WO2024031205A1 - A method and application of a model used to increase rainfall and atmospheric humidity in areas selected according to temperature, pressure and relative humidity gradients - Google Patents

Abstract

The present invention relates to a method and model used to increase atmospheric humidity in coastal areas with a lack of rainfall. The invention more specifically relates to the practical application of a method and device for generating and guiding atmospheric fluxes with a high water vapour load and delivering it to areas where it is required by means of both natural and artificial condensing mechanisms, according to the selected route.

Description

TITLE OF THE INVENTION

A method and application of a utility model to increase rainfall and atmospheric humidity in selected areas according to temperature, pressure and relative humidity gradients.

DESCRIPTIVE MEMORY

Technical Sector

The present invention refers to a method and useful model to increase atmospheric humidity in coastal areas with rainfall deficit. More specifically, to the practical application of a method and device to generate and direct atmospheric flows with a high load of water vapor and deliver it to areas where it is necessary, through both natural and artificial condensation mechanisms, according to the chosen route. .

Previous Technique

The need in recent years for water resources has diversified into urban and rural needs, the latter being vital for the former with their continuous contribution of food, resources and labor. The importance of regulating and caring for water contributions is addressed in a multisectoral manner, giving rise to the most diverse and ingenious solutions.

The invention patent DE 10 2020 003 910 A1 dated 12/30/2021, entitled "Crystalline water storage and related method for creating a snow cover", by inventors Robert Staudacher, Christian Wagner and Markus Lang, describes the formation of a snow cover structure. ice called Ice Stupa for its inverted trumpet shape, created from water sprayed at subzero temperatures from a nozzle attached to the top of a mast. The water pressure to generate the atomizing effect of the nozzle is generated by the hydrostatic pressure of a reservoir located at a higher altitude. Ice Stupas have been used in the mountainous region of Ladakh, India, providing water into the summer months.

The invention patent JP5567594B2, of Oscilla Power Inc, dated 07.01.2009, entitled "Ocean wave energy harvesting method and apparatus", describes a method and apparatus for generating electricity by converting the mechanical energy of waves, using the property magnetostriction.

The invention patent US9688373B2, from Liquid Robotics Inc dated 06/12/2014, entitled "Watercraft equipped with a wave-powered electricity generating system and a deployable tow buoy", describes a hybrid vessel that converts the movement of waves into driving force by mechanical means and also converts the movement of waves into electrical energy to store it in a battery.

The invention patent US8102065B2 by Miles Hobdy dated 11/14/2008, titled "Wave energy converter", describes a wave energy converter by means of a pendulum that generates electrical energy by magnetic induction. The invention patent JP5604310B2 of "dated

04/21/2011, titled "Wave energy plant", describes a undimothz power plant for extracting electrical energy from water waves, which is produced intermittently with cyclic movements to varying degrees. Because of the high energy density of ocean waves, almost 1000 times greater than the energy density in wind, it allows small wave energy converters to operate for their capacity, so it costs less. Furthermore, wave energy being more predictable than wind energy, it results in a slow variation in the average wave energy capacity, which provides advantages to the system when the wave energy converter is connected to the general power distribution network.

The invention patent US3567953A by Bruno Lord dated 03/10/1969, entitled "Tide-operated power plant", describes a tidal power plant consisting of an electric generator mounted on a float, a driving line for said generator, anchored with with respect to the bottom of the water, by which the movement of the float up and down driving the generator.

Brian L. Moffat's invention patent US9500176B2 dated 11.05.2010, titled "Wave energy apparatus having a venturi shroud", By accelerating water through a venturi device, maximizes the amount of energy a device extracts from the ocean.

The Fondecyt project "History of Relict Cloud Forests and their Relationship with Climate Changes During the Holocene, in the Semiáñda Region of Chile" developed by Maldonado A. and Marquet P., 2006. Describes the situation of the cloud forests belonging to the Fray Jorge Biosphere Reserve, correlating periods of seasonal tree growth, fog rates and the El Niño climate phenomenon.

In conclusion, none of the solutions described above provides a device and method that allows generating a substantial and sustained increase in atmospheric humidity based on tidal force and directing atmospheric flows with a high water vapor load to required areas.

Disclosure of the Invention

As the first objective of the invention, it is necessary to develop a method that allows large quantities of water vapor to be obtained at sea level, to then be directed inland. This is why the main variables that affect evaporative processes must be measured to determine the height that the water vapor column will reach and the distance it will reach from its point of origin. These variables are: water temperature, atmosphere temperature, atmospheric pressure, prevailing winds and plant biomass within the soil.

