BE1000478A4 - Closed-circuit turbo-generator using heat from halogen lamps - has sequence of four tanks where water temp. is raised progressively from 60 degrees celsius to boiling point - Google Patents

Abstract

The radiation from the halogen lamps (6) is focused by lenses (4) on to opposite sides of a central tank (2) connected by pipes (1) to a water supply. The tank is fitted with a thermostatic probe (11), and the positions of the hot spots (3) are adjustable by raising and lowering of the lamps and lenses on threaded rods (8) screwed into slots in the base (9). Live steam is raised by an external heat source until enough surplus electrical energy is generated to supply the lamps, rendering the system self-sustaining. Condensate from the turbine is collected and returned to a recovery tank.

Description

       

  Closed-circuit electricity generator

  
( perpetual motion )

  
The invention consists in producing electricity from a turbine powered by steam generated by new energy produced by a halogen lamp in front of which is placed a magnifying glass which produces a very important heat point.

  
Currently the production of electricity is guaranteed either by nuclear power or by coal or fuel power plants.

  
The cost of the operation is expensive and the energy required for this production of electricity is not inexhaustible.

  
Description of the steam generator.

  
o

  
The recovery tank is heated to 60 c the first tank is

  
 <EMI ID = 1.1>

  
heated to 80 c, the 2 nd tank is heated to 110 c, the 3 rd tank is heated until steam production, the 4 th tank is heated to live steam production.

  
N.B. All these tanks are interconnected and heated by lamps and magnifying glasses which we will have placed on supports provided for this purpose.

  
along the steam producing tanks.

  
It is possible to place only one heating point on a tank and more if this proves essential.

  
The larger the magnifying glasses, the thicker and more intense the heat produced.

  
On the other hand, the clearer and more precise the heating point, the greater the heat.

  
Live steam turns the electricity-producing turbine. A small part of this electricity is recovered to power the lamps of the steam-producing circuit.

  
Live steam condensing during operation is recovered and returned to the recovery tank of the steam producing circuit

  
to avoid heat loss.

  
It is necessary to place on the steam generating installation thermostatic probes connected to the electric circuit which will control

  
and set the required temperature for each tank.

  
N.B. The start of the operation requires an external energy supply in order to heat the water tanks which will dispense the steam necessary for the operation of the turbine.

  
Once this operation has been carried out, the external energy supply must be eliminated because the turbine will be able to produce its own electricity for the operation to take place.

  
The object of the present invention is to remedy the drawbacks of the cost of producing electricity and of the lack of future energy necessary for this production.

  
) The invention consists in creating a device producing electricity at

  
 <EMI ID = 2.1>

  
from heated water tanks using a system characterized by magnifying glasses and halogen lamps.

  
Before producing its own electricity the invention needs energy

  
 <EMI ID = 3.1>

  
The advantages obtained thanks to this invention consist essentially in producing electricity free of charge in inexhaustible quantities. This installation is not polluting and requires no special care.

  
The invention is set out below in more detail using drawings representing only embodiment.

  
Fig. 1 shows the heating system (lamp + magnifying glass) needed to produce the steam.

  
Fig. 2 shows the support and adjustment of this system.

  
Fig. 3 represents the set of electricity and steam.

  
 <EMI ID = 4.1>

  
All the figures representing a closed-circuit electricity producer system.

  
Support .9. on which the magnifying glasses are fitted. 5. the lamps .6.

  
 <EMI ID = 5.1>

  
on the tank. 2. piping. 1. and causing a heating point. 3. on the tank. 2. where there is also a thermostatic socket .11 .. The assembly is fixed by cable ties .10. the lamps and the magnifying glasses are fixed to the support by threaded rods .8 ..

  
Fig. 2 shows a detail of the support of the apparatus .9. notch provided for the adjustment of the heating point left right .13 .. Fig. 3 represents the energy producing assembly composed of a turbine .14. of a transformer .17. a general power supply circuit for halogen lamps. 18. a recuperator. 19. a dead vapor recovery manifold. 20. a steam generator appliance connection manifold. 16. and steam generating system .15. and an external energy input .21 .. Fig. 4 representation of fig. nr 1 steam producing circuit.


    

Claims (1)

Claim Characterized by a system of interconnected water tanks fig. 4 on which we fit complete switchgear supports .9. composed of halogen lamps. 6. and magnifying glasses. 5. causing a heating point. 3. lamps and magnifiers can be adjusted from top to bottom. 7. and from left to right..13 .. The water tank system fig. 4 is heated by an external energy supply .21. until live steam is produced. <EMI ID = 6.1> to replenish the lamps. 6. halogen from the steam generating system. .15 .. At this time the external energy supply .21. is removed and the installation produces electricity in perpetual motion. Live steam condensing during operation is collected in a collector. 20. and returned to the recovery tank. 19. to avoid heat loss.