation 2, R is Opredelitel gear 3, associated with the heat source 4 rotary type and the generator 5, hydratebearing 6 rotary type, consisting of turbines 7, associated with the heat source 8 rotary type and the generator 9, the vertical module 10 hydromechanical heat station placed in the well 11 at a predetermined depth and consisting of a water-lifting device 12, a turbine 13, the heat source 14 is a rotary type electric generator 15. Module 10 heat station can be performed in the horizontal version and placed at a certain depth in the surface of a natural or artificial reservoir (not shown). The vertical location of the module 10 simplifies its use in places where there are no large water resources and it is possible to do a smaller volume of water. As a backup source of heat and electric energy used thermal station 16 containing the heat source 17 of the rotary type and the generator 18 driven by the internal combustion engine 19 (petrol, diesel or gas reciprocating engine).

In the embodiment, OICA equipped with turbine-generator installation 20.

Synchronization in frequency, phase and voltage and distribution of generated electric energy is carried out in the distribution synchronizing device 21, which is associated with all the elect shall generatory. Further, the electrical energy used in the power supply system serviced buildings and structures and electrical engineering services (circulation pumps, control devices, electric valves, means of automation and control) and/or accumulated in the accumulator 22.

Programming climatic parameters is carried out using a programmable thermostat with control functions heating and hot water supply system with remote air temperature sensor in room 23.

In addition, OICA contains hydraulic intake line 24 with a well (borehole) 25, not associated with a bore 11 in which is installed a filter 26, a check valve 27, the pressure reducing valve 28, pump 29. Line 23 is connected with the water taps To1... Tom-130 cold water supply, hot water boiler 31, the capacity of the heat exchanger 32 of the heating system, hydraulic line 33, used for commercial purposes and containing a watering valve 34, the valve for washing cars and household equipment 35, valve 36 fire. Hydraulic line 33 at the same time connected with water-lifting device 12 hydromechanical thermal station 10. Boiler hot water 31 through hydraulic line 37 is connected to standpipes krannich m... Ton38 hot water and the heat exchanger 32 through line 39 with the radiator R1... Pn40. And hydraulic lines 37 and 39 are equipped with automatic control valves 41, controlled programmable thermostat 23, and in the return pipe line 39 is installed circulation pump 42. The inputs and outputs of the generators 4, 8, 14, 17 through pipelines connected to lines 37 and 39. For on/off sources of heat energy, and a separate hydraulic lines of the hydraulic system installed valve 43, as well as the necessary instrumentation (not shown). The system includes a surge tank 44 with automatic air vent 45.

Universal Autonomous complex life support complete version works as follows. Work OIKEO with other equipment is similar. By means of a pump 29 through a hydraulic intake line 24 is filled with water from a well (borehole) 25 the entire hydraulic system. Water is first filtered in the filter 26 from mechanical impurities, and then through the check valve 27, the pressure reducing valve 28 is supplied to the pump 29 and further into the system and the internal cavity of the generators 4, 8, 14, 17. After filling the system the water used in the system cold Woden is bienia with water taps To 1... Tom-130 and hydraulic lines 33 with the watering valve 34, valve for washing cars and household equipment 35, valve 36 fire.

When there is sufficient wind power is used veritablement 1. The rotation of impeller (propeller) wind installation 2 through a reduction gear box 3 is transmitted to the shaft of the generator 4 and the generator 5. Generated electrical energy is supplied to the distribution of the synchronizing device 21 for further use in electricity or that collects in the accumulator 22. Heated in the heat source 4 water from its output supplied to the coil of the hot water boiler 31 and the capacity of the heat exchanger 32. The water in the boiler 31 is heated and is used for hot water supplied by a hydraulic line 37 to the water taps Tom... Ton38. In parallel, there was hot water in the heat exchanger 32 and the flow through the hydraulic line 39 to the radiator R1... Rn40. Circulation in the hydraulic line 39 is carried out by means of the circulation pump 42. "Waste" water is fed to the input of the generator 4. Moreover, by means of coupling sleeves (not shown) can be made off of one of the energy converters (heat source or generator. In the Academy of Sciences of the logical mode can work the other pair of transducers, using other forms of energy.

