JP2005500153A - Tropospheric volume elements rich in essential elements and / or protective substances - Google Patents

Abstract

The present invention relates to a tropospheric volume element enriched with essential elements and / or protective substances, and to a method for its manufacture and use. Essential elements represent substances that support the development of life in the earth's biosphere, and protective substances promote directly or indirectly to prevent adverse effects on the earth's biosphere, especially humanity. Represents a substance. The tropospheric volume element according to the invention is enriched with essential elements and / or protective substances. Tropospheric volume elements in the form of contaminated toxic clouds leaked as a result of equipment damage prevent the absorption of radioactive elements by living organisms and minimize and warn the area contaminated by said toxic clouds And enriched by protective substances that can exhibit a labeling function. Such enriched tropospheric volume elements can have a number of favorable effects, the most important of which are chilling and stabilization of climate, increased food production, methane as a renewable energy source Hydrate and oil mother formation, reduced air pollution, increased precipitation, especially damage caused by reactor accidents and reduced victim numbers.

Description

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【図面の簡単な説明】
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【図１】海洋上の不可欠要素及び保護物質で富化された海洋対流圏容積要素を表す図である。【Technical field】
[0001]
An essential element and / or protective material enriched tropospheric volume element and methods for its manufacture and use are described. The term “vital element” applies to all substances that support the development of life within the earth's biosphere, and the term “protective substance” refers to harmful effects on the earth's biosphere, particularly humans. All substances that directly or indirectly contribute to preventing
[0002]
The tropospheric volume element of the present invention is enriched with essential elements and / or protective substances. A tropospheric volume element in the form of a toxic cloud that contains pollutants and can be leaked from industrial facilities due to damage or malfunction prevents the organism from ingesting radioactive elements and expands the area affected by the toxic cloud Protective substances that are minimized and have additional warning and identification functions are enriched by the present invention.
[0003]
The enriched tropospheric volume element according to the present invention can provide many advantageous effects, the most important of which are shown below:
Climate cooling and climate stabilization,
Increase in food production,
The formation of methane hydrate and oil mothers as renewable energy sources,
Reduction of various air pollutants,
Increased rainfall and
Decrease in damage caused by reactor accident and the number of victims.
[Background]
[0004]
Environmental components include residential and non-residential areas of the Earth's surface and areas adjacent to them, such as air, surface, land, sediment, sediment surfaces, water bodies and ecosystems. These components are related to each other by a mass exchange cycle and by a constant balance of change that is partly unstable. As a result, the complex system can exist in various more or less stable phases. Changes from one aspect to another can be triggered by relatively small factors. Changes in climatic aspects are recognized as particularly inconvenient. The geologic climate history of the ice age shows us that it can only take a few years for a change from a cold ice season to a hot climate during the warm season.
[0005]
Currently, we are experiencing a transition from a warm climate to a hot climate. This is because methane and CO, which are greenhouse gases caused by humans since the early 19th century₂As a result, the increase in methane content is also associated with a decrease in tropospheric self-cleaning power. Furthermore, the increase in methane in the troposphere is also associated with the decomposition of solid methane hydrate into free methane in tundra wetland and marine sediments due to temperature rise.
[0006]
A large-scale geotechnical project (P.J. Crutzen, Nature, Vol.415, Jan. 3) for the permanent correction of climate change in the near future.^rd, 2002). Various proposals have been made on how to prevent the transition to the hot climatic phase; enrichment of the stratosphere by aerosols with sulfur dioxide (M. Budyko) or smoke (PJ Crutzen) cools the troposphere It is thought that. The cost of such a project is estimated to exceed US $ 20 billion [Graedel, T.E., Crutzen P.J .: Chemie der Atmosphare, Spektrum Akademischer Verlag, Heideberg / Berlin / Oxford, [1994], p.457, 458]. Currently, attempts are being made to reach an international agreement to reduce carbon dioxide emissions by limiting the combustion of fossil energy sources. However, attempts to obtain acceptance of the so-called Kyoto Protocol show that such measures cannot be implemented on a global scale.
[0007]
Without intervention, tropospheric warming will progress. As a result, it will lead to an increase in food shortages, and an increase in salinity and the area of devastated land. A sustained increase in the world's population will result in an increase in distributional disputes. Overgrazing, land reclamation by incineration and land erosion will accelerate this backward development. Despite increased use of fish farming waters, overfishing of the ocean has already promoted a dramatic recession in food production.
[0008]
In the near future, fossil fuel sources are also expected to be scarce. Expansion of alternative energy sources and energy savings cannot be implemented in poor areas of the world due to investment.
