WO2013077780A1 - Procédé et appareil de purification de solutions aqueuses par la protection ou la soumission de substances chimiques à un rayonnement électromagnétique à basse fréquence - Google Patents

Procédé et appareil de purification de solutions aqueuses par la protection ou la soumission de substances chimiques à un rayonnement électromagnétique à basse fréquence Download PDF

Info

Publication number
WO2013077780A1
WO2013077780A1 PCT/SE2011/000210 SE2011000210W WO2013077780A1 WO 2013077780 A1 WO2013077780 A1 WO 2013077780A1 SE 2011000210 W SE2011000210 W SE 2011000210W WO 2013077780 A1 WO2013077780 A1 WO 2013077780A1
Authority
WO
WIPO (PCT)
Prior art keywords
hour
conductors
water
lengths
chemical element
Prior art date
Application number
PCT/SE2011/000210
Other languages
English (en)
Inventor
Hans Giertz
Original Assignee
Hans Giertz
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Hans Giertz filed Critical Hans Giertz
Priority to PCT/SE2011/000210 priority Critical patent/WO2013077780A1/fr
Publication of WO2013077780A1 publication Critical patent/WO2013077780A1/fr

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/005Systems or processes based on supernatural or anthroposophic principles, cosmic or terrestrial radiation, geomancy or rhabdomancy
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/48Treatment of water, waste water, or sewage with magnetic or electric fields
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/52Treatment of water, waste water, or sewage by flocculation or precipitation of suspended impurities
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W10/00Technologies for wastewater treatment
    • Y02W10/30Wastewater or sewage treatment systems using renewable energies
    • Y02W10/37Wastewater or sewage treatment systems using renewable energies using solar energy

Definitions

  • the present invention relates to the fields of influencing chemical elements and molecules in water, and more specific to a method to prevent said chemical elements and molecules from absorbing electromagnetic energy and according to the preamble of claim 1.
  • the global electric circuit is known since the 1920ies and it supplies the earth crust and the air with charge; electrons, negative and positive ions.
  • the 200 kV potential between the ionosphere and earth creates vertical current density of approximately 3 pA/m 3 as well as an electron density of approximately 500 pC/m 3 and positive ion density of approximately 200 pC/m 3 in the air.
  • Maxwell ' s equations postulate that the plane transverse electromagnetic waves exhibit a force on said electrons thereby generating alternating currents in the air and in the earth crust.
  • H 2 0 forms molecule structures (e.g. tetrahedral structure), that water is polar in nature and dissolves salts (e.g. NaCI) into ions where Na + is attracted to ⁇ ⁇ and CI " to ⁇ + ⁇ and H 2 0 molecules are bonded by the extremely weak hydrogen bond.
  • salts e.g. NaCI
  • water that contains salts e.g. H 2 0 + Na + + + CI "
  • a dielectric medium is a forced damped oscillator.
  • aluminium accumulates in the human body and which causes health effects, primarily in the brain. It is also known that tap water, food and beverages can contain traces of aluminium. It is known that arsenic (As) and many of its compounds are extremely potent poisons, both for the environment and for humans. Water supplies close to mines are sometimes contaminated by arsenic. Arsenic in drinking water is known to cause arsenicosis.
  • cadmium Cd
  • cadmium is a toxic waste and which occurs in industrial waste and in sewage.
  • Co cobalt
  • Cu copper
  • Wilson's disease Alzheimer's disease and symptoms like vomiting, jaundice and cirrhosis.
  • fluoride (F) containing compounds can be toxic and that some reports claim that fluoride can cause brain disorders.
  • mercury Hg
  • mercury most of its compounds are extremely toxic. Mercury can cause both chronic and acute poisoning. Research on the treatment of mercury poisoning is limited.
  • Pb lead
  • tap water, food and beverages can contain traces of lead.
  • Tin (Sn) plays no known natural biological role in humans.
  • tin salts are toxic. It is known that tin accumulates in the human body and which can cause health effects.
  • organotin compounds are very toxic.
  • sulfur dioxide S0 2
  • Sulfur dioxide is used in increasing amounts as a food preservative or enhancer. Sulfur dioxide is counted among the top nine food allergens. It is known that sulfur dioxide deteriorate the taste of wine and that it contributes to headache.
  • sulfur dioxide S0 2
  • sea, lake and ground water It is known that sulfur dioxide (S0 2 ) is a major water pollutant and has significant impact on sea, lake and ground water.
  • S0 2 sulfur dioxide
  • fertilizers contain nitrates (N0 3 ), ammonium (NH 4 ) and phosphates (e.g. P0 4 ) which dissolve in water and resulting in pollution of rivers, lakes and seawater and which is a major environmental issue.
  • N0 3 nitrates
  • NH 4 ammonium
  • P0 4 phosphates
  • glyphosate is used as one of the most common herbicides and is therefore found on vegetables such as tomatoes, cucumbers, salads, zucchini, onions and apples.
  • DSS pesticide dioctyl sodium sulfosuccinate
  • DSS is used as one of the most common pesticides when growing grapes, olives, caper, oranges, bananas, corn and almonds.
  • DSS is used as a laxative to make stools softer and as an excipient in the production of tablets (as a lubricant) and as suspensions (as an emulsifier).
  • imidacloprid is one of the most used insecticides used on vegetables, wheat, potatoes, beets, hops, corn, sunflowers, grapes, olives and fruit.
  • imidacloprid is readily taken up by plant roots and translocate up into the plant leaves, pollen and fruits.
  • Phoxim has been a widely used insecticide. Phoxim is banned for use on crops in the European Union since 2007.
  • bitertanol is one of the most used fungicides used preventively or curatively for the control of certain diseases in fruits, vegetables and seed.
  • Enabier Novel measurement technique described by Giertz (2010a, b) enables measurement of current in the air, resonance phenomena in water in vitro, in situ and in vivo. It enables a novel way to measure and describe the low frequency electromagnetic characteristics of water in vitro, in situ and in vivo.
  • the object of this invention is to influence and/or change a chemical element, compound or molecule dissolved in water.
  • the method is to prevent said chemical element, compound or molecule from absorbing electromagnetic energy, present in the air and in water, with the natural period or natural periods of the chemical element, compound or molecule dissolved in water. It facilitates removal and/or separation of chemical elements, compounds and molecules from water in vitro, in situ and in vivo.
