The «Inventor Oleg Vasilyev and Partners» company is formed with the aim of a creation of scientific-research works, work out new technologies and electronic devices in the sphere of energy saver of natural resources, and also information systems of prognosing, control and prevent from extremal situations.
One of the tasks of the Company is to show business that to go into use innovation technologies, a system and device at the market is profitable and perspective for them.
The development of energy saving technologies conception which our Company observes in its work at present and will continue to in the nearest future foresees the following points:
CONCEPTION OF DEVELOPMENT OF ENERGY SAVING TECHNOLOGIES
OPENING OF THE THEME
| 1 | WORKING OUT OF ENERGY-SAVING DEVICES WITH THE ECONOMICAL EFFECT FROM 30% AND MORE, ESPECIALLY FOR ELECTRIC GOODS WITH A HIGHER CAPACITY OF ELECTRIC CURRENT USE (FOR THE FIRST TURN FOR DOMESTIC TECHNIQUES AND CONSUMER GOODS). |
The first stage envisages a going into use of energy saving electronic installations at commodity market helps to which the capacity of the use of electric goods will be reduced at 30%. This concerns, for the first turn, electric goods which use big capacities from a variable current net.
| For example, the capacity of an electric kettle is 2 kilowatt. By means of an energy-saving device the kettle will consume of about 1,4 kilowatt. The real economy is 600 watt. Practically, in every flat (apartment) there are no less than four or five electric installations, and they use a bigger amount of capacity. And now imagine what load is achieved at electric cables and regional electric substations, especially during the rush-hours. |
Let us enumerate some electric goods which are in often use by people in their every day life in a flat (apartment) and a country house:
As you know, at present counters have got on sale energy-saving lamps and light diodes appliances. Yet, there are not enough of works out in this sphere. The sphere of consumption of electric energy in the sphere of electronic techniques within the latest decades of years has increased so that the modern power-stations and local substations can’t cope with the capacities. An overloaded with a capacity substation represents a source of a higher danger.
The main spheres of use of an energy-saving device are:
The given energy-saving device may be used as a separate construction (in which there may be joined different electric goods) and also in structures of the ready electric goods. For example, if an electro-technical goods is gabarit (a water-heater, a washing machine, a dishwashers, an electric-power heat, oil radiators) the construction of the energy saving device may be placed in the inner parts.
| 2 | THE DEVELOPMENT OF NEW DIRECTIONS: WORK OUT OF ELECTRONIC EQUIPMENTS WHICH WOULD BE ABLE TO TRANSFER AND TRANSMISS SAFE ENERGY EXCLUDING AN ELECTRIC CURRENT INJURE OF PEOPLE AND ANIMALS. |
Besides the effect of economy of electric power energy there are necessary works out in the sphere of safety of people and animals from an electric power injure.
The task of the energy saving device is a reduce of the used capacity of the power consumers from the net of the alternating current and a safe transfer of electricity over the wiring towards radio-electronic devices. The use of the new direction of the electric power is necessary in extremely dangerous conditions of life and work of people and animals. It is especially actual in those places where the moisture of the surroundings is 100% and there is a direct contiguity of people and animals with current-carrying wires and the earth.
These are:
| 3 | ELECTRICITY TRANSMISSION OF HIGH CAPACITIES OVER WIRES OF SMALL SECTIONS |
Helps to the work out of the new method of a safe electricity transfer it became possible to reduce the load on the wires in the net of alternating current. This, in its turn, reduces fire danger and protects from the wire flaring up at the units.
This effect allowed to transfer high capacities over wires of small sections. For example, to join a kettle of 2 kW to the net of the alternating current a wire of a no less section than 1 mm is necessary. With the inculcation of the new technology of transmission of safe electricity the section of the wire may be of 0.5 mm.
In this case we see an economic effect not only in the sphere of energy saver but in the economy of natural resources, in particular, copper.
| 4 | HELPS TO THE POSSIBILITY TO TRANSMISS BIG CAPACITIES OVER WIRES OF SMALL SECTIONS — TO DEVELOP METHODS OF TRANSMISSION OF ELECTRICITY OVER NEW TYPES OF ELECTRIC CONDUCTORS. |
Here is envisaged the use of a new method of transmission of safe electricity within the constructions of electric conductors of the new types.
In this case it is recommended to use the filmy technology by the method of metal filling the air with dust film pellice. Such a type of wiring may be performed along a wall without the method of indenting.
It is possible to mark a different quantity of conductors. The ends of the conductors transfer into the usual type of connecting wires for joining standard roses. This method may also be used if you lay the film along the ceiling to feed electric lamps and then to putty.
| 5 | TO INSERT AMENDMENTS INTO THE RADIO-ELECTRONIC DEVICES SCHEMES HELPS TO WHICH THE RADIO-ELECTRONIC DEVICES WILL WORK AT EVERY TYPE OF ELECTRICITY WITHOUT OUTER ADAPTERS OF CO-ORDINATION OF ONE FORM OF ELECTRICITY INTO THE OTHER. |
Modern radio-electronic devices work from the alternating current of 100/220 W. Using the new method of transmission of safe electricity these radio-electronic devices will not be able to work.
