LT5628B - System for accumulating of energy from an environment - Google Patents

Abstract

The invention relates to energetic. A heat collector, a load assembler, freeze, heat and electric capacities, control part are connected to common energy accumulating system from an environment. That system can be made stationary, mobile, integrated to another systems or compose with another system different combination. System is universal and can be used for land and water transport to move without fuel, for creating mobile work place, to provide buildings and houses with heat and electricity. System can provide a freeze, heat, electricity directly and by exchangeable capacities.

Description

The invention relates to the field of energy and can be widely used in: home and building construction, transport, industry, agriculture, business and many other fields.

The invention is based on two other inventions:

Solar panel solar panel -2008 LT application no. 038 and

Load Collector - LT 2008 Application No. 043.

Renewable energy sources are commonly used to heat various buildings and homes. Heat and solar collectors are used by ships. The object of the invention is to supply heat, electricity to buildings, machinery, other activities only by means of heat accumulated from the environment on the basis of the energy storage system EKAS. An analog of the invention could be solar thermal collectors and solar photovoltaic panels. These units provide heat or electricity separately. The main disadvantage is that huge energy collectors are needed to provide large area photovoltaic panels to meet their energy needs. What is needed is a smaller and more efficient unit that simultaneously supplies heat and electricity. The present invention makes this possible.

Energy storage system EKAS

A schematic diagram of the structure of the present invention is shown in FIG. The main elements of the EKAS system are: a basic planar heat collector, which collects ambient heat, a basic charge collector needed to collect electrostatic charges and convert them into electricity; additional cold, heat and electrical capacity; system control chain.

The extended base module of EKAS additionally connects other heat collectors, other heat sources, other load collectors, other electrical sources. The EKAS system can operate on a fixed installation; being mobile, moving by itself or using another system; integrated into other systems as an integral part of them; make combinations and combinations with other systems. There are various applications for the EKAS system.

SUMMARY OF THE INVENTION: A multi-stage power transmission circuit is used. The ambient heat is collected in the tanks of the flat-plate heat collector. The heat is fed to a charge collector, where intense gas flow movements are initiated. The gas on the surface of the device causes electrostatic charges, which are collected and converted into a constant or alternating current. The latter may be transmitted or used locally. The ESAS system has stored energy in the form of cold, heat and electricity. Existing tanks can be made interchangeable. The conditions are created for other systems to replace exhausted tanks with filled ones (cold, heat, electricity - individually or in combination), application of the invention and more specific technical solutions are given below.

The invention is illustrated in the drawings:

Fig.1 Flow chart of energy storage from the environment in ESAS

Fig.2 Ways of applying energy storage from the environment to ESAS

Fig.3 Mobile EKAS module

Fig.4 ESAS Application - Mobile Workplace

Fig.5 Application of ESAS in land transport systems

Fig.6 Application of ESAS in water transport

Fig.7 Application of ESAS in building and home system

Fig.1 Flow chart of energy storage from the environment in ESAS

The main elements of the system are: basal planar heat collector, collecting. ambient heat and having external and internal connections for connecting other heat collectors or sources. It is a self-contained thermal machine that can provide cold and heat. The basic charge collector required to collect electrostatic charges and convert them to electricity. Additional cold, heat and electric capacities that extend the capacity of both the heat collector and the charge collector (these units have their own heat or electric capacities). The system management link needed to coordinate collaborative work.

It is possible to connect other same or different heat collectors, other heat sources (environment, water, soil, heat emitted by other technical systems), other load collectors, other electrical sources to the basic EKAS module.

The drawing shows the EKAS module (additionally Fig.3), the combinations and combinations of EKAS systems (additionally Fig.4,5,6,7), EKAS and other systems (additionally Fig.5).

Fig.2 Ways of applying energy storage from the environment to ESAS

The drawing shows only a few basic uses of ESAS, as they can be offered in almost all areas of human activity that require heat and electricity.

Land and water transport. Green urban transport that does not pollute the environment or use any fuel. All cars, trucks, spec.

transport, buses, trolleybuses, trams, trains, subways, ships, ferries, yachts can all provide the energy they need to move themselves.

Buildings and houses. Provided with heat and electricity. It can be various stadiums, sports grounds, swimming pools. Private and public buildings: dwellings, baths, cafes, restaurants, hotels, business establishments, etc.

Local small power plants serving, for example, several homes or a small settlement. Mobile workstation (additionally fig. 4). Industry, business, agriculture, tourism, etc. EKAS can be combined and combined with a variety of systems. In the future, ECAS can become a kind of energy supply network. Not only the required energy can be charged at individual points, but also the exchanged heat or electricity tanks can be exchanged.

Fig.3 Mobile EKAS module

The drawing shows a mobile autonomous EKAS module with the following main parts: In housing 1, which contains all the parts and units required for the system (plane heat collector, charge collector, capacitors). The surface of the housing may be formed by a heat recovery unit (heat transfer tubes are placed directly below or below its surface). 2. Cold storage tanks 3 and heat storage tanks. This section includes the heat collector assemblies (not shown), the charge collector module 5 to convert the electrostatic charge into electricity, the control part 6. the movable platform 7 with wheels, the cold supply connections 8, the heat supply connections 9. - the DC supply connections 10, - AC power connectors 11.

