FR3055675B1 - ALTITUDE COOLING AND DISSIPATION SYSTEM FOR THERMIQUES PRODUCED ON THE GROUND AND ASSOCIATED METHODS - Google Patents

Abstract

The invention aims to reduce terrestrial global warming by improving thermal exchanges with the Space by reference at high altitude thermals produced on the ground in particular in industrial facilities, such as in power plants, nuclear, geothermal or other. The invention consists of a flexible multi-section flexible self-supporting long length maintained in altitude by an aerostat, for example a hot air balloon, equipped with an aerator to supply energy to the various devices stabilizing the positioning of said aerostat, among which a device for evacuating the gaseous mixture orientable and able to counter the effect of the winds, and devices ensuring the retraction of said chimney. The problem that the present invention proposes to solve is that of the anthropogenic increase in the rate of water vapor present in the atmosphere, which is a major contributor to the greenhouse effect, by transferring at high altitude the calories produced at the level of the soil, either directly or by condensation.

Description

ALTITUDE COOLING AND DISSIPATION SYSTEM OF THERMIQUES PRODUCED ON THE GROUND AND ASSOCIATED METHODS

INTRODUCTION

The scientific community agrees that global warming is due to human activity (anthropogenic), and that it is the combined increase in population and its energy needs over the past century and a half that is the main cause, since during this period the world's population has been approximately tripled, and the energy produced about multiplied by more than twenty, with an acceleration in the last fifty years.

Today, each new inhabitant of the planet consumes about seven times more energy than a century ago ...

The problem is that this energy, whatever its source, always ends up producing more or less heat at the level of the self, and that this additional heat increases the evaporation of the warm waters of the globe and thus reinforces the greenhouse effect by an increase in the amount of water vapor present in the atmosphere, and so on in a process that self-renews itself.

What is at stake is simply the future or even the survival of humanity, and the international community will have to find ways to bring down the greenhouse effect and to re-establish on a large scale as they were in the past. thermal exchanges with Space, in particular by reducing the amount of water vapor present in the atmosphere and essentially by combating its formation at the surface of the earth.

It is impossible on Earth to create cold otherwise than by heat transfer, so the only way is to send back to the upper atmosphere the surplus heat destroying the past equilibrium.

The solution presented here responds to this concern and can be useful in different situations, starting with a context of energy production; in fact, the energy produced in many power plants is produced by high-pressure steam turbines whose heat recovered by condensation reinforces the enthalpy of the Earth, and therefore to avoid this warming process, it is necessary to send at altitude either directly the water vapor for condensation, or the calories produced by the condensation generated on the ground.

The solution presented here is therefore mainly intended to be installed above cooling towers equipping including nuclear power plants, coal-fired power plants, geothermal power plants or any other installations producing heat, it being specified that among these installations to be equipped, this are the geothermal power plants that are the most efficient in response to global warming, since they simultaneously reduce the heat of the Earth (its enthalpy) from the inside and the outside.

These possible uses are not limiting, since the solution presented here can also be installed simply to cool the earth's surface for example in desert areas with solar energy source, or be used for depollution of city centers, by extracting through a network of mouths the polluted air and returning it to a peripheral installation to be treated by recovering in particular fine particles by condensation at altitude after saturation in moisture of the air to be cleaned.

STATUS OF TECHNOLOGY The Applicant did not find in the databases of patent applications for similar solutions or for the same purpose.

On the other hand, numerous patents have been filed relating to some of the components of the invention, as for example concerning altitude wind turbines, among which mention may be made of document US 20080296905 A1 presenting a "Systems and methods for captive wind turbines", or the document US 20140252776 presenting a "high-altitude wind energy production system with cycloidal turbine and motor-generator, and the mode of operation of the same".

Numerous applications have also been filed concerning propulsion nozzles, for example, among the most recent ones, which may be mentioned EP 1640590 B1 presenting a "Variable section exhaust nozzle with steerable lateral guidance of the exhaust gases", or still EP 1045129 B1 having a "axisymmetric ejection nozzle convergent divergent and steerable".

DESCRIPTION OF THE INVENTION The invention (100) comprises a set of devices making it possible to evacuate at altitude any gaseous mixture extracted on the surface and to separate the various constituents by phase change by exposing said gaseous mixture to the altitude temperatures. for example, moist air extracted on the surface and separated by condensation of the moisture it contains, with reference to the ground level of the water thus distilled. The invention (100) is characterized in that it consists of a base (500) grouping devices installed at the level of the extraction floor of the gaseous mixture to be evacuated, and also consisting of devices forming an evacuation duct extensible and self-supporting multi-section (400) through which said gaseous mixture is evacuated, said sheath being surmounted and towed by a device consisting of an aerostat (200) wholly or partially supplied with hot air and towing in addition to said sheath (400 ) an energy-autonomous system (300) by means of a wind turbine, pivoting about said duct and channeling the evacuated flow so as to sustain and stabilize said altitude balloon (200) by means of complementary propulsion devices.