[0009]
The Chernobyl catastrophe was triggered by the nuclear fission of nuclear fuel in the reactor that was out of control: a cloud of radioactive smoke emitted by the nuclear reaction and the resulting fire of the reactor and moderator unit Struck most of Europe. Such catastrophes have shown that terrorist acts such as the crash of civilian large planes on New York's skyscrapers will repeat themselves. Safety scenarios that do not take this into account have lost their effectiveness since then. In all of the world's nuclear power plants, the spread of radioactive clouds that can occur when a nuclear reactor loses control can be reduced, its effects can be limited, and the radiation can be visualized by anyone at the point of impact. There is no safety installation that can be shown to be clear. The allegation that nuclear power plants will be shut down around the world within decades has been accepted, as German authorities have even guaranteed the operation of at least some nuclear power plants for more than 30 years It's hard. In Europe, construction of new nuclear power plants is continuing, with the latest example being a nuclear power plant built in Temerin and another example being a nuclear power plant planned in Finland. There is no safety equipment for the treatment and identification of toxic clouds in industrial equipment that treats highly toxic substances or dangerous microorganisms.
[Non-Patent Document 1]
P.J.Crutzen, Nature, Volume 415, January 3, 2002
[Non-Patent Document 2]
Graedel, T.E., Crutzen P.J., Chemie der Atmosphare, Spektrum Akademischer Verlag, Heideberg / Berlin / Oxford, [1994], p.457, 458
DISCLOSURE OF THE INVENTION
[Problems to be solved by the invention]
[0010]
According to the present invention, many of the above problems are solved by the generation of a constant tropospheric volume element enriched with essential elements and / or protective substances. In this specification, “essential elements” refers to all elements that support the development of life in the biosphere on the earth, and “protective substances” are harmful to the biosphere on the earth and the life forms contained therein. Represents all substances that contribute directly or indirectly to preventing effects.
[Means for Solving the Problems]
[0011]
The formation of a tropospheric volume element enriched with protective substances and / or essential elements (which may be of global, regional or local scale) makes the smoke gas in accordance with the invention predetermined Preferably by discharging into the tropospheric space above the region. The purpose of the addition of smoke gas according to the invention is to distribute the protective substances and / or essential elements in the troposphere over the affected area and to stay there for a period of time, after which finally the ground and And / or settling on the surface of water. The smoke gas of the invention used for this purpose is enriched with protective substances and / or essential elements. Also, those belonging to the term protective substance include precursors that develop into protective substances, especially in the troposphere.
BEST MODE FOR CARRYING OUT THE INVENTION
[0012]
Smoke gas production may be performed by burning fuel containing essential elements and / or fuel containing other substances that form protective substances upon combustion. However, it is also possible to enrich the smoke gas with essential elements and / or protective substances after they are manufactured. Enrichment of the smoke gas with the essential elements and / or protective substances after combustion is preferred if the respective substances are sensitive to temperature or if each substance is a substance that cannot be produced by combustion. For many applications, it is convenient to use a conventional fuel, such as oil or gasoline, to produce the smoke gas of the present invention. The additive that forms the essential component composite fraction and / or the protective composite fraction in the smoke gas generated during combustion is preferably present in the form of an oil-soluble or gasoline-soluble compound in the molecular dispersion distribution. Table 1 shows examples of substances that can be used as fuel or fuel additive to produce the smoke gas of the present invention. Table 2 shows examples of protective substances that can be added to the smoke gas after combustion, and Table 3 shows examples of protective substances and / or substances containing essential elements as smoke gas components produced by combustion. Table 4 contains another example of protective substances. Table 5 shows examples of substances that can automatically form protective substances in the troposphere.
[0013]
The production of the smoke gas according to the invention can be carried out by combustion in any type of combustion device. Manufacture may take place in vehicles driven by the fuel of the invention, in particular airplanes, ships and automobiles. Manufacture may take place in an apparatus configured specifically for this purpose.
[0014]
The production of the tropospheric volume element of the present invention by release of conventional protective substances and essential elements is not preferred when the substance is a solid substance. Commercially available fine particle protective substances and essential elements are so-called exothermic oxides. Examples of this type of commercial product are the pigments “Aerosil” (silicon dioxide) and titanium dioxide (the latter lacking a protective coating that prevents the formation of hydroxyl radicals). Even if these dusts are released in the form of available fine particles, they have the disadvantage that they settle for only a short time because they settle quickly. In contrast, certain applications allow for a convenient distribution of gaseous protective substances and gaseous essential elements in the tropospheric volume element even without the aid of smoke gas. Examples of essential elements are, for example, phosphorus, nitrogen, silicon and iron which are essential for the presence of living organisms.