  • Summary of the Invention short description The invention builds on the observation that the air, the earth crust and water contain extremely low amplitude and low frequency electromagnetic energy consisting of conduction current. This electromagnetic energy has periods equal to the harmonics of the period 24 - hours, i.e. the periods 24/(m-2 n ) hour.
  • a chemical element ion has charge whereby coulomb forces attract water molecules. These water molecules form solvation shells that are specific to the chemical element, and which depend on the ion's charge and size.
  • the charged ion, the mass of the ion + H 2 0 molecules and the elasticity of the hydrogen bond constitute a dielectric media and a forced damped oscillator.
  • each ion and the H 2 0 molecule specific solvation shells constitute a forced damped oscillator that creates resonance and absorbs electromagnetic energy at chemical element specific natural periods.
  • a chemical element dissolves in water when one or many of these natural periods coincide with electromagnetic energy present in the air and in water, whereby the ion and the solvation shells create resonance and absorb electromagnetic energy at one or many of the periods 24/(m-2 n ) hour.
  • the natural period(s) depend on the type of chemical element (ion), i.e. its charge and its radius.
  • Some compounds e.g. HC0 3 " , S0 4 2" , NH 4 + , N0 2 " , N0 3 " ) have charge (is an ion) and form solvation shells similar to a chemical element ion. This constitutes forced damped oscillators and the compound has unique natural periods 24/(m-2 n ) hour.
  • Chemical elements and compounds can lack charge (e.g. 0 2 ). However, the compound has charge displacement(s), i.e. one dipole or many dipoles, and the dipole creates solvation shells. Thus, many compounds create resonance and absorb electromagnetic energy at one or many of the periods 24/(m-2 n ) hour. Many molecules dissolve in water (e.g. imidacloprid, C 9 Hi 0 CIN 5 O 2 ). The molecule has charge displacements, i.e. one dipole or many dipoles, and the dipole creates solvation shells. Thus, many molecules create resonance and absorb electromagnetic energy at one or many of the periods 24/(m-2 n ) hour.
  • the present invention describes the chemical elements Ag, Al, As, Au, C, Ca, Cd, CI, Co, Cr, Cu, F, Fe, Ga, Hg, I, K, Li, Mg, Mn, Na, Nd, Ni, O, P, Pb, S, Se, Sn, Ti, Zn, V and W.
  • the present invention describes the molecules glyphosate (C 3 H 8 N0 5 P), imidacloprid (C 9 H 10 CIN 5 O 2 ), phoxim (C 12 H 15 N 2 0 3 PS), dioctyl sodium sulfosuccinate (C 2 oH 37 N0 7 S), bitertanol (C 20 H 23 N 3 O 2 ), drugs containing the six membered carbon ring (e.g.
  • the invention builds on the observation that the solvation shells are destroyed when the chemical element, compound or molecule is stopped from absorbing electromagnetic energy with periods equal to the natural periods of the chemical element, compound or molecule. This results in a reaction where the chemical element, compound or molecule ceases to dissolve and where it is changed into an atom, ion, metal and/or one or many compounds, including one or many compounds without charge.
  • the invention describes a method that makes it possible to influence and/or change a chemical element, compound or molecule and/or to remove a chemical element, compound or molecule from water.
  • the air, the earth crust and water contains low frequency and extremely low amplitude
  • the electromagnetic energy consists of slowly propagating electrons creating alternating currents. That paper describes detailed measurement methods, and which are used in the present invention.
  • Water creates electromagnetic resonance in the 1-10 Hz frequency range (0.1 - I s period range), i.e. the same frequency/period range as harmonics of electromagnetic energy in air, in water and in the earth crust.
  • Water contains angular molecules (H 2 0) in which hydrogen and oxygen is joined by single covalent bonds where electron pairs making up the covalent bond create a small residual or partial positive charge ( ⁇ +) on the hydrogen atom, and a partial negative charge ( ⁇ -) on the oxygen atom.
  • Water can dissolve a large number of ionic substances because of the interaction between the appropriate polarized end of the water molecule and ions. For example sodium chloride (Na + CI ) solve in water with Na + attracted to ⁇ ⁇ and CI " to ⁇ + ⁇ .
  • H 2 0 The polarized ends of H 2 0 create an extremely small force that bonds H 2 0 molecules called the hydrogen bond and this bond is elastic.
  • water can be described as a dielectric media having charge, mass and elasticity and the classical model based on a damped oscillator can be used, as described by Melrose and McPhedran (1991).
  • a classical oscillator that corresponds to a mass m with charge q at a displacement X(t) from its mean position. Let the frequency of the oscillator be ⁇ 0 , and let it be damped with the decay constant y. The oscillator is assumed to be forced by an electric field E(i). The equation of motion is
  • An adaptive media like water, can change its molecule structure and consequently, its natural frequency u) 0 . The normal state is where the absorbed energy is maximized, i.e.
  • Ion-water molecule structures can be enforced to create resonance with electromagnetic energy in the 1-10 Hz range (i.e. 0.1-1 sec period range).
  • Influencing the absorbed electromagnetic energy can result in changed characteristics of the chemical element or compound or molecule.
  • This section offers a theoretical description that may turn out to be correct. It may also turn out to be incorrect. However, the exact theory is irrelevant as long as the context of the claims is correct.
  • tin ion Sn 4+
  • Dissolved tin creates solvation shells where the ion-water molecule structure creates resonance and absorbs electromagnetic energy; i.e. the natural periods are 24/(1 ⁇ 2 18 ) hour and 24/(9 ⁇ 2 16 ) hour and 24/(17 ⁇ 2 15 ) hour.
  • This creates resonance in water in vitro, in situ as well as in vivo, i.e. in organism water, including humans.
  • This resonance and the absorbed electromagnetic energy may have positive health effects (e.g. trace metals) as well as negative health effects (e.g.
  • the air contains electromagnetic energy with period 24/(m-2 n ) hour.
  • Water in vitro, in situ and in vivo normally create resonance and absorbs electromagnetic energy with the period 24/(3 ⁇ 2 17 ) hour, enforced by resonance created by Na ions and also 0 2 .
  • the normal state of water is to have resonance and to absorb low frequency electromagnetic energy with the period 24/(3 ⁇ 2 17 ) hour.