When possible, supply the flow of water from natural or artificial source (river, canal, water supply) with a difference in height providing the necessary pressure sufficient to wielding a blade of the turbine wheel 7, is used hydratebearing rotary type 6. Torque from the blade of the turbine wheel 7 is transmitted to the shaft of the heat generator 8 generator 9. Use and distribution of thermal and electric energy is the same as the above.

When there is a hole 11 at a predetermined depth sufficient to spin the turbines 13, is mounted a vertical module 10 hydromechanical thermal station. Water depth under pressure enters the water-lifting device 12, which operates as a pulsating hydro jet propulsion. This allows you to spin the turbine 13 is mechanically connected to the shaft of the heat generator 14 generator 15. Moreover, the lifting device can operate for its intended purpose: to apply water under pressure in the hydraulic line 33 for use for commercial purposes, as well as water-lifting device 12 has the ability to heat water, it is served hot, which is important when watering in the cold season. Use and distribution of aloway and electrical energy is the same as the above.

For backup heat and electricity used thermal station 16 containing the rotary type heat generator 17 and the generator 18 driven by motor 19 internal combustion (gasoline, diesel or gas reciprocating engine). After starting of the internal combustion engine 19 begins the process heat and electrical energy. Use and distribution of thermal and electric energy is the same as the above. The amount of produced heat and electricity is regulated by changing the number of revolutions of the engine 19, which allows you to use a backup source in the minimum cost mode in case of peak thermal or electrical loads.

Power converters 1, 6, 10, 16 work both individually and in combination. The connection mode is selected on the basis of available sources of free energy and needs for heat and electricity.

In the embodiment, the equipment OICA turbogenerator installation 20 provides additional electric energy. The device can operate as conventional hydrocarbon fuel at peak loads, and low-grade heat to the environment.

Using a remote temperature sensor, the included programmable those who of mostat with the functions of the control system of heating and hot water supply system 23, provided programming climatic parameters in heated premises. Through automatic valve 45 mounted in the surge tank 44, is diverted accumulated in the air system.

Thus, in the proposed universal standalone complex life support (OICA) implemented the ability to create economically viable and practically available complex to produce thermal and electrical energy with variable set for a specific user, which is universal in terms of climatic, geological or other environmental conditions that affect human activity, with the ability to quickly deploy and run.

1. Universal Autonomous complex life support (OICA), consisting of the source(s) free energy, the transducer(s) of this energy into electrical energy, batteries, electric and thermal energy, the device synchronization frequency, phase and voltage, characterized in that OICA made in the form of a universal set consisting of sources of free energy converters of this energy into heat energy and electrical energy, backup power sources, control, regulating and storage devices for systems ungenerosity buildings, which provides various options and configurations, the sources of free energy are duplicated and are equipped with vitrualisation, hydrodefluorination rotary type, containing a bladed turbine wheel, hydro-mechanical thermal station with water-lifting device, which in turn are associated with power, as a backup source of energy is heat station containing the rotary type heat generator and the generator driven by the internal combustion engine (petrol, diesel or gas reciprocating engine).

2. Universal Autonomous complex life support (OICA) according to claim 1, characterized in that OICA equipped with turbine-generator installation.



 

Same patents:

FIELD: heating.

SUBSTANCE: present invention pertains to power supply systems of buildings, with a structure closed on the periphery, with a courtyard covered by a cupola. The power supply system for stand alone buildings with a courtyard covered by a cupola, is provided with high- and low-temperature heat accumulators, energetically linked with exterior and interior alternative sources of energy (for example windmill, solar cells, solar collecting panels, isotope heat sources, low-temperature sources - air, ground, water etc.), as well as with users of heat and electrical energy in the stand alone building, generated by an electrical generator, powered by a controlled steam power installation with a steam generator, thermally linked with at least a high-temperature heat accumulator, steam engine and a condenser. At the centre of the courtyard of the building, there is a multi-channel pipe support with outlet channels for air from under the cupola and channels for inlet of air from the atmosphere, kinematically linked to the cupola and thermally linked with a heat exchange device, for example heat exchangers, heat pipes, heat pumps and a low-temperature heat accumulator, provided with an extra low-temperature section. The condenser of the steam power installation is thermally linked to this extra section at, for example below zero temperature on the Celsius scale, which, through the heat from the main heat pump, powered mainly by the steam power installation, is thermally linked with the primary section of the low-temperature heat accumulator.