[0015]
Examples of protective substances are substances that directly induce decomposition, removal or neutralization of harmful substances, or substances that can avoid contact of living organisms with harmful substances. The substance belonging to the protective substance is, for example, a hydroxyl radical in the troposphere. This is because hydroxyl radicals lead to the decomposition of dangerous reducing substances such as methane, smog and flue gas. Substances belonging to the protective substance are also substances that promote the production of hydroxyl radicals in the troposphere, for example titanium-containing oxides. Substances belonging to the protective substance are also pollutant adsorbing substances such as soot, pyrogenic silicic acid and iron (III) oxide, fog and mist-forming substances. Substances belonging to protective substances also prevent colors, odors or irritating effects of living organisms, especially humans, from approaching dangerous substances or eating food contaminated with dangerous substances or drinking water contaminated with dangerous substances It is a warning substance. Substances belonging to protective substances include, for example, colored pigment smoke and red iron oxide, ethyl mercaptan and pyridine, which emit violent odors, chloroacetophenone and trichloronitromethane, irritating substances, substances with strong taste or aromatic substances, and emetics. Sexual or nausea-inducing substance.
[0016]
Some examples of tropospheric volume elements enriched with essential elements and / or protective substances according to the invention are as follows:
-Photolytic production of hydroxyl radicals to decompose essential substances such as oxide-bound iron and phosphate for the growth of phytoplankton and decompose protective substances such as methane and other undesirable tropospheric gases Tropospheric volume elements over the ocean, preferably enriched with aerosols containing inducible oxides and / or nitride-bound titanium. Aerosols contribute directly and indirectly to the increase of the tropospheric reverse radiation effect (sunlight reflectance). The advantageous effects of this tropospheric volume element on climate, energy supply and world food are illustrated by way of example in the accompanying drawings.
[0017]
-Protective substances such as oxide-bound titanium (which contains smog, nitrogen oxides, carbon monoxide, halogens and nitrogenous aromatic compounds and promotes the undesired combustion and photodegradation of exhaust products) and Highly preferred to be enriched with aerosols containing protective substances such as oxide-bonded iron (which results in adsorptive binding of exhaust products, especially carcinogenic antimony and toxic lead, caused by friction coating wear) Tropospheric volume elements on land and coastline characterized by concentration of traffic and industrial emissions.
[0018]
-Tropospheric volume elements of sealed and artificial lighting in tunnels, multi-story parking lots and underground parking lots, which induce photolysis of nitrogen oxides, carbon monoxide and other undesired combustion products, and also for example oxides A tropospheric volume element that is preferably enriched with an aerosol containing protective substances such as oxide-bound titanium and cerium that also adsorbs antimony and lead produced by wear of friction coatings such as bound iron.
[0019]
-A tropospheric volume element on land and coastline characterized by a deficiency of essential elements such as iodine, selenium, manganese and molybdenum, enriched with gas and / or aerosol containing the deficient essential elements Preferred tropospheric volume element. Said essential elements are preferably bound by adsorption or chemisorption bonds to aerosol carriers such as soot or iron oxide formed by combustion.
[0020]
Those belonging to the tropospheric volume element enriched with protective substances according to the present invention are caused by a serious nuclear power plant accident, such as that from the Chernobyl nuclear power plant, floating in the troposphere and rich in radioactive elements Is mentioned. These tropospheric volume elements include clouds rich in radioactive elements that can leak out of other sources due to uncontrolled nuclear reactions. Some examples are, for example, nuclear waste dumps, nuclear fuel rod depots, ship power reactors, nuclear weapons and their storage facilities, enriched uranium and plutonium depots. However, there is a possibility of high toxicity or virulence that may be present in the troposphere due to accidents or disasters in smoke clouds derived from fires, or in toxic gas storage and manufacturing facilities, biological weapons or laboratories or scientific and technological facilities that handle such toxic or pathogenic substances. Sexual clouds also belong to the tropospheric volume element enriched with the protective substances of the present invention.
[0021]
The protective substances used for this purpose are classified into one or more substances from the group of labeling substances, adsorbents, sedimentation-promoting substances, concentration-promoting substances, particle aggregation-promoting substances and substances that prevent the intake of substances in living organisms . Clouds that carry pollutants and are rich in protective substances and contaminated sediments falling from or in contact with them are contaminated with one or more protective substances selected from the group of pigments, odorous substances, taste substances and irritating substances. Anyone can recognize and avoid by vision, odor, taste and skin irritation. The same applies to animals if limited to odor and skin irritation. Some examples of such labeling substances are shown in Table 2. Furthermore, these contaminated tropospheric volume elements are preferably enriched with protective substances that bind harmful substances, promote their sedimentation and directly inhibit their uptake by organisms.