  • the ion-water molecule structure creates resonance (and the ion absorbs energy) at the natural period(s) of the chemical element (e.g. for tin; 24/(1 ⁇ 2 18 ) hour and 24/(9 ⁇ 2 16 ) hour and 24/(17 ⁇ 2 15 ) hour).
  • a major part of the rest of the water creates resonance (its ions, e.g. Na, absorb electromagnetic energy) at the period 24/(3-2 17 ) hour (and at other periods created by the presence of other chemical elements, compounds and/or molecules).
  • Resonance at the natural period(s) e.g. for tin; 24/(1 ⁇ 2 18 ) hour and 24/(9 ⁇ 2 15 ) hour and 24/(17 ⁇ 2 15 ) hour
  • Stopping water from absorbing electromagnetic energy with the natural period(s) of the chemical element stops the ion-water molecule structure (solvation shells) from creating resonance at the natural period(s).
  • ion-water molecule structures have resonance at the period 24/(3 ⁇ 2 17 ) hour (or other periods). This resonance disturbs the molecule structure close to the chemical element (i.e. the solvation shells), alternatively it enforces resonance and alters the molecule structure close to the ion.
  • Chemical elements can also be removed by exposing the water to electromagnetic energy with one or many of the natural periods of the chemical element; however, the amplitude must be significantly higher (approximately 10 times) than the amplitude of the corresponding
  • chemical elements are influenced and/or separated and/or removed from water in vitro, in situ and in vivo by preventing the chemical element from absorbing electromagnetic energy present in the air and in water with the natural period or natural periods of the chemical element (e.g. for tin; 24/(1 ⁇ 2 18 ) hour and 24/(9 ⁇ 2 16 ) hour and 24/(17 ⁇ 2 15 ) hour) and this is achieved using apparatus which cancel this energy.
  • Some compounds e.g. HC0 3 " , S0 4 2" , NH 4 + , N0 2 ⁇ , N0 3 " ) have charge (i.e. an ion) and form solvation shells similar to a chemical element ion. This constitutes forced damped oscillators and the compound has unique natural periods 24/(m-2 n ) hour.
  • the compound is influenced and/or separated and/or removed from water in vitro, in situ and in vivo by preventing the compound from absorbing electromagnetic energy present in the air and in water with the natural period or natural periods of the compound.
  • Some compounds (e.g. 0 2 , NaCI) and molecules that dissolve in water have charge displacement, i.e. they are polarized and contain one or many dipoles. These dipoles create solvation shells of H 2 0 molecules and therefore they constitute one or many forced damped oscillators and which create resonance and absorb electromagnetic energy at one or many periods 24/(m-2 n ) hour. Stopping a compound or a molecule from absorbing electromagnetic energy at the natural period or natural periods of the compound or molecule destroys the solvation shells. The compound or molecule is then exposed to energy from adjacent oscillating H 2 0 molecules and which result in that the compound ceases to dissolve (e.g. 0 2 ) or is split by H 2 0 molecules (e.g. NaCI) or exposed to other (charged) ions or compounds and which split the compound or molecule into new compounds and/or chemical elements. This enables influence on and/or separation of compounds and molecules from water using different methods.
  • H 2 0 molecules e.g. NaCI
  • a conductor submerged in water behaves in the same way since positive ions in the water neutralize the surface charge.
  • the inventor has measured the current speed in copper to 1.517 mm/s.
  • the wave propagation in a conductor at current ⁇ 1 pA is described by the classical wave propagation in one dimension (Jonsson, 1999).
  • the phase speed is equal to the velocity v of the current, i.e. the drift velocity of the electrons: v - 1.517 mm/s in copper.
  • Resonance and a standing wave inside the conductor occurs when its length is equal to one half wavelength ( ⁇ /2) or a multiple, i.e. ( ⁇ /2) ⁇ 2 q .
  • a conductor with length L creates a standing wave and resonance at
  • T is the period. This constitutes a resonance circuit or a forced damped oscillator having the natural period T.
  • the forced damped oscillator has low impedance at its natural period T.
  • Extinction of electromagnetic energy in the air and in water can be made in many ways, e.g. by shielding and by different forms of electromagnetic interference.
  • the invention uses a method where two or more forced damped oscillators create electromagnetic interference in the air and/or in water and this stops electromagnetic energy from propagating to the water containing the dissolved chemical element.
  • These forced damped oscillators can consist of copper conductors as described in the section Detailed Theory; Resonance in conductors.
  • Each forced damped oscillator natural period T is equal to one of the natural periods of the chemical element, compound or molecule dissolved in water.
  • Tin has the natural period 24/(1-2 ) hour and 24/(9-2 16 ) hour and 24/(17 ⁇ 2 15 ) hour.
  • Stopping electromagnetic energy and/or current in the air and in water, with the period 24/(1 ⁇ 2 18 ) hour and 24/(9 ⁇ 2 16 ) hour and 24/(17 ⁇ 2 15 ) hour, from propagating to dissolved tin (Sn) is made by an apparatus consisting of three passive oscillators with natural period 24/(1 ⁇ 2 18 ) hour, 24/(9 ⁇ 2 16 ) hour and 24/(17 ⁇ 2 15 ) hour.
  • the oscillators are positioned with an angle a (45° ⁇ a ⁇ 90°) and at a distance of 0.1-10 mm.
  • the copper conductor lengths according to Eq.
  • (5) are preferably 3.56 mm, 3.76 mm and 4.00 mm or 7.11 mm, 7.53 mm and 8.00 mm. They create electromagnetic interference and this disturbs the resonance mechanism in air and which stops resonance at these periods. This cancels electromagnetic energy and/or current close to the oscillators, typically within a radius of 5-10 meters; however, depending on the quality factor of the oscillators and the internal position of the oscillators, i.e. distance and angle.
  • the oscillators can also be positioned in (submerged into) water whereby they stop the ion-water molecule structures from creating resonance and from absorbing electromagnetic energy (at the period 24/(1 ⁇ 2 18 ) hour and 24/(9 ⁇ 2 16 ) hour and 24/(17 ⁇ 2 15 ) hour) in this example).
  • This converts soluble Sn ions into insoluble Sn whereby the water has lost its capability to create resonance at the period 24/(1 ⁇ 2 18 ) hour and 24/(9 ⁇ 2 16 ) hour and 24/(17 ⁇ 2 15 ) hour).