Fig.4 ESAS Application - Mobile Workplace

Machine 12 that can move and work on the basis of the EKAS system. All standard machines with the characteristics of an electric car can be. Heat extraction tubes may be placed on the top, above or below the body of the machine. 13. The EKAS system is located inside the machine. 14. The machine's electrical accumulator system for accumulating 15 electrical charges. Capacities are variable. Electrical part of the machine 16. Functional part required for work or activity Part 17, the workstation is arranged according to the nature of the work. These can be machines for a wide variety of applications, such as auto-mechanical workshops, construction-repair work, outdoor cafe kitchen, dentist's office, laboratory, geologist's office and so on. In each case, this functional module must be fitted to the nature of the work and be filled with the necessary equipment and systems. The mobile workstation gives you the ability to perform the functions you need, regardless of other power sources.

Fig.5 Application of ESAS in land transport systems

Only the use of cars, trucks and trains are shown. In fact, there is much greater scope for ESAS applications. The EKAS system is installed in the engine compartment of the light truck 18 and the truck 19, inside the drive carriage of the train 20, inside the passenger carriage 21, as a separate large mobile towable ESAS system 23. Possible solutions for positioning the heat pipes 22 The heat pipes can also be located at the bottom of the machines.

Fig.6 Application of ESAS in water transport

Water transport can take heat not only from the air but also from the water. The illustration shows several locations of the heat pipe tubes 25 on board 24 - the upper part of the vessel takes heat from the environment (sun, air), the heat pipes below the hull 26 take heat from part of the hull above the water, partly 27 sinking into the water. Because these parts of the ship operate at different temperatures, different heat sinks are available that are adapted to operate in a more optimal temperature range. This is true for both large boats and yachts, ferries, barges and more.

Fig.7 Application of ESAS in building and home system

Building 28. Heat collection section 29 of the heat collector (on the roof or in the wall). Mobile EKAS system 30, separate exterior heat sink 31, water heat sink 32, ground heat sink 33, integrated indoor EKAS system 34. Various buildings, houses, stadiums, yards, swimming pools, etc. The combination of a heat collector and a charge collector enables the creation of an autonomous system independent of the energy supplied (heat, electricity). Possibility to service several houses or buildings. Can be a self-contained small EKAS power plant.

Essential features of the invention

1. The main distinguishing feature of the system is that the heat collector, the charge collector, the extra cold, heat and electric capacities and the control part are combined into a single energy storage system, EKAS, so that the heat collector supplies additional capacities and the charge collector with heat. for him and for external use.

2. Other heat collectors, other heat sources, other charge collectors, other electrical sources are connected to the EKAS system. We have a kind of multiplier: the EKAS system can be connected to a larger or smaller network. The capabilities of such an extended system greatly increase. There is not only a quantitative but also a qualitative advantage, such as the easy and fast transfer of heat from another source.

3. The EKAS system can be made stationary, mobile, integrated into other systems, to form various combinations and combinations with other systems.

4. In-vehicle EKAS modules and manifold heat sinks allow land transport: cars, trains and other vehicles to run on their own without fuel.

5. The EKAS system is designed to create a mobile workplace, all you have to do is provide special vehicles with an EKAS module, collector heat siphons, and an automated activity module for your work and function.

6. The ESAS system is adapted for water transport of ships, yachts, ferries, etc. swim without fuel.

7. Combining stationary, built-in and mobile EKAS systems, it is possible to store heat from several different sources into electricity and independently heat and power buildings and homes.

8. Many heat collector and load collector systems can be integrated into a single EKAS power plant system.

9. The ESAS system is adapted for use in industry, agriculture, business, tourism, etc. provides heat and electricity for the operation of buildings, machinery and technology lines.

10. The EKAS-based ESAS network supplies other systems with cold, heat, electricity directly and with replaceable tanks.

All these attributes give the ESAS advantages.

Claims (9)

DEFINITION OF INVENTION 1. Environmental energy storage system with heat collector with heat collection and storage systems, characterized in that the heat collector is connected to a single energy storage system EKAS with a charge collector, with additional cold, heat and electrical capacities, with a control part . 2. The energy storage system EKAS according to claim 1, characterized in that the ESAS system is connected to other heat collectors, other heat sources, other charge collectors, other electrical sources through appropriate connections. 3. The energy storage system EKAS according to claim 1.2, characterized in that the EKAS system can be made stationary, mobile, integrated into other systems, to form various combinations and combinations with other systems. 4. The energy storage system EKAS according to claim 1,2,3, wherein the EKAS modules are installed in the vehicles and the collector heat siphons are placed above or below the surface of the machine body. 5. Environmental energy storage system EKAS according to claim 1,2,3,4, characterized in that the EKAS system is adapted to create a mobile workplace, has EKAS modules, collector heat siphons placed above or below the body surface of the machine and in the car. the activity module required for the purpose intended to perform the work and functions. 6. The energy storage system EKAS according to claim 1,2,3, wherein the ships, yachts, ferries have EKAS modules and manifold heat pipes in the upper part of the ships deck and / or in the internal, raised and submerged water of the hull. . 7. Environmental energy storage system EKAS according to claim 1, 2, 3, characterized in that the buildings and houses have fixed, built-in and connected mobile EKAS systems. 8. Energy storage system from the environment EKAS according to claims 1, 2, 3, 7, characterized in that several EKAS systems, the total respective heat and electricity capacities, the common control part of the system are connected to a common EKAS power system. 9. The energy storage system EKAS according to claim 1,2,3,4,5,6,7,8, characterized in that the cold, heat and electrical capacities of the EKAS system are exchangeable.