FR2549157A1 - Electrical power station - Google Patents

Abstract

The invention relates to an installation for producing electricity with the aid of free-of-charge, inexhaustable and continuous energy obtained by the difference between isotherms and isobars, with respect to and proportional to altitude and to depth. The installation is characterised by the fact that it comprises at least one pipe in which is located at least one turbine connected to an electric current generator and actuating this generator, the ends of the said pipe communicating with the atmosphere in such a way that in the said pipe it can generate or there may be generated a flow of air capable of actuating the said turbine. The installation represented by the drawing consists of a well 1 connected to a chamber 2 through the use of a tunnel 3 and opening out into the atmosphere at a low altitude level 4, for example at sea level. According to the invention, this installation is particularly intended to produce free-of-charge electricity and to replace oil, coal, uranium and other materials for producing energy.

Description

POWER PLANT
The subject of the present invention is a power plant for producing electricity using free, inexhaustible and continuous energy, enabling high efficiency and power to be obtained, obtained by the difference between isotherms and isobars. , relative to and in proportion to altitude and depth.

 This installation is characterized in that it comprises at least one pipe in which is disposed at least one turbine connected to an electric current generator and actuating the rotor of this generator, the ends of said pipe communicating with the atmosphere so & generate by means of convection a current of air, caused by the difference between isotherms and by the difference between isobars, existing between the bottom of the lower well and at the top of the upper well, capable of actuating said turbine.

In the attached schematic drawing, given by way of example
Figure 1 is a vertical sectional view of a possible embodiment of the installation according to the invention; and
Figure 2 is a cross-sectional view along line II-II of Figure 1.

 The electricity production installation shown in the drawing comprises a well 1 connected to a chamber 2 by means of a tunnel 3 and opening into the atmosphere at a low altitude level 4, for example at sea level .

 Chamber 2 communicates with the bottom of a second well 5, of any cross section, in this case circular. The upper end of well 5 opens into the atmosphere at the top of a mountain 6, i.e. at an altitude higher than level 4 so that there is a difference in atmospheric pressure between level 4 and the top of the mount 6. This pressure difference causes an air flow through the wells 1 and 5, the chamber 2 and the tunnel 3.The well 5 is provided with hollow walls 7 forming conduits, parallel to the well 5, in which the air will tend to flow faster than in well 5 since it will not have to overcome the resistance of the turbines 10 to 15, as is the case in well 5, thus promoting a certain suction of air out of the well 5 at the top of it like a water pump. The air flow in the well 5 and the walls 7 is further favored by a convection effect, in particular by the temperature differences prevailing at the top and at the bottom of the well 5.

 In the well 5 are installed and superimposed the turbines 10 to 15 which rotate the rotors of the alternators 16 to 21, housed in the chambers 22 to 27, dug in the vicinity of the well 5.

At the bottom of the well 5 is provided a chamber 8 containing a drawer or register 9 used to regulate the air flow in the well 5 and in the walls 7
Various modifications can be made to the installation described above by way of example. For example, several wells 5 can be drilled between the chamber 2 and the top of mount 6. Instead of all leading to the top of mount 6, and insofar as the topography of the region where the installation, some wells can be in the form of galleries opening into different valleys in order to benefit from the barometric differences that can create different atmospheric conditions that may exist in these valleys, each of these wells or galleries being equipped with turbines driving alternators or others electric current generators.

As a variant, the bottom of the well 5 visible in FIG. 1 could open out at the bottom of the mount 6 in the vicinity of the orifice of the well 1, so that the pipe portions that form the passages 1 to 3 can be eliminated. In a flat configuration region, it would also be possible to envisage the construction of a chimney whose two ends would communicate with the atmosphere sphere and whose height would be sufficient to generate a current of air.

Claims (5)

CLAIM  1. - Installation of electricity production using free energy obtained by the difference between isotherms and isobars. It is characterized by. the fact that it comprises a well, a horizontal tunnel, a chamber connected to a well with hollow walls1 opening into the atmosphere at a suitable altitude.  2. - Installation according to claim 1, characterized in that the means used to generate electricity is a simple combination of wells, horizontal tunnel, chamber connected to a well with hollow walls.  3. - Installation according to claim 1, 2, characterized in that in a flat region, it would be possible to envisage the construction of a chimney whose two ends would communicate with the atmosphere and whose height would be sufficient to generate a air current capable of turning turbo-alternators Protection of this chimney against possible external shocks could also be envisaged.  4. - Installation according to claim 1, 2, 3, characterized in that with a single well, a horizontal tunnel, a chamber of suitable dimensions, it is possible to serve several wells with hollow walls and operate turbo-alternators.  5. - Installation according to claim 1, 2, 3, 4, characterized in that for possible rapid achievements of this patent, it is possible to adjourn the execution of the horizontal tunnel, chamber and well with hollow walls, by replacing the well with its walls by a conduit or a gallery and place this conduit or this gallery on a slope or a mountain slope. The lower parts of the duct or gallery will be placed at the bottom of the well dug itself in the valley or at the foot of the mountain. For even faster constructions, the execution of the well can be postponed by placing the lower parts of the duct or gallery in the valley or at the foot of the mountain.