[0022]
According to the present invention, toxic clouds containing pollutants are enriched with protective substances. These protective substances directly or / indirectly prevent or block the intake of radioactive, toxic or harmful substances by humans and animals, and also plants. Thereby, the effects of released toxic emissions are greatly mitigated.
[0023]
In the event of an accident, the production of a tropospheric volume element rich in protective substances takes place in particular with safety equipment configured for this purpose. The operation of such a safety facility is described below by way of example using an accident with radioactive emissions released from an uncontrollable nuclear reaction at a nuclear power plant. Such an accident is well known by the term MCA (maximum contingency). Floating hot gases released by this type of fission reaction are classified as smoke gases due to the involvement of high temperature chemical combustion processes. One major hazard that emerges from MCA is the release of radioactive iodine isotopes. In order to minimize the danger of iodine emissions containing radioactivity, the fuel of the present invention and / or fuel additives having iodine as a protective substance are stored in nuclear power plants. In the case of MCA, the fuel can be burned near the center of the open nuclear fuel reaction. This can be done, for example, by injecting the iodinated liquid fuel with one or more jet lancets located in the immediate vicinity of the nuclear fuel reaction, so that the heat of the nuclear reaction causes the liquid fuel to burn up. I will. It is also possible to use natural gas enriched with hydroiodic acid as a fuel and as a result it can be burned. In that case, the smoke gas of the present invention is mixed with the smoke gas produced by the MCA. Safety equipment is provided by conventional combustion equipment by using a conventional oil or gas burner to release the combustion products of the present invention and containing combustion products containing iodine derived from fuel and fuel additives. Can be realized. As the fuel, iodine-added fuel oil or fuel oil additive is preferable. The release of radioactive iodine from the MCA smoke gas to the troposphere is achieved by the smoke gas and iodine release of the present invention to minimize the risk of a person incorporating radioiodine isotopes when in contact with the discharge at the point of release. It is preferable to exceed many times in relation to the amount of radioactive iodine released into the troposphere within a certain time.
[0024]
Enriching the released pollutant cloud with a protective substance selected from the solid and / or liquid sorbent category may further reduce the uptake of harmful substances from the contaminated cloud. Smoke has the ability to adsorb gaseous radioactive material. The soot can be easily produced as a smoke gas containing soot from incomplete combustion of soot oil. The organically bound iron and / or manganese contained in the fuel produces smoke gases rich in iron and / or manganese oxides, which are excellent adsorbents for radioactive heavy metals. The soot aerosol will be surface oxidized in the floating hot smoke gas suspension from the fusion and on its way to the troposphere. The soot thus oxidized has another ability to bind some of the heavy radioactive elements.
[0025]
Increasing the water vapor content of the contaminated cloud and / or the content of mist-forming substances will support the binding of radioactive metals to the absorbent protective material. The combination of radioactive heavy metals, non-metals and alkaline earth metals with oxidized soot and / or oxide particle protectors is most conveniently performed in the aqueous phase, which is the phase that absorbs This is to induce the generation of dissolved ions that can more easily absorb the smoke and iron oxide by the agent. In order to allow the production of aqueous protective substance aerosols even in dry tropospheric environments, the contaminated clouds can be further enriched with protective substances that form fog. A mist-forming substance can be produced by combustion and by injection of the mist-forming substance into hot smoke gas. In addition to water, mist-forming substances are, for example, volatile acids, volatile bases, volatile hydrolysis and thermal decomposition salts and hygroscopic substances, or one or more in clouds enriched with protective substances. It is a substance that can be converted into a further fog-forming substance. The substances exemplified in Tables 3 and 4 are included as belonging to the fog forming substance.
[0026]
The atomizing substance can also be produced directly from fuel, for example, phosphoric acid can be produced by combustion of tricresyl phosphate, and sulfuric acid can be produced from combustion of carbon disulfide. In the cloud, these substances or their oxidation products and / or hydrolysis products produce aqueous mists of protective substances. Fog formation has the advantage of agglomerating the aerosol particles in the cloud into flakes by condensation. This increases the sedimentation rate of the particles to the sedimentation that forms the particles. It is preferred to use water-soluble hygroscopic protective substances for the formation of fog of protective substances, whereby ammonium chloride, calcium chloride, magnesium chloride or zinc chloride is preferred. The combined use of volatile bases and volatile acids also results in a convenient and stable mist of protective material. Combustion of metal dusts such as zinc, aluminum, iron or magnesium or mixtures of these substances with high chlorine content organic substances also allows the generation of a stable protective substance mist.