That is why it is supposed to produce electronic adapters or to join inside the electronic devices an additional scheme with the help of which the device may be joined to all kinds of electricity (alternating, direct and other forms of electrical energy).
| 6 | IN FUTURE TO WORK OUT A NEW CONCEPTION OF TRANSMISSION OF ELECTRICITY NOT USING A USUAL METHOD OF UNIFICATION ALL THE ROSES INTO ONE POINT. HERE EACH USER WILL HAVE HIS OWN SMALL ENERGY-STATION. THE PLANNED CAPABILITY OF MINI-ELECTRIC STATIONS WILL BE TO 20 W AND TO 220 W. |
This section demands some special studying as here a method of an autonomous feeding without a usage of net-roses of the tension of the alternating current. At the first glance the offered for a consideration capacities are not high.
But if to count how much all in all at one of the units there use power from the alternating current net television-sets, the space television, note-books (we don’t take into consideration stationary computers — from 200 W up to 400 W), musical centres and charge arranges, then we shall get a power consumption in the limits of 20 — 100 W. Here is enumerated not the whole list of the electronic apparatus and we here observe the electronic devices practically working constantly and using the energy from the alternating current net, even in the condition of waiting.
Now we shall take the Belorussian Republic to compare with. The population of Belorussia is 9 mln 5 thousand people for the year of 2014. In each flat (apartment) or in a country house there is a number of electronic devices. It means that the minimum of the used power by electronic apparatus for 24 hours is equal to 20 — 100 W per hour per/man.
Let us consider the table to compare:
Let us multiply (for the calculation we take 100 W) 100 x 9.500.000 = 950.000.000 (950 megawatt) power per hour. Then the quantity for 24 hours: (100 x 24 = 2.400 W ( 2.4 kW) per 24 hours. Then 2.400 W x 9.500.000 = 22.80 gigawatt.
Even if we reduce the power used as little as 5 times (20 W per 24 hours), all the same the sum will be gigantic, of about 4.56 gigawatt. The expenditure of the electric current will be 136.8 gigawatt per month.
To compare it — one power-generating unit of a modern electrical power station is capable of producing the capacity of 500 to 800 mln. watt-hour.
To feed only radio-electronic consumer goods it is necessary to use several power-generating units.
In this case many other radio-electronic devices which are being in use not only at home but at enterprises were not considered. Here comes a conclusion that having such a mini-electric station at home only in the territory of the Belorussia Republic, it is economized more than 4 (four) gigawatt power of electric energy per 24 hours (the electric energy will be produced helps to the use of the mini-energo station). Thus, there will be an economy not only for people but for the the republic as a whole.
NOW WE SHALL CONSIDER ANOTHER ASPECT OF THE GIVEN TECHNOLOGY: HOW IT IS POSSIBLE TO SELL THIS GOODS TO A USER.
If the given technology is the property of a republic or a company selling electric energy, a device must have a licence for using electrical energy from mini-electric-stations per one year. An approximate price of the licence will be 700 roubles per year. If a 100 W installation is on sale and is being used 24 hours constantly, 1 kW of electrical energy will cost nearly 80 copecks.
At present the price of 1 kW is of about 3 roubles (an average sum in Russia). 100 W x 24 hours x 365 days = 876 kW per year. 700/876 = 0,799 = 0,8 roubles per 1 kW.
It is almost 4 (four) times cheaper. We are taking into consideration the Belorussian Republic or other republics with the population of more than 9.000.000 people. If every family uses one or a few mini-electric stations a year profit of the state or a company will be: 700 x 9.500.000 = 6.650.000.000 roubles (6.65 mlrd roubles). Per month it is 35 roubles for one dollar; it is 15,8 mln dollars per month.
The licence on the usage of the given mini-electric-station may be sold in future all over the world. And here turns out to be a gigantic sum of money! Only in Moscow live more than 10 mln people not to speak of the scales of the whole Russia. In India there live more than a milliard of inhabitants (of about 1 mlrd 177 mln people), and there the question on the energy saver takes the first place. And the same question arises in all the countries where exists an energy crisis. The given technology will find its application in many spheres of life of man’s vital activity, including in the sphere of safety, automatization processes at enterprises and in daily round. It is as follows:
Mini-electric stations can be produced in a stationary form and it is possible to install them in the inner parts of a radio-electronic apparatus (television-sets, charge arrangements, uninterrupted sources of sullpy and others.) A mini-electric station can be made in a transfer variant.
| 7 | DELABORATION OF ELECTRONIC ARTICLES INTENDED FOR FEEDING REFRIGERATORS, FREEZING CAMERAS AND OTHER ELECTRIC DEVICES USING ELECTRIC MOTORS. |
In this case the rose of the alternative current is used. At first the electric motor of the refrigerator begins to work, and then there is a transmission to an autonomous mode of rate of work (the refrigerator works from a mini-energy station). Modern refrigerators use from 80 to 150 W at a working rate.
Only at the start moment of the electric motor the consumption can jump to a few hundred W. That is why the use of the mini-electric station will be with the system of a preliminary start and then a transmission to work in the mode of operation of the autonomus supply. Thus, we get an economic effect of the use of power.
In case of using accumulators and transformers of the tension of 12/220 W the rose of the tension of the alternative current will not be needed. The charging of the accumulator will always be carried out independently from the work of the refrigerator. Such mini-energo stations can find their usage in cases of employing electric consumers of the power to 150 W.
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