The maintenance and the rigidity of the assembly are in particular ensured by the existing pressure inside the sheath, by the devices ensuring the partial lift of the sections constituting the sheath, by the buoyancy of Archimedes raising the closed top balloon and by the thrust exerted by the expulsion under pressure of the gaseous mixture discharged by the steerable nozzles equipping the pivoting structure (300) installed under the nacelle (220). The invention (100) is characterized in that it consists of a base (500) of a shape adapted to the receiving structure (590) on which it is fixed, for example cylindrical, and provided with high pressure extractors (510) propelling the gaseous mixture to be evacuated to the altitude balloon (200) at altitude inside the self-supporting sheath (400), and said base comprising a perforated cylindrical central portion (520) leaving the gas evacuate, for example by using a lattice for its realization, and around which are stacked the different sections of the sheath when it is retracted, and also characterized in that is installed in its center a device (530) for winding / unwinding the rope (540) connecting the base (500) to the altitude balloon (200), it being specified that the deployment of the assembly is made possible by sending the gaseous mixture under pressure to the altitude balloon (200) through the center portion ale cylindrical (520) until total deployment of the sheath. The invention (100) is characterized in that the gaseous mixture to be evacuated at altitude is by means of an exhaust duct (400) composed of a plurality of concentric sections and of decreasing diameter from bottom to top. end-to-end and interconnected by circular pieces (410) ensuring both the junction of the sections between them and the rigidity, and within which the rope (540) freely slides, with the exception of the piece terminal (412) installed on the upper section and in the center of which is fixed said rope. The invention (100) is characterized in that the upper end of said sections comprises a peripheral sleeve (420) filled with a gaseous mixture lighter than the outside air, for example helium, hydrogen or hot air from the sheath, and in that the volume of said sleeve is calculated to make self-supporting said section. The invention (100) is characterized in that the lower end of said sections comprises an inner peripheral gutter (430) collecting liquid condensates dripping on the inner wall and allowing said condensates, for example water, to flow towards the wall of the following immediately lower section by means of evacuation devices (432).

To obtain the height to be achieved, the different sections are stacked on each other in a pseudo-pyramidal manner in that their diameter decreases according to the height of their installation; for example to obtain a total height of 3,000 meters, and for the sole purpose of understanding, the evacuation duct may consist of 30 sections of 100 meters, with a diameter of 39 meters for the lowest and 10 meters for the highest, so that their diameter decreases by 1 meter per section. The invention (100) is characterized in that it consists of a traction device composed of an aerostat (200) fed wholly or partially by hot air, and that said aerostat (200) comprises at least one least one double jacket (210), composed of a sealed outer envelope (212) inside which is held by links (216) a second envelope (214) of smaller diameter, it being specified that the existing volume (213) ) between the two shells is filled with a gaseous mixture lighter than the outside air, for example helium, hydrogen or a hot gas mixture from the sheath. The gaseous mixture evacuated under pressure by the sheath fills and supports said inner casing (214), before descending through the openings (224) to the nozzles (320) installed on the structure (300). The invention (100) is characterized in that it consists of a traction device composed of an aerostat (200) at the lower end of which is fixed a nacelle (220) accommodating the various elements customary for monitoring an aerostat of this type and having in its center a cylindrical opening through which the sheath (400) passes, and around which is made mobile by means of bearings (222) the structure (300) which is below it attached , it being specified that the airtightness is ensured by the flat peripheral seal (226). The invention (100) is characterized in that a structure (300) pivoting freely about a vertical axis and driven in its rotation by the controlled position according to the wind is installed beneath the nacelle of the aerostat (200). by the rear rudder (313) of the generative wind vane device (310) equipped at the head of a propeller (311) coupled to a generator (312); in addition to providing the steering devices of the invention with information concerning the force and the orientation of the wind, said generator vane device (310) provides the installation with the electrical energy necessary for its operation, including that necessary for the orientation of the nozzles (320) as a function of the wind force to reduce its effect on the horizontal movement of the balloon. The flow to be evacuated is thus channeled so as to stabilize said altitude balloon (200) by the following means; a plurality of motorized spherical valves forming nozzles (320) in that they comprise in their center a hollow cylinder whose vertical axis is slightly outwardly displaced with respect to the vertical and through which is channeled the gaseous mixture to be expelled cylinder whose horizontal axis (322) is perpendicular to the directional axis of the generative wind vane (310), the pivoting of said spherical valves around this axis (322) to guide the said expulsion nozzles is almost vertically in case of absence of wind, or to orient them to counter the power of the wind, being specified that in position "of rest" in case of absence of wind the slight deviation towards the outside of the vertical axis of each of said nozzles (320) makes it possible to balance the position of said balloon, and that the rotation at 90 ° about their axis (322) of the spherical valves allows their complete closure.