[0027]
It is advantageous to select a protective material with a high charging density to enrich the contaminated cloud. Thereby, on the one hand, the majority of the inherent pollutants are combined, and on the other hand, the protective substance aerosol is agglomerated and settled faster than the cloud without the protective substance. This offers the advantage of limiting the area affected by the fallout to an area many times smaller than an area that would be attacked without applying the aforementioned means. The protective materials, soot and iron oxides of the present invention have pigment properties and thus provide a simple way to visually indicate the fallout area in black or red fallout color. Hazardous substances that bind to the protective substance have the further advantage that radioactive particles can be easily separated from the contaminated air by an air purification device and water contamination by dissolved radioactive substances can be reduced.
[0028]
Furthermore, protective substances that can be distinguished by odor and / or skin irritation are suitable as sensory marking means for radioactive clouds and their emissions. Examples of these substances can be found in the group of strong odor substances and / or skin irritants. These substances include, for example, mercaptans (strong odor substances), pyridine (strong odor substances), haloketones (skin irritants), halogenonitriles (skin irritants), halogen cyanides (skin irritants), trichloronitromethane (skin irritants) ), Halogen nitroaromatic hydrocarbons (skin irritant), oxazepine (skin irritant) and the like. Another way to prevent humans and animals from drinking water affected by fallout is to add fragrances with intense unpleasant flavors as protective substances. These protective substances, which will decompose when exposed to high temperatures, are added to the active hot smoke gas stream as a gas or spray mist after addition of the smoke gas of the present invention with protective substances. Preferably it is injected. Examples of protective substances having the above signal and protective properties that can be released into the smoke gas of MCA are shown in Table 2. In order to protect temperature and oxidation sensitive materials in the cloud from UV radiation and oxidation degradation, if the smoke gas stream contains photorefractive or light absorbing pigments such as smoke and oxides Conveniently, because the protective substances adsorbed by such pigments are better protected from chemical degradation.
[0029]
The interaction mechanism described in the above example where the radioactive cloud produced by the accident is enriched with the protective substance of the present invention can also be applied to an accident where a gas cloud containing toxins or viruses or microorganisms is released. . If the accident results in a gas release without a fire or explosion and is not affected by thermal convection, in urban areas, a fire for the formation of protective substance-containing smoke gas is assisted and is most at risk. May serve to provide a gas cloud having a thermal lift that causes the gas cloud to float above and away from the laid land.
[0030]
Local tropospheric volume elements enriched with protective substance aerosols, whose production of hydroxyl radicals is stimulated by irradiation, form a conventional catalyst system and can help purify the exhaust gas of old-fashioned automobiles. The fine dispersion effect of the aerosol of the present invention is better than the effect of the fixed bed catalyst. This is because the aerosol can maintain its effect in the smoke gas cloud even after the automobile exhaust gas is emitted. Ozone, NO, which is a smog component_xAnd peroxyacetyl nitrate is not degraded by formed hydroxyl radicals or formed at all in environments where the daytime concentration of OH radicals is significantly higher than the normal concentration. Protective substance aerosols containing oxidatively-bonded iron can cause carcinogenic antimony and toxic lead from wear of clutches and brake pads to be washed away by rainfall and deposited with protective substance particles or sewage with rainwater. Combines safely after being washed away. Protective substance aerosols that fall from the air onto plants, buildings, and soil surfaces can continue to generate hydroxyl radicals upon irradiation and continue their purification function.
[0031]
The release of smoke gas that produces a protective substance is, for example, for these individual fuels so that instead of using a catalyst, the fuel producing the smoke gas containing the protective substance may find wide application as a catalyst alternative. It can be subsidized by introducing fuel tax abbreviations or moderate fuel tax reductions for vehicles used primarily during the day. For these vehicles, it would not be necessary to install a catalyst device for exhaust gas purification, especially in vehicles defined as vehicles having a gasoline engine.
[0032]
In order to achieve sustainable climate stabilization during the warm season and to increase food production and renewable energy sources, it is sufficient to use only tropospheric volume elements rich in essential marine and protective substances. is there. Therefore, the control and monitoring of enrichment with essential and / or protective substances of the tropospheric volume element over the ocean is of particular importance, as it increases with the addition of the essential element, the charge in the non-earth part of the carbon cycle This ensures that the stability of the transient equilibrium of the carbon cycle is ensured.
[0033]
Therefore, an increase in the carbon load in this part of the carbon cycle must replace the carbon load extracted from the troposphere to a sufficient extent by the massive growth of phytoplankton resulting from the enrichment of the tropospheric volume element of the present invention over the ocean Don't be. In the transition phase, replacement can be done by burning fossil energy sources. After that, the products that rise due to increased production of phytoplankton, ie, oil mother and methane hydrate deposits, will be integrated into the energy production of the anthropogenic economy. That is, in other cases, there is a risk that the climate will turn to the cold season due to a decrease in the tropospheric carbon dioxide concentration.