Once the moisture-laden clouds enter, they are directed following, as Makarieva and Gorshkov (2006) point out, the physical principle where horizontal flows of air and water vapor are directed from areas with less evaporation to areas with greater evaporation. Thus, natural forest ecosystems are capable of pumping atmospheric moisture from the ocean in sufficient quantities to maintain optimal soil moisture reserves. The Foehn effect occurs when the mass of water rises through a high relief, condensing and the effect of "Biotic Pump" directs the hydrological cycle on land towards established vegetation.

The second objective of the invention is to offer a utility model of the nautical buoy type, which operates with the method described above, to create, by means of tidal energy, a continuous spray that saturates the atmosphere with water vapor and that upon reaching an atmospheric point With a temperature above the average temperature of the air, its phase change occurs, from liquid to gaseous, integrating into the atmosphere.

Of the various nautical buoy models analyzed, most of the patents that can incorporate a piston mechanism into their energy generation system are feasible to use, with the height of the ejected water column, dispersion and drop size being the variables for consider team performance.

Brief Description of the Drawings

Figure 1 shows various types of buoys that produce energy by taking advantage of the force of the waves.

Figure 2 shows a simple mooring maritime buoy, with a mooring bar with different positions for chain attachment and with adjustable ballast, allowing compensation for the inclination of the buoy subjected to the prevailing current.

Figure 3 shows a basic pumping system that allows volumes of water to be pumped through a cylinder and lever system.

Figure 4 shows the spray drift, which can be increased or decreased by wind action.

Figure 5 shows a maritime buoy that has a spray mechanism for ejection and spraying of seawater.

Figure 6 shows, in summary, the biotic bomb effect on a flat continental surface.

Figure 7 shows the formation of cloud forests in coastal areas with mountainous or steep areas.

Figure 8 shows the Psychrometric chart with the values of wet bulb temperature, dry bulb temperature, and relative humidity.

Figure 9 shows the humidity in grams per cubic meter, in relation to the saturation temperature in degrees Celsius.

Figure 10 shows the mathematical model "Lorenz Attractor", where under certain pressure and volume conditions a chaotic system can produce precipitation.

Figure 11 shows the formation of an artificial Lorenz Attractor, generated by a continuous flow of air loaded with atmospheric humidity, directed by the presence of vegetation in sectors at a certain altitude above sea level. Best Way to Carry Out the Invention

As shown in Fig. 1, the process begins with the selection of the optimal undimothz buoy model, which allows maximizing energy harvesting and converting it into upward momentum. Being feasible to attach to simple systems, but that have systems to regulate ballast and hitch positions, (Fig. 2) since they can withstand thrusts of up to 450 kg.

The volumes of water measured, to be ejected through a basic pumping system, (Fig. 3) are between 1 to 10 It. according to the volume of the cylinder, which, depending on the conditions, its optimal radius is between 10 to 15 cm. of radius according to the formula:

V = TT xhxr ²

Larger water flows cannot be ruled out, close to 100 It. ejected, with larger radius cylinders, up to 30 cm, if the system and currents allow it.

By Bernoulli's Principle, if the flow rate of the fluid is constant, as the section decreases, its speed increases; With broad spectrum spray nozzles and spray angles above 80 ^s , it allows obtaining outputs greater than 50 cm. high above sea level, being the minimum height for the seawater droplets to begin to drift by spray.

Spray drift (Fig. 4), widely studied in agribusiness, describes the physical movement of droplets or particles through the air outside the surrounding area. The drops most likely to drift are those smaller than 150 microns in diameter, and the direction of their drift can be predicted to a certain extent as it follows the prevailing winds. Of the factors that determine drift, the most determining is wind speed, followed by temperatures above 25 ^S C and low relative humidity, smaller nozzle size and higher spray pressure.

A utility model, of the generic tidal marine buoy type, (Fig. 5) that propels seawater through a cylinder, driven by the force of the waves. The water enters from the bottom of the buoy, to ascend through a column that allows it to reach greater height and better possibilities of dispersion and drift, with better results obtained above 50 cm. column height.

The impulse method can vary, the simplest being a rope pump system, which takes advantage of the traction produced by the water current, moving a lever that will give the appropriate pressure to come out through the nozzles that give maximum dispersion, with a size of drop no greater than 150 microns.

The wave atlases consulted consider wave frequencies ranging from 6 to 30 seconds between one wave crest and the next; By activating the utility model, they generate from 2.8 tons of water sprayed into the atmosphere daily, up to about 150 tons/day depending on the cylinder size and wave frequency.