  • This results in that adjacent Sn ions are influenced and cease to create resonance whereby they are converted into insoluble Sn.
  • the section Description of the invention describes oscillators and apparatus applicable on chemical elements, compounds and molecules.
  • Chemical elements, compounds and molecules dissolve in water by means of the bonds between the chemical element, compound or molecule and H 2 0 molecules forming one or many solvation shells.
  • Electromagnetic energy, present in the air normally also creates resonance in water at the period 24/(3 ⁇ 2 17 ) hour (caused by Na and 0 2 ). Preventing water, containing a dissolved chemical element, compound or molecule, from absorbing
  • the natural frequency 5.69 Hz coincided with electromagnetic energy (current), present in the air and in water, with the period 24/(15 ⁇ 2 15 ) hour (5.69 Hz), whereby the water absorbed this current, present in the air and in water.
  • the current amplitude was proportional to the solution volume or the surface area of aluminum in contact with water.
  • the natural period of aluminum is 24/(15-2 15 ) hour.
  • the absorbed current was also measured in vivo, and which displayed that the brain primarily absorbed the current. This indicates a concentration of aluminum to the brain.
  • Aluminum cans containing beer and Coca Cola were prevented from absorbing electromagnetic energy with the period 24/(15 ⁇ 2 15 ) hour during one minute, using the apparatus according to claim 55. This resulted in that the aluminum surface was influenced so that beer and Coca Cola ceased to dissolve aluminum from the surface. Thus, it is possible to treat aluminum in order to prevent aluminum (e.g. ions) from dissolving from its surface.
  • aluminum e.g. ions
  • Silver Pure silver was positioned in water and in moist atmosphere and then measured. Silver was polished and the residue was dissolved in water and measured. Silver contained in humans was measured. Silver displayed the natural periods 24/(5 ⁇ 2 16 ) hour (3.79 Hz), 24/(31 ⁇ 2 14 ) hour (5.88 Hz) and
  • Arsenic contained in stuffed birds was measured. Arsenic dissolved in water was measured. Arsenic contained in humans was measured. Arsenic displayed the natural periods 24/(9 ⁇ 2 16 ) hour (6.83 Hz), 24/(15 ⁇ 2 15 ) hour (5.69 Hz) and 24/(99 ⁇ 2 12 ) hour (4.69 Hz). It was possible to remove arsenic from water in vitro and in vivo. Experiments were performed on arsenic contained in pathogens in vivo, as well as arsenic in bacteria/pathogens in chicken and arsenic in bacteria in hen eggs and in lactobacillus bacteria.
  • the natural frequency 6.54 Hz coincided with current, present in the air and in water, with the period 24/(69 ⁇ 2 13 ) hour (6.54 Hz), whereby the water absorbed current, present in the air and in water.
  • the current amplitude was proportional to the solution volume or the surface area of gold in contact with water.
  • the natural period of gold is 24/(69 ⁇ 2 13 ) hour.
  • Calcium has the natural periods 24/(7-2 16 ) hour, 24/(9-2 16 ) hour and 24/(35-2 14 ) hour.
  • Electromagnetic energy with the periods 24/(7-2 16 ) hour and 24/(9-2 16 ) hour creates electromagnetic interference with electromagnetic energy with one of the natural periods of phosphates ((e.g. P0 4 , Ca(H 2 P0 4 )), 24/(73-2 13 ) hour (see section Phosphates below).
  • P0 4 the natural periods of phosphates
  • Ca(H 2 P0 4 ) the natural periods of phosphates
  • sulfites e.g. H 2 S, S0 2
  • S0 4 sulfate
  • the present invention displays that use of calcium can be substituted with the methods described in the section Phosphates and the section Sulfites and Sulfate.
  • Sodium (Na + ) dissolved in water has the natural periods 24/(3-2 17 ) hour, 24/(43-2 14 ) hour and 24/(129-2 12 ) hour and this energy creates electromagnetic interference with electromagnetic energy with the natural periods of calcium, 24/(7-2 16 ) hour (5.31 Hz), 24/(9-2 16 ) hour (6.83 Hz) and 24/(35-2 14 ) hour 6.64 Hz).
  • Dissolved Na prevents calcium from absorbing
  • the human skeleton does not absorb electromagnetic energy with the natural periods of calcium due to the presence of dissolved Na and its electromagnetic influence on Ca.
  • Cadmium (Cd) in combination with water created resonance and absorbed electromagnetic energy with the frequency 3.89 Hz and 3.98 Hz, i.e. those were the natural frequencies of cadmium contained in water.
  • cadmium molecule structures in contact with water as well as cadmium dissolved in water created resonance at 3.89 Hz and 3.98 Hz.
  • the natural frequency 3.89 Hz coincided with current, present in the air and in water, with the period 24/(41 ⁇ 2 13 ) hour (3.89 Hz) whereby the water absorbed this current, present in the air.
  • the natural frequency 3.98 Hz coincided with current, present in the air, with the period 24/(21 ⁇ 2 14 ) hour (3.98 Hz), whereby the water absorbed current, present in the air and in water.
  • the current amplitude was proportional to the solution volume.
  • the natural periods of cadmium are 24/(21 ⁇ 2 14 ) hour and 24/(41-2 13 ) hour.
  • the absorbed current was also measured in vivo, and which displayed that the brain and also the kidneys absorbed current with the period 24/(21 ⁇ 2 14 ) hour and 24/(41 ⁇ 2 13 ) hour. This was observed only on smokers, non-smokers displayed cadmium levels below measurement accuracy.
  • the experiment was repeated on cadmium contained in a battery and dissolved in water, displaying similar result.
  • the above process was also achieved by preventing the water or solution from absorbing electromagnetic energy simultaneously with the period 24/(21 ⁇ 2 14 ) hour and 24/(41 ⁇ 2 13 ) hour and at the same time the water or solution was exposed to
  • Cadmium dissolved in water was exposed to extinction of all electromagnetic energy present in the air and in water, i.e. the water was prevented from creating any type of low frequency resonance. In that case the cadmium was not influenced and remained dissolved in the water. Consequently, cadmium dissolved in water was only influenced when prevented from creating resonance simultaneously at the period 24/(21 ⁇ 2 14 ) hour and 24/(41-2 13 ) hour and at the same time allowed or enforced to create resonance at a deviating period.