[0034]
As a result of the enrichment of the ocean's tropospheric volume elements with essential elements and protective substances, the system components of the carbon cycle that can be altered by human intervention to maintain a stable carbon temporary equilibrium are underlined as follows: Emphasized:
(1) Carbon dioxide load from the source:
Renewable energy source combustionAnd volcanic fumares → (2)
(2) Reduction of carbon dioxide:
Absorbed carbon dioxide load in phytoplankton, geographical combination in weathering process as limestone deposit and crustal and mantle limestone deposit erosion → (3a) and (3b)
(3a) Phytoplankton load on the food pyramid
(3b) Phytoplankton load on marine sediment fermentation → (4)
(4) Oil mother and methane hydrate sediment load from sediment fermentation → (5)
(Five) Oil mother and methane hydrate sediment loading from sediment decomposition for anthropogenic material circulation → (6)
(6)Oil mother and methane hydrate sediment loads for combustion for anthropogenic energy production→ (1)
A number of inspection parameters make it possible to control the stability of the temporary equilibrium of the carbon cycle due to the high carbon load introduced. These test parameters are preferably obtained from directly affected ecosystems and other affected environmental systems. The adjustment of the carbon loading rate is performed by increasing or decreasing the content of essential elements and / or protective element substances in the tropospheric volume element and / or protective substance of the present invention. This is to determine the location of each location by continuous or sporadic administration of the additive dispensed through the airspace according to the present invention as well as the actual condition and the exact dependence of each recorded parameter. Is done by. Such parameters include, for example:
-Regional, hemispheric and earth content of methane and dimethyl sulfide measured at various heights in and above the troposphere;
-The content of local and hemispheric protective substances and / or essential elements in the air, on / in plants, above / in the ground and in water;
-Average cloud cover in the tropospheric volume element;
-Carbon dioxide content measured in the air and in the ocean, on the earth, in the hemisphere and in the tropospheric volume element:
-The concentration of phytoplankton under the tropospheric volume element;
-Oxygen content of seawater below the tropospheric volume element at various depths;
-Turbidity content in seawater below the tropospheric volume element at various depths;
-Sedimentation rates in the ocean below the tropospheric volume element at various depths;
-Exploration of ecosystems under the tropospheric volume element;
-Measurement of the earth's temperature in the troposphere, surface and sea level.
[0035]
The concentration of essential elements and / or protective substances in the troposphere volume element, the volume of the troposphere volume element and the surface covered with the troposphere volume element influences the carbon loading. There are quite a few possible ways to influence the parameters of a tropospheric volume element loaded with essential elements and / or protective substances. In this case, the average distribution, residence time and concentration of the substances released into the tropospheric volume element with smoke are important variables. Some examples of what can be adjusted are:
-Where smoke gas is released;
-The area from which smoke gas is emitted;
-Altitude above land or sea level where smoke gas is released;
-The concentration of the substance in the smoke gas;
-The amount of smoke gas emitted;
-The composition of the released material and smoke gas;
-The interval at which smoke gas is emitted;
The size of the particles of the substance in the smoke gas;
[0036]
With regard to the aerosol particle size in the smoke gas, the size of the secondary particles is a preferred measure because the diameter of the secondary aerosol particles has an intrinsic and decisive influence on their settling velocity. Secondary particles consist of aggregated primary particles. The diameter of the secondary particles is a function of the aerosol concentration in the smoke gas. The aerosol concentration itself is a function of the concentration of aerosol-forming combustible material in the fuel. That is, the higher this concentration, the more secondary particles in the smoke gas will be coarser and fall faster in the troposphere.
[0037]
Similar regulatory mechanisms can be used for additive doses that can be applied in an accident. These adjustment mechanisms are evaluated very accurately, for example, in the event of a nuclear power plant accident, from the radiation temperature of the nuclear fuel material melt and / or from the height of the thermal convection column and / or from the irradiation intensity of the column. Adapted according to the state of the data on the pollutant load that is constantly supplied to the resulting cloud. From the knowledge of the spectrum of radioactive irradiation intensity and the type of nuclear fuel used, the active composites present in the emissions can finally be identified. These criteria are also suitable for determining the required loading of the protective substance. Further, in some cases, it can be determined whether all of these protective substances should be used or only that particular fraction.
[0038]
A tropospheric volume element with an increased content of essential elements has the particular advantage that the distribution of the essential elements is sustained and extensive over the sea or ground. Tests that released essential elements in the form of iron salts released directly into the ocean were able to promote phytoplankton growth only in a narrow area.