The cloud mass generated enters the ground as mist, and must be captured following the principles described by Makarieva and Gorshkov in their 2006 publication, "Biotic pump of atmospheric moisture as a driver of the hydrological cycle on land"; (Fig. 6) that agree with the study by Maldonado & Marquet, 2006, "History of Relict Cloud Forests and their Relationship with Climate Changes During the Holocene, in the Semiáhda Region of Chile" (Fig. 7).

The increase and saturation of atmospheric humidity will be given mainly by the spray drift, which can still reach more than 150 tons. of water per day, only reaches dew point values close to 20 grams of water per cubic meter according to Figures 8 and 9, according to the psychrometric and dew point tables, since it depends on the wind speed , drift dispersal radius and suitable vegetation.

Water collection systems can be rudimentary, such as raschel mesh with yields close to 100 liters per day for surfaces 12 meters long by 2 meters wide. Higher yields are observed when adding water coolers, fans and Peltier condensers, such as hydropanels. offered by the Source company.

The biotic pump of atmospheric humidity adds, by incorporating trees to the systems mentioned above, a lot of leaf surface that offers high evaporation rates, which generates a point that begins to move air masses close to the coast where the driving buoy is operating. . Once the atmospheric saturation point has been reached at a given ambient temperature, the wind speed is decisive in obtaining continuous flows of atmospheric humidity, which double the amount of water collected by increasing its speed from 10 km/hr to 20 km/hr. modifying the results depending on both the temperature and the relief near the coast.

The Foehn effect, which contributes to the formation of Cloud Forests, means that when a mass of humid air rises through a steep relief, it cools and condenses, precipitating in the form of rain, forming new areas with greater availability of water than They allow the process to continue and repeat inland, similar to the ancient forested river basins of Australia, extinct for 50,000 to 100,000 years.

Industrial Application

When comparing the mathematical model "Lorenz Attractor" with the processes described above, two points that present high rates of evaporation and accumulation of water vapor, one of them in the water and another on land inside, (Fig. 11) preferably in elevated areas such as cloud forests; They will generate upward and directional movement, similar to an atmospheric river that can orient its direction according to the surrounding geography, temperature differentials and dominant vegetation. By establishing atmospheric humidity capture points with raschel mesh systems, peltier or silver iodide launchers, it allows establishing watering holes, recovery of flora, fauna and human activities.

Claims

1 A method to increase atmospheric humidity in selected places to generate flows of water obtained by condensation, irrigating environments and generating productive activities, CHARACTERIZED because it includes obtaining large quantities of sprayed water with a drop size less than 150 um, its drifts towards the ground within and its capture by condensation and precipitation for application in the field.

2.- A method to increase atmospheric humidity in selected places, according to claim 1, CHARACTERIZED, because the water vapor is obtained from sprayed water produced by a utility model maritime buoy that uses wave energy to give impulse

3.- A method to increase atmospheric humidity in selected places, according to claim 1, CHARACTERIZED, because the sprayed water uses spray nozzles that ensure good drift, with drop sizes less than 150 um.

4.- A method to increase atmospheric humidity in selected places, according to claim 3, CHARACTERIZED, because the spray nozzles, preferably ceramic, manage to increase humidity to values close to 20 grams of water per cubic meter, so that they give initiation of the movement called biotic pumping.

5.- A method to increase atmospheric humidity in selected places, according to claim 3, CHARACTERIZED, because the spraying of the sprayed water is done so that it is distributed uniformly on the surface of the ocean and above 50 cm in height. to start drifting movements.

6.- A method to increase atmospheric humidity in selected places, according to claim 5, CHARACTERIZED, because the drift of droplets with a diameter less than 150 um. It is aimed at inland sectors, with higher altitudes and that have a selected vegetation layer or that integrate mechanisms that increase the upward movements of the air mass.

7.- A method to increase atmospheric humidity in selected places, according to claim 6, CHARACTERIZED, because the evaporation carried out by trees located inland is enhanced by water spraying, which increases the movements of the air mass. coming from the ocean and can reach more remote areas, delivering high relative humidity or precipitation.

8.- A method to increase atmospheric humidity in selected places, according to claim 7, CHARACTERIZED because the capacity to transport water to more distant areas has similarities with the mechanisms seen in ancient forested areas of northwest Australia, and current cloud forests.

9.- A method to increase atmospheric humidity in selected places, according to claim 8, CHARACTERIZED, because the transport of water in the form of atmospheric humidity can be oriented inland, by creating horizontal flows of air and water vapor, of according to the evaporation gradient.