  • Cobalt contained in cobalt blue color was dissolved in water and measured. Water contained in cups containing cobalt paint was measured. Hot coffee positioned in cups containing cobalt paint was subsequently transferred to a glass container and the dissolved cobalt was measured. Cobalt contained in humans was measured. Cobalt displayed the natural periods 24/(17 ⁇ 2 14 ) hour (3.22 Hz) and 24/(23 ⁇ 2 15 ) hour (8.72 Hz). It was possible to remove cobalt from water in vitro and in vivo. Chloride and sodium, CI " , Na + and NaCI
  • Chloride (CI ) dissolved in water created resonance and absorbed electromagnetic energy with the natural periods 24/(73-2 13 ) hour (6.92Hz) and 24/(89 ⁇ 2 12 ) hour (4.22 Hz).
  • Sodium (Na + ) dissolved in water created resonance and absorbed electromagnetic energy with the natural periods 24/(3 ⁇ 2 17 ) hour (4.55 Hz), 24/(43 ⁇ 2 14 ) hour (8.15 Hz) and 24/(129 ⁇ 2 12 ) hour (6.12 Hz).
  • Crystalline salt (NaCI) and NaCI dissolved in water created resonance and absorbed electromagnetic energy with the natural periods 24/(167 ⁇ 2 12 ) hour (7.92Hz) and 24/(173-2 12 ) hour (8.20 Hz).
  • Crystalline salt (NaCI) was prevented from absorbing electromagnetic energy at the natural periods of NaCI, 24/(167 ⁇ 2 12 ) hour and 24/(173 ⁇ 2 12 ) hour, during 1 minute, using the apparatus according to claim 89. This resulted in a NaCI compound that ceased permanently to create resonance at the periods 24/(167 ⁇ 2 12 ) hour and 24/(173 ⁇ 2 12 ) hour. The new compound created resonance at 7.94 Hz and 8.22 Hz. This NaCI compound dissolved poorly in water and the NaCI compound created a precipitate and it was possible to remove the precipitate using decanting. The supernate displayed little content of NaCI.
  • the experiments 1), 2), 3) and 4) illustrate the present invention.
  • Experiment 1) and 2) show that when the solvation shells are destroyed the free ion causes a reaction.
  • Experiment 1) displays that the free CI ion reacts with the dissolved Na and which creates the (dissolved) compound NaCI.
  • Experiment 2 displays that the free Na ion reacts with the dissolved CI and which creates the (dissolved) compound NaCI. This supports the theory of the present invention.
  • the solutions contain no dissolved Na and no dissolved CI, when prevented from absorbing electromagnetic energy with the natural periods of CI and/or Na, during one minute. Hence, the absorbed energy at the natural periods of Na and CI is zero. Therefore the solvation shells of the dissolved NaCI are undisturbed, resulting in that the NaCI molecule remains dissolved during long time (hours). It absorbs electromagnetic energy at its natural periods and which maintains the solvation shells. Adding one drop water containing dissolved Na and dissolved CI changes the electromagnetic energy in the solution, resulting in that this energy destroys the NaCI solvation shells, whereby the compound is changed into dissolved Na and dissolved CI. Enforcing resonance by injecting energy (e.g. at 3.0 Hz) also results in destroyed solvation shells and change into dissolved Na and dissolved CI. This experiment illustrates that solvation of NaCI in water is not primarily a static process but a dynamic process created by low frequency electromagnetic energy.
  • the solvation shells are static and their natural frequencies are 7.94 Hz and 8.22 Hz. These natural frequencies did not coincide with the period 24/(m-2 n ) hour, hence the NaCI did not absorb electromagnetic energy present in the air and in water (whereby the solvation shells were static). Resonance at the periods 24/(167 ⁇ 2 12 ) hour (7.92 Hz) and 24/(173 ⁇ 2 12 ) hour (8.20 Hz) changed the molecule structure in the solvation shells somewhat (i.e. the water molecule structure is adaptive). Thus, the exact structure of NaCI and its solvation shells depend on its static respectively dynamic electromagnetic state, i.e. the static respectively dynamic electromagnetic process in the solvation shells.
  • the present invention does include change of a molecule into the same type of molecule; however, with (slight) change in characteristics, i.e. the solvation shells.
  • the present invention does also include change of an ion into the same type of ion; however, with (slight) change in the solvation shells. It was possible to repeat the experiments 1), 2) and 3) any number of times and thereby changing the same solution from dissolved Na and dissolved CI into dissolved NaCI and then back to dissolved Na and dissolved CI etc. as well as NaCI with static or dynamic solvation shells.
  • Preventing sodium (Na) dissolved in water from absorbing electromagnetic energy with its natural periods can also be achieved using electromagnetic interference.
  • electromagnetic energy with the period 24/(67-2 13 ) hour extinct electromagnetic energy with the natural periods of Na, i.e. the period 24/(3 ⁇ 2 17 ) hour, 24/(43 ⁇ 2 14 ) hour and 24/(129 ⁇ 2 12 ) hour.
  • the natural period of potassium (K) is 24/(67 ⁇ 2 13 ) hour.
  • the amount of dissolved Na and CI respectively amount of dissolved NaCI is balanced in the human organism. This balance is carefully regulated so that a healthy organism always absorbs the same energy amplitude at the period 24/(3 ⁇ 2 17 ) hour. This balance is probably a prerequisite for proper function of many biological processes.
  • potassium was positioned close to (but not in contact with) a human. This resulted in rapid drop of absorbed electromagnetic energy at the natural periods of Na and CI and rapid increase in absorbed electromagnetic energy at the natural periods of NaCI. Removing the potassium resulted in a slow (within a minute) return to the original balance. It is proposed that one important feature of potassium and the potassium ion pump is to regulate the concentration of dissolved Na and dissolved CI in the human organism. The present invention describes this mechanism in order to illustrate the importance of chemical elements and their dynamic electromagnetic processes in organisms, and the consequence of disturbing these processes.
  • the natural frequency 6.92Hz coincided with current, present in the air, with the period 24/(73-2 13 ) hour (6.92Hz), whereby the water absorbed current, present in the air and in water.
  • the natural frequency 7.87Hz coincided with current, present in the air, with the period 24/(83 ⁇ 2 13 ) hour (7.87Hz) whereby the water absorbed current, present in the air and in water.