[0039]
Utilizes aerosol of smoke gas containing titanium and / or iron that forms hydroxyl radical under the influence of sunlight or artificial light source after performing the work of neutralizing harmful gas by the known treatment process of air purification by dust extraction It is also possible to separate smoke gas (which has been released into a closed building) according to the invention from the air being treated. By using this method, the smoke gas may be used to purify exhaust containing fresh gases or fresh air.
[Industrial applicability]
[0040]
Due to the enrichment of the tropospheric volume element on the ocean with the essential elements and / or protective substances in the present invention, a climate crisis threatening humanity can be avoided on a permanent basis. The individual effects selected are as follows:
-Tropospheric CO₂Reduced content (results in cold weather);
-An increase in solar reflectance directly affected by the aerosol of the present invention (which leads to a cold climate);
-Increased solar reflectance due to cloud formation induced by dimethylsulfide release enhanced by phytoplankton metabolism (resulting in climate cooling);
-Decomposition of tropospheric methane by production of hydroxyl radicals (resulting in climate cooling);
-Degradation by the production of hydroxyl radicals of substances that are difficult to degrade, such as polychlorinated biphenyls, halogenated dibenzodioxins and dibenzofurans, DDT, phthalates, polycyclic aromatics;
-Increased deposits of dead phytoplankton, resulting in the formation of oil mothers and methane hydrate deposits as renewable energy sources
-Increased protein production in marine ecosystems by increasing the amount of phytoplankton in seawater (increased protein and food sources)
Does enrichment of the tropospheric volume element with essential elements and / or protective substances in the present invention produce harmful effects?
All the mixed oxides and nitrides required for the production of additives to be released into the tropospheric volume element are non-toxic and do not adversely affect the lungs or gastrointestinal tract at the applied concentration. They do not cause toxic effects on the environment. There is at least evidence that natural particles of similar composition can be released in substantial amounts by tropospheric hydrolysis of iron, silicon and titanium halides in volcanic gas ejecta, but cause health problems. Absent.
[0041]
There have been no known adverse effects on the operation of fixed home heating systems that use iron-containing oil as fuel. Iron oxide and manganese oxide present everywhere are also toxic to various oxides, nitrides and nitrogen oxides (which can be caused by the combustion of silicon, titanium, zirconium and iron, which are preferably the elements used) Have Only the corresponding quartz modifications of silicon compounds and titanium compounds have proven harmful to health. The aerosol released into the troposphere by the known combustion of silicon, titanium, silane, titanate and silicate is amorphous. There are no known adverse effects from amorphous silicon dioxide aerosols. The titanates, ferrates, zirconates, zirconium dioxides and cerium dioxides that can be used as the aerosol composites of the present invention also have a highly irregular amorphous lattice structure and are chemically / biologically The term belongs to inert substances. That is, in the collapsed crystals and sandy deposits and volcanic ash of these volcanic rocks, these elements are sometimes found as rutile, pyrite, plate titanite, titanite, titanite and zirconium in the heavy metal decay-resistant fraction. It is concentrated. Therefore, the adverse effects of these substances taken into the digestive tract are not known and are not expected.
[0042]
The natural burden of the fractions carried by the fine dust aerosol wind is global if the tropospheric volume element enrichment with the essential elements of the present invention and / or protective substances is not carried out due to the constant increase of deserts and prairie Will increase. In many areas, aerosols carried by natural wind contain crystalline composites, especially quartz and serpentine that are harmful to health when inhaled. In particular, natural fine dust aerosols (which sometimes spread to Central Europe) resulting from desert and ice quarry zones are classified as harmful to health due to their quartz content. In particular, fine dust containing serpentine fibers blowing from dry areas where natural serpentine is distributed is recognized as harmful to health.
[0043]
Economic efficiency data
In particular, the organic compounds of titanium, silicon, phosphorus and iron needed to produce fuels and fuel additives for producing smoke gases enriched with essential elements and / or protective substances are low-cost and large-scale. Can be manufactured. Furthermore, titanium and iron are not rare elements in the crust, but belong to the most frequent elements. The continental crust has an average iron content of 42 g / kg crust and an average titanium content of 5 g / kg crust. According to the 1992 statistical white paper of the Federal Republic of Germany, for example, the fuel consumption of automobiles, aircraft and diesel engines in 1990 was about 457,000,000 tons in the United States alone. Assuming that about one-fifth of this amount is used for appropriate purposes (eg air transport, ship transport), about 10,000 tons of doping element will be 10 doping elements per unit of fuel.^-FourWill be released to an intermediate concentration of parts.
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[0045]

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[Brief description of the drawings]
[0049]
1 represents a marine tropospheric volume element enriched with essential elements and protective substances on the ocean.