EFFECT: increased efficiency of the power supply system of low-rise closed buildings, increase in light energy coming into the building and its conversion to electrical energy, increase in environmental friendliness of the power supply system and the interior of the building itself.

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EFFECT: improved efficiency of heating process; lower speed of heat carrier cooling.

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FIELD: energy transformation.

SUBSTANCE: sun power plant intends for conversing solar energy to thermal energy for using thermal energy for domestic appliances. Hot water supply sun power plant has at least one solar battery made of thermal collectors in form heat-insulated flat box-shaped cases. Top flat light-transparent panels are disposed in perpendicular to direction of sun light. Light-transparent panels are disposed above membranes-absorbers which absorb solar radiation. Membranes-absorbers are provided with temperature transducers. Membranes-absorbers have parallel lateral metal pipes for liquid heat carrier. Pipes are connected together in any membrane-absorber by longitudinal tubular collectors. Collectors are connected together by branches in series through drive stop valves which are connected to pipeline of water discharge of warmed liquid heat carrier which is connected with top area of heat-accumulating container. Lower area of container is connected with longitudinal tubular collector of membrane-absorber of one of end heat collector by means pipeline for supplying cooled liquid heat carrier through circulation pump. Heat water supply and heating system heat exchangers are disposed at top area of heat-collecting container one above another. Heat exchangers are connected with central heating system pipeline and with pipeline for supplying warmed running water. Program electron unit of the plant is connected with temperature transducers of membranes-absorbers, which unit controls operation of thermal transducers, circulation pump electric motor and drives of stop valves. Sun power plant is provided with heat-proof heat-accumulating members that are disposed uniformly in lower area of heat-accumulating container. Heat-accumulating members are filled with liquid having positive solidification temperature. Program electron unit is provided with mechanisms for tracking perpendicularity of solar energy to surface of top light-transparent panels of thermal collectors. Heat-insulated flat box-shaped cases of collectors are made for rotation around horizontal axes disposed at two mutually perpendicular vertical planes. Any membrane-absorber is made in form of thin-walled metal plate with gofers which embrace parallel lateral metal pipes for liquid heat carrier. Space V of heat-insulated working cavity of heat-accumulating container exceeds total space Vtot of cavities of membranes-absorbers of heat collectors for liquid heat carrier, space V1 of hot water heat exchanger for domestic appliances, space V2 of heating system heat exchanger and total space Vh-am of heat-collecting member for 50-400, 100-120, 20-30 and 10-20 times correspondingly. Total area Stot of external surfaces of the heat exchangers is 3-8 times larger than areas Sm of top surfaces of rigid membranes-absorbers. Solidification temperature T of liquid which fills heat-proof heat-accumulating members equals to 35-600C.

EFFECT: improved efficiency of heating process; lower speed of heat carrier cooling.

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EFFECT: enhanced efficiency.

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FIELD: heating.

SUBSTANCE: present invention pertains to power supply systems of buildings, with a structure closed on the periphery, with a courtyard covered by a cupola. The power supply system for stand alone buildings with a courtyard covered by a cupola, is provided with high- and low-temperature heat accumulators, energetically linked with exterior and interior alternative sources of energy (for example windmill, solar cells, solar collecting panels, isotope heat sources, low-temperature sources - air, ground, water etc.), as well as with users of heat and electrical energy in the stand alone building, generated by an electrical generator, powered by a controlled steam power installation with a steam generator, thermally linked with at least a high-temperature heat accumulator, steam engine and a condenser. At the centre of the courtyard of the building, there is a multi-channel pipe support with outlet channels for air from under the cupola and channels for inlet of air from the atmosphere, kinematically linked to the cupola and thermally linked with a heat exchange device, for example heat exchangers, heat pipes, heat pumps and a low-temperature heat accumulator, provided with an extra low-temperature section. The condenser of the steam power installation is thermally linked to this extra section at, for example below zero temperature on the Celsius scale, which, through the heat from the main heat pump, powered mainly by the steam power installation, is thermally linked with the primary section of the low-temperature heat accumulator.