  • the current amplitude was proportional to the solution volume.
  • the natural periods of copper are 24/(73 ⁇ 2 13 ) hour and 24/(83 ⁇ 2 13 ) hour.
  • the absorbed current was also measured in vivo, and which displayed that the brain and the rest of the body absorbed current with period 24/(73 ⁇ 2 13 ) hour and 24/(83-2 13 ) hour. This current indicated an even distribution of copper.
  • Fluoride contained in different forms of toothpaste e.g. Colgate, Pepsodent, Vademecum and NaF contained in water (e.g. Flux/Actavis, Sensodyne/GlaxoSmithKline). Fluoride contained in humans was measured. Fluoride displayed the natural periods 24/(3 ⁇ 2 17 ) hour (4.55 Hz) and 24/(5 ⁇ 2 17 ) hour (7.59 Hz). It was possible to remove fluoride from water in vitro and in vivo.
  • Mercury (Hg 2+ ) contained in batteries was measured. The content of batteries containing mercury was dissolved in water and measured. Pure mercury in water was measured. Pure mercury in moist atmosphere was measured. Mercury contained in dental amalgams was measured. Mercury contained in a thermometer was measured.
  • Mercury contained in humans was measured. Mercury displayed the natural periods 24/(1 ⁇ 2 18 ) hour (3.03 Hz) and 24/(9 ⁇ 2 15 ) hour (3.41 Hz), 24/(45 ⁇ 2 14 ) hour (8.53 Hz) and 24/(71 ⁇ 2 13 ) hour (6.73 Hz). It was possible to remove mercury from water in vitro and in vivo.
  • Oxygen (0 2 ) Oxygen (0 2 ) dissolved in water has the natural periods 24/(3 ⁇ 2 17 ) hour (4.55 Hz) and 24/(47 ⁇ 2 13 ) hour (4.46 Hz). Oxygen ceased to dissolve whereby it evaporated when the oxygen dissolved in water was prevented from absorbing electromagnetic energy with the period 24/(3 ⁇ 2 17 ) hour and/or 24/(47 ⁇ 2 13 ) hour.
  • Preventing oxygen and water from absorbing electromagnetic energy with one or both natural periods can also be achieved using electromagnetic interference.
  • electromagnetic energy with the period 24/(63 ⁇ 2 13 ) hour extinct electromagnetic energy with the period 24/(3 ⁇ 2 17 ) hour.
  • Electromagnetic energy with the period 24/(17 -2 14 ) hour extinct electromagnetic energy with the period 24/(47 ⁇ 2 13 ) hour.
  • sulfites and sulfate which have the natural periods 24/(17 ⁇ 2 14 ) hour and 24/(63-2 13 ) hour, extinct the natural periods of oxygen and this results in that oxygen (0 2 ) ceased to dissolve in water.
  • Oxygen is included in the present invention because of its large impact on many organisms and because of its relation to many molecular substances dissolved in water, and which is explained in the section Achieved results; Summary.
  • Phosphorus is highly reactive and can only exist as compounds. Many phosphorus compounds dissolved in water (except phosphates) created resonance and absorbed electromagnetic energy at the period 24/(9 ⁇ 2 16 ) hour (6.83 Hz) and 24/(33 ⁇ 2 14 ) hour (6.26Hz). This was verified on water solutions containing dissolved match striking surface, on the PI phosphorus compound found in an oscilloscope tube, on red phosphorus in a color TV CRT, on P4 phosphorus contained in a black and white CRT and in phosphoric acid (H 3 P0 ) in Coca Cola and Pepsi Cola. It was also verified on phosphorus found in every organism that was investigated, including humans, mammals, insects, plants and microbes. All types of beverages, tap water, lake water, Baltic seawater, water in wells and drilled wells contained phosphorus and which created resonance at the period 24/(9 ⁇ 2 16 ) hour and 24/(33-2 14 ) hour.
  • Phosphorus is a key chemical element in all forms of life.
  • the following experiment explains one aspect. Experiments were performed on water containing dissolved phosphorus and a large number of dissolved chemical elements (e.g. Al, As, Cd, Cr, Pb, Sn, Zn, V and W). The water was prevented from absorbing electromagnetic energy with the period 24/(9 ⁇ 2 16 ) hour and 24/(33 ⁇ 2 14 ) hour during 1 minute, using the apparatus according to claim 73. This changed the dissolved phosphorus compounds into insoluble phosphorus compound(s) (which created sediment). Then something interesting occurred. Gradually every dissolved chemical element (e.g.
  • Dissolved chemical elements are a prerequisite for many organisms. Chemical elements can cease to dissolve without a reactive agent and where phosphorus plays a key role. Therefore it is possible to kill microbes (e.g. in sewage and in food) by simply changing soluble phosphorus compounds into insoluble phosphorus compounds. It is possible to remove dissolved chemical elements from water solutions (e.g. sewage, oil) by simply converting soluble phosphorus into insoluble phosphorus.
  • the natural frequency 2.99 Hz coincided with current, present in the air, with the period 24/(63 ⁇ 2 12 ) hour (2.99 Hz) whereby the water absorbed current, present in the air.
  • the natural frequency 3.79 Hz coincided with current, present in the air, with the period 24/(5 ⁇ 2 16 ) hour (3.79 Hz), whereby the water absorbed current, present in the air.
  • the current amplitude was proportional to the solution volume.
  • the natural periods of lead are 24/(5 ⁇ 2 16 ) hour and 24/(63 ⁇ 2 12 ) hour.
  • the above process was also achieved by exposing the water to high amplitude electromagnetic energy with the period 24/(5 ⁇ 2 16 ) hour and/or 24/(63 ⁇ 2 12 ) hour.
  • the above process was also performed on wine, displaying that it was possible to separate lead from wine and this changed the taste of wine.
  • Selenium has the natural periods 24/(5 ⁇ 2 16 ) hour, 24/(9 ⁇ 2 16 ) hour and 24/(29 ⁇ 2 14 ) hour.
  • Electromagnetic energy with the periods 24/(5-2 16 ) hour, 24/(9 ⁇ 2 16 ) hour and 24/(29 ⁇ 2 14 ) hour create electromagnetic interference with electromagnetic energy with the natural period of potassium (K), 24/(67 ⁇ 2 13 ) hour.