Claims (23)

A tropospheric volume element having at least one essential element (essential element) and / or at least one protective substance in a continuously enriched concentration relative to the existing composition of elements and substances of the troposphere volume element. The following substance groups:
-Hydroxyl radical generators,
-Pigments,
-Absorbent,
-Adsorbents,
-Chemical adsorbents,
-Aqueous solution,
-Odorous substances,
-Stimulating substances,
-Taste substances,
-Fog-forming substances,
-Hygroscopic substances,
The tropospheric volume element according to claim 1, characterized in that it contains at least one protective substance selected from the substance group consisting of iodine-containing substances in an increased concentration. The tropospheric volume element according to claim 1, characterized in that it contains at least one protective substance and / or at least one essential element selected from the group of substances consisting of iron compounds and titanium compounds at an increased concentration. . 2. Located on land in areas contaminated by traffic and / or industry and containing at least one protective substance, for example a hydroxyl radical former, in an elevated concentration. The tropospheric volume element described. Selected from the group of substances which are located in areas contaminated by traffic and / or industry and which consist of elements bonded to oxygen or nitrogen, where the elements are titanium, iron, silicon, zirconium and cerium The tropospheric volume element according to claim 1, comprising at least one protective substance. A tropospheric volume element according to claim 1, characterized in that it is a cloud that contains pollutants and is caused by an accident and contains at least one protective substance in an increased concentration. The cloud contains pollutants and is caused by an accident, and the following substance groups:
-Pigments,
-Absorbent,
-Adsorbents,
-Chemical adsorbents,
-Aqueous solution,
-Odorous substances,
-Stimulating substances,
-Taste substances,
-Fog formers-hygroscopic substances,
The tropospheric volume element according to claim 1, characterized in that it contains at least one protective substance selected from the substance group consisting of iodine-containing substances in an increased concentration. The tropospheric volume element according to claim 1, wherein the tropospheric volume element is disposed on an area exhibiting a deficiency of the essential element and contains at least one of the deficient essential elements in a high concentration. 2. A method of producing a tropospheric volume element according to claim 1, wherein the volume element is selected from one or more of the group of powders, fogs and gases that tend to delay settling at least one essential element and / or sedimentation. A method for producing a tropospheric volume element, which is produced by adding at least one protective substance. The method for producing a tropospheric volume element according to claim 1, characterized in that the volume element is produced by addition of smoke gas containing at least one essential element and / or at least one protective substance. Smoke gas for producing a tropospheric volume element according to claim 1, containing at least one essential element and / or protective substance. The fuel and fuel additive for producing a tropospheric volume element according to claim 1, which produces smoke gas enriched with at least one essential element and / or one protective substance upon combustion. Select from the group consisting of hydrogen, natural gas, liquid gas, petroleum, refined petroleum products, pyrolysis oil, processing oil derived from renewable raw materials, diesel oil, kerosene, light oil, heavy oil, silicone oil, gasoline, methanol, metal, metalloid Containing at least one essential element and / or in enriched form and / or containing at least one substance that causes a conversion to a protective substance upon pyrolysis and / or combustion A fuel and a fuel additive for producing a tropospheric volume element according to claim 1. A method for removing contaminants from a tropospheric volume element according to claim 1 by the addition of smoke gas containing a protective substance. A method for removing smog from a tropospheric volume element according to claim 1 by the addition of smoke gas containing a protective substance. The method of removing radioactive elements from a tropospheric volume element according to claim 1 by addition of smoke gas containing a protective substance. The method of removing toxic substances from a tropospheric volume element according to claim 1 by addition of smoke gas containing a protective substance. A method for removing microorganisms from a tropospheric volume element according to claim 1 by the addition of smoke gas containing a protective substance. A method for photolytically purifying an exhaust air stream or a fresh air stream according to claim 1 by adding smoke gas containing a protective substance. The method for increasing phytoplankton growth under a tropospheric volume element according to claim 1 by adding an essential element containing smoke gas to the troposphere volume element. A method of cooling the tropospheric climate by injecting essential elements and / or protective substances containing smoke gas into one or more of the tropospheric volume elements according to claim 1. A device for the production and / or conditioning of smoke gas containing at least one protective substance, which is produced and / or conditionally produced by accidents and which is toxic, hazardous or radioactive A nuclear power plant and / or a facility for treating or storing toxic and / or toxic substances comprising a device suitable for injecting into the tropospheric volume element according to claim 1 containing a cloud comprising Safety equipment. Iodine compounds, pigments, iron oxides, soot, acid forming substances, alkali forming substances, fog forming substances, hygroscopic substances, odorous substances, taste substances, aromatic substances, stimulating substances, sorbents, adsorbents, absorbents, chemical adsorbent 23. A safety installation according to claim 22, comprising a device for producing and / or conditioning a smoke gas containing at least one protective substance selected from the group of water vapor and water.

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