EFFECT: increased efficiency of the power supply system of low-rise closed buildings, increase in light energy coming into the building and its conversion to electrical energy, increase in environmental friendliness of the power supply system and the interior of the building itself.

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FIELD: power industry.

SUBSTANCE: general-purpose self-contained life support complex (GSLSC) consists of free power sources, converters of the above energy to electric energy, electric and heat energy accumulators, synchronisation device as to frequency, phase and voltage. Complex is made in the form of general-purpose set consisting of free energy sources, converters of the above energy to heat energy and to electric energy, backup energy sources, controlling, regulating and accumulating instruments and devices for engineering support systems of the buildings, in which various versions of design and completeness are provided, sources of free energy are doubled and equipped with wind-heat generator, hydraulic heat generator of rotary type, which contains turbine blade wheel of hydromechanical thermal power plant with water-lifting device, which in their turn are connected to electric generators. As reserve energy source there used is thermal power plant containing rotary-type heat generator and electric generator driven from internal combustion engine (gasoline, diesel or gas piston engine).

EFFECT: creation of economically reasonable and practically available complex for generation of heat and electric energy with changeable completeness for a certain consumer, which is general-purpose to be used in climatic, geological and other environmental conditions acting on the human life support, with possibility of quick development and start-up.

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FIELD: power engineering.

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EFFECT: possibility of mobile and efficient deployment of an ALSS for a long period of time, not requiring any start conditions, to provide the ALSS with heat, hot water and electric energy, making it possible to control heating capacity and not strict to selection of electrodes, which may be any steel pipes.

6 cl, 4 dwg

FIELD: heating.

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EFFECT: prevention of heat loss during long-term operation in variable temperature and humidity conditions of ground, affecting elements of solar heat and cold supply system by implementation of underground pipeline out of composite material with fixated thin-fibre basalt stretched lengthwise between metal base and waterproof layer.

2 dwg

FIELD: heating.

SUBSTANCE: heat-accumulating heating device comprises a body, air cavities with convective channels, a heat intensive filler and electric heaters, is additionally equipped with centres of heat energy accumulation, enclosed into a closed air circuit of circulation in the form of a metal box, which represent a solid heat-accumulating element and fluid circulating circuits in the form of circular channels filled with a heat-intensive filler and combined with a central pipe, and fluid circulating circuits at the side of radiation flux impact from the heat-accumulating element has heat-perceiving screens, branches of fluid circulating circuits, and the external part of the box are equipped with ribbing plates, creating spaces in the box and the slot channel to provide dynamics of convective flows.

EFFECT: possibility to accumulate and transmit thermal energy into a heated room by combination of thermal flows created by convection and radiation emission, to create convective flows for intensification of heat exchange process, to provide for quick and even heating of entire surface of a device releasing thermal energy into a heated room.

1 dwg

FIELD: electricity.

SUBSTANCE: invention is related to devices for alternative power supply systems using combined facilities for generation of heat, cold and electricity by means of wind and solar energy, which are intended mainly for self-sufficient conditioning and hot water supply of residential and industrial buildings. self-sustained power and heat supply system for the building is mounted at the roof inside transparent dome, in the upper dome zone there is a fixed heat carrier storage tank with a container with heat accumulating material placed inside this tank, inside the container there is heat generator coupled kinematically to the shaft of wind generator drive, the storage tank is mounted at support vertical pipe of rectangular cross-section interconnected with heat carrier and insulated thermally at two outer edges, the closed loop is formed by the tank, heating and cooling radiators, pipe of rectangular cross-section and airlift that includes air pump with potential air supply from the pipe interconnected with air layer over hear carrier in the tank to cavity of pipe of rectangular cross-section by means of microporous sprayer, solar ray reflector is made as parabolic cone with vertical axis of optical focus, whereto the vertical pipe is matched, at two edges of the vertical pipe there are Peltier elements equipped additionally with solar absorbers made as finned metal plates, Peltier elements are connected electrically in series and coupled through isolation diodes in parallel to electric generator and magnetizing coil of ferromagnetic rotor to summing supply diode of the air pump and charge stabiliser for buffer accumulator connected through inverter to the power mains, which is connected to mode selector for Peltier elements through regulated current rectifier and switch of the heat carrier heater in the storage tank.

EFFECT: improved degree of usage of energy sources.

4 cl, 3 dwg

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