  • K potassium
  • Electromagnetic energy with the periods 24/(5-2 16 ) hour, 24/(9 ⁇ 2 16 ) hour and 24/(29 ⁇ 2 14 ) hour create electromagnetic interference with electromagnetic energy with the natural period of potassium (K), 24/(67 ⁇ 2 13 ) hour.
  • K potassium
  • Electromagnetic energy with the periods 24/(5 ⁇ 2 16 ) hour, 24/(9 ⁇ 2 16 ) hour and 24/(29 ⁇ 2 14 ) hour create electromagnetic interference with electromagnetic energy with the natural period of vanadium (V), 24/(9 ⁇ 2 15 ) hour, 24/(33-2 14 ) hour and 24/(43 ⁇ 2 13 ) hour.
  • V vanadium
  • 24/(9 ⁇ 2 15 ) hour, 24/(33-2 14 ) hour and 24/(43 ⁇ 2 13 ) hour In the following experiment a bottle of water with dissolved selenium was positioned close to a bottle of water containing dissolved vanadium. This resulted in that the vanadium ceased to absorb electromagnetic energy at its natural periods, ceased to dissolve and it created sediment.
  • Electromagnetic energy with the periods 24/(5 ⁇ 2 16 ) hour, 24/(9-2 16 ) hour and 24/(29 ⁇ 2 14 ) hour create electromagnetic interference with electromagnetic energy with the natural period of tungsten (W), 24/(7 ⁇ 2 15 ) hour and 24/(73 ⁇ 2 13 ) hour.
  • W tungsten
  • a bottle of water with dissolved selenium was positioned close to a bottle of water containing dissolved tungsten. This resulted in that the tungsten ceased to absorb electromagnetic energy at its natural periods, ceased to dissolve and it created sediment.
  • solder tin-lead alloy
  • the natural frequency 3.03 Hz coincided with current, present in the air, with the period 24/(1 ⁇ 2 18 ) hour (3.03 Hz) whereby the water absorbed current, present in the air and in water.
  • the natural frequency 6.45 Hz coincided with current, present in the air, with the period 24/(17 ⁇ 2 15 ) hour (6.45 Hz) whereby the water absorbed current, present in the air and in water.
  • the natural frequency 6.83 Hz coincided with current, present in the air, with the period 24/(9 ⁇ 2 16 ) hour (6.83 Hz), whereby the water absorbed current, present in the air and in water.
  • the current amplitude was proportional to the solution volume and the surface area of the tin object.
  • the natural periods of tin are 24/(1 ⁇ 2 18 ) hour and 24/(9 ⁇ 2 16 ) hour and 24/(17 ⁇ 2 15 ) hour.
  • the absorbed current was also measured in vivo, and which displayed that the current was evenly distributed to the whole body, including the brain.
  • Carbon (C) displayed the natural periods 24/(71 ⁇ 2 13 ) hour and 24/(73 ⁇ 2 13 ) hour.
  • Chromium (Cr) displayed the natural periods 24/(3 ⁇ 2 17 ) hour, 24/(11 ⁇ 2 15 ) hour and 24/(71 ⁇ 2 13 ) hour.
  • Iron (Fe) displayed the natural periods 24/(5 ⁇ 2 16 ) hour, 24/(7 ⁇ 2 15 ) hour and 24/(9 ⁇ 2 15 ) hour.
  • Iron oxide (FeO) displayed the natural period 24/(3-2 17 ) hour.
  • Gallium (Ga) displayed the natural periods 24/(1 ⁇ 2 19 ) hour and 24/(7 ⁇ 2 16 ) hour.
  • Iodine (I) displayed the natural periods 24/(7 ⁇ 2 16 ) hour, 24/(19 ⁇ 2 15 ) hour and 24/(33 ⁇ 2 14 ) hour.
  • Potassium (K) displayed the natural period 24/(67-2 13 ) hour.
  • Lithium (Li) displayed the natural periods 24/(5 ⁇ 2 17 ) hour and 24/(29 ⁇ 2 14 ) hour.
  • Magnesium (Mg) displayed the natural periods 24/(1 ⁇ 2 17 ) hour and 24/(5 ⁇ 2 16 ) hour.
  • Manganese (Mn) displayed the natural periods 24/(7 ⁇ 2 16 ) hour and 24/(35 ⁇ 2 14 ) hour.
  • Neodymium (Nd) displayed the natural periods 24/(25 ⁇ 2 14 ) hour and 24/(39 ⁇ 2 13 ) hour.
  • Nickel (Ni) displayed the natural periods 24/(21 ⁇ 2 15 ) hour and 24/(121 ⁇ 2 12 ) hour.
  • Sulfur (S) displayed the natural periods 24/(ll-2 15 ) hour and 24/(21 ⁇ 2 15 ) hour.
  • Titanium (Ti) displayed the natural period 24/(79 ⁇ 2 13 ) hour.
  • Titanium dioxide (Ti0 2 ) displayed the natural period 24/(37 ⁇ 2 14 ) hour.
  • Vanadium (V) displayed the natural periods 24/(9 ⁇ 2 15 ) hour, 24/(33 ⁇ 2 14 ) hour and 24/(43 ⁇ 2 13 ) hour.
  • Tungsten (W) displayed the natural periods 24/(7 ⁇ 2 16 ) hour and 24/(73 ⁇ 2 13 ) hour.
  • Zinc (Zn) displayed the natural periods 24/(15 ⁇ 2 15 ) hour and 24/(87 ⁇ 2 12 ) hour).
  • Examples are the bacteria lactobacillus reuteri which contains Pb, lactobacillus rhamnosus which contains W, pathogenic legionella bacteria which contains I, anaerobic bacteria metano sarsino which contain Se, the DMD (Duchene Muscular Dystrophy) which contains Sn, virus in some warts which contains Fe and cold (flu) virus where V was found in some types of flu and W in other types of flu. All of these microbes contained also carbon (C) and which is described below. Preventing the microbe from absorbing electromagnetic energy with the natural periods of the chemical element (i.e.
  • the period 24/(1 ⁇ 2 18 ) hour and 24/(9 ⁇ 2 16 ) hour and 24/(17-2 15 ) hour resulted in that the chemical element was removed from the microbe and the microbe ceased to absorb electromagnetic energy at these periods.