FIGURES

The accompanying drawings illustrate the invention according to some embodiments, are not necessarily scaled and are presented there for the sole purpose of understanding.

FIG. 1 represents a general sectional view of the main elements constituting the invention (100)

FIG. 2 represents partial sectional and top views of the main components of the altitude balloon (200) and the structure (300).

FIG. 3 shows partial sectional and top views of the main components of the exhaust duct (400) and the extraction base (500).

Claims (10)

A system (100) for evacuating at altitude any gaseous mixture extracted at the surface and for separating the different constituents by phase change by exposing said gaseous mixture to the altitude temperatures comprising stabilization devices and evacuation devices. condensates. System (100) characterized in that it consists of the following devices: - a base (500) gathering extraction and towing devices, - a self-supporting extensible evacuation duct (400) traversed by a towing cable, - An altitude aerostat (200) supplied wholly or partially by hot air, - A system (300) complementary levitation and stabilization - A set of control devices and control. 2- System (100) according to claim 1, characterized in that the base (500) of a shape adapted to the receiving structure on which it is attached is provided with extractors (510) high pressure propelling at altitude to inside the self-supporting sheath (400), the gaseous mixture to be evacuated to the altitude aerostat (200), and that said base comprises a perforated cylindrical central part (520) allowing the gaseous mixture to evacuate and around of which are stacked the various sections of the expandable sheath when it is retracted, and that the base comprises in its center a device (530) winding / unwinding of the cable (540) connecting the base (500) to the altitude balloon (200). 3- System (100) according to claim 2, characterized in that it comprises at least one expandable multi-section exhaust duct (400) and composed of a plurality of sections placed end to end and interconnected by circular parts (410) ensuring both the junction of the sections between them and the rigidity, and inside which freely slides the towing cable (540) whose upper end is fixed an end piece (412) installed on the upper section. 4. System (100) according to claim 3, characterized in that the extensible multi-section exhaust duct (400) is composed of a plurality of sections whose upper end comprises a peripheral sleeve (420) filled with a gas mixture lighter than the outside air, for example helium, hydrogen or hot air from the sheath, and in that the volume of said sleeve is calculated to make self-supporting said section. 5. System (100) according to claim 3, characterized in that the expandable multi-section exhaust duct (400) is composed of a plurality of sections, the lower end of said comprises an inner peripheral gutter (430) collecting the liquid condensates dripping on the inner wall and allowing said condensates to flow to the wall of the next lower section by means of evacuation devices (432). 6. System (100) according to claim 1, characterized in that it comprises at least one traction device composed of the aerostat (200) supplied wholly or partially by hot air, and in that said aerostat (200) comprises at least one double envelope (210), composed of a sealed outer envelope (212) inside which is held by links (216) a second envelope (214) of smaller diameter, it being specified that the existing volume (213) between the two shells is filled with a gaseous mixture lighter than the outside air, for example helium, hydrogen or a hot gaseous mixture from the sheath; it being specified that the gaseous mixture evacuated under pressure by the sheath fills and supports said inner casing (214), before descending through the openings (224) to the nozzles (320) installed on the structure (300). 7- System (100) according to claim 6, characterized in that a traction device composed of the aerostat (200) at the lower end of which is fixed a nacelle (220) having in its center a cylindrical opening through which passes the sheath (400), and around which is made movable by means of bearings (222) the structure (300) which is below it attached, it being specified that the airtightness is provided by a peripheral seal dish (226). 8- System (100) according to claim 7, characterized in that is installed under the nacelle of the aerostat (200) a structure (300) freely pivoting about a vertical axis and driven in its rotation by the controlled position according to the wind by the rear rudder (313) of a generator vane device (310) equipped at the head of a propeller (311) coupled to a generator (312). 9- System (100) according to claim 7, characterized in that is installed under the nacelle of the aerostat (200) the structure (300) complementary equipped with devices for stabilizing said altitude balloon (200) and to complete its propulsion lift by means of devices consisting of a plurality of motorized spherical valves forming nozzles (320) in that they have in their center a hollow cylinder whose vertical axis is slightly outwardly displaced relative to the vertical and by which is channeled the gaseous mixture to be expelled and in that they pivot about their horizontal axis (322) perpendicular to the directional axis of the generative vane (310) which feeds them, so as to be able to orient and or stopping the gaseous mixture leaving the nozzles (320) as a function of the power of the wind. 10- System (100) according to any one of the preceding claims, characterized in that the set of devices for controlling and controlling information is able to optimize the operation and a part of which is installed in the nacelle (220) of the aerostat, comprising inter alia the various elements customary for monitoring the aerostat (200).