  • Exposing the microbe to high amplitude electromagnetic energy with the natural periods resulted in that the chemical element was removed from the microbe and the microbe ceased to absorb electromagnetic energy at these periods.
  • the microbes always absorbed the same type(s) of chemical element(s) within approximately 24 hours.
  • the chemical element(s) must be removed many times; alternatively the microbe is prevented from absorbing electromagnetic energy continuously during approximately 7-14 days.
  • Cold (flu) is one interesting example.
  • the cold virus often contains vanadium (V). Vanadium was influenced when prevented from absorbing electromagnetic energy with its natural periods
  • preventing vanadium from absorbing electromagnetic energy with the periods 24/(9 ⁇ 2 15 ) hour, 24/(33 ⁇ 2 14 ) hour and 24/(43-2 13 ) hour or tungsten with the periods 24/(7 ⁇ 2 16 ) hour and 24/(73 ⁇ 2 13 ) hour can also be achieved by means of electromagnetic interference; e.g. caused by electromagnetic energy with the periods 24/(5 ⁇ 2 16 ) hour and 24/(29 ⁇ 2 14 ) hour, i.e. the natural periods of selenium (Se). Positioning selenium close to vanadium or tungsten extinct energy with the natural periods of vanadium and tungsten.
  • the sewage was prevented from absorbing electromagnetic energy with the periods 24/(7 ⁇ 2 16 ) hour and 24/(19-2 15 ) hour and 24/(33 ⁇ 2 14 ) hour during 5 minutes, using the apparatus according to claim 68.
  • resonance and absorption of electromagnetic energy is an important feature of microbes and an important defense mechanism towards other microbes and the animal/human immune system.
  • the legionella bacteria were negatively influenced when the iodine was removed from the legionella bacteria and when the legionella bacteria ceased to absorb electromagnetic energy. The legionella bacteria were then open to assault from the anaerobic bacteria. Thus, it was possible to remove (i.e.
  • yeast Keratjast, Jastbolaget AB
  • Yeast displayed resonance and absorbed electromagnetic energy at the periods 24/(9 ⁇ 2 15 ) hour, 24/(33 ⁇ 2 14 ) hour and 24/(43 ⁇ 2 13 ), caused by vanadium (V).
  • Bacteria lactobacillus rhamnosus were added to both containers and the absorbed amplitude at the natural periods of the yeast and lactobacillus rhamnosus was measured during 24 hours, displaying constant absorbed amplitude at the natural periods of yeast and lactobacillus rhamnosus.
  • One container was prevented from absorbing electromagnetic energy with the period 24/(9 ⁇ 2 15 ) hour and 24/(33-2 14 ) hour and 24/(43 ⁇ 2 13 ) hour (i.e. V) during 5 minutes, using the apparatus according to claim 76. This resulted in rapid decline of yeast and rapid growth of lactobacillus rhamnosus.
  • C carbon
  • 24/(73 ⁇ 2 13 ) hour creates electromagnetic interference with electromagnetic energy with the period 24/(1 ⁇ 2 19 ) hour.
  • 24/(3 ⁇ 2 17 ) hour is the natural period of water in most organisms, including humans as well as one of the natural periods of 0 2 and one of the natural periods of Na.
  • the pathogen or microbe is prevented from being influenced by electromagnetic energy with the period 24/(3-2 17 ) hour.
  • This prevents disturbance of the solvation shells of the carbon (chemical element, compound or molecule) as well as disturbance of the solvation shells of other contained chemical elements, compounds or molecules (e.g. Ag, As, Ca, Cr, Fe, Ga, Hg, I, Mg, Mn, Pb, Se, Sn, V or W).
  • microbes including pathogens
  • the microbes, including pathogens released carbon and they ceased to absorb electromagnetic energy with the natural periods 24/(71 ⁇ 2 13 ) hour and 24/(73 ⁇ 2 13 ) hour.
  • This carbon created sediment (valid for microbes in water) or was transported to the urine bladder and dispelled with the urine (valid for pathogens in vivo).
  • the other contained chemical element (or compound) e.g.
  • microbes including pathogens, were prevented from absorbing electromagnetic energy with the period 24/(71-2 13 ) hour or the periods 24/(71 ⁇ 2 13 ) hour and 24/(73-2 13 ) hour continuously during 7-14 days, depending on type of microbe or pathogen. This resulted in microbe and pathogen death and effective disease management.
  • This method can be used on a broad range of microbes and pathogens and has been successfully tested on pathogenic bacteria, virus and some autoimmune diseases.
  • the advantage with this method is that exact analyze of the microbe or pathogen type (i.e. disease) is not necessary.
  • This method was successfully combined with the method described above, e.g. flu was successfully treated with a device that contained one apparatus according to claim 58 (C) and one apparatus according to claim 76 (V).
  • microbes including pathogens
  • Many microbes, including pathogens contain chemical elements which create electromagnetic processes and which also influences other chemical elements or compounds to their benefit.
  • Many microbes, including pathogens contain carbon (C) and which prevents the microbe from being disturbed by electromagnetic energy with the periods 24/(1 ⁇ 2 19 ) hour and 24/(3 ⁇ 2 17 ) hour.
  • Pathogenic bacteria and virus often contain arsenic (As), cadmium (Cd), chromium (Cr), mercury (Hg), lead (Pb), vanadium (V) or wolfram (W), and where one feature is that oxygen (0 2 ) ceases to dissolve in the pathogenic area (se section Oxygen) and which may harm the host and his immune defense system.
  • the anaerobic bacteria metano sarsino and metano strix may live in an anaerobic environment; however, they produce their own oxygen using selenium (Se).
  • Se selenium
  • the present invention can be used to selectively influence and/or to kill a specific type or specific types of microbes, and at the same time not influencing other types of microbes. It is possible to influence and/or to kill microbes with or without assistance from other types of microbes and/or the immune system.
  • the present invention describes, among others, how the electromagnetic process of one chemical element influences other chemical elements and compounds.
  • K influences Na. Na and Sn influences Ca.
  • Se influences K, V and W.
  • Zn influences C. Al, C, Cd, Hg, Pb, V W and Zn influences 0 2 .
  • Pb and Se influences and changes C0 2 into C and 0 2 .
  • Zn influences and changes C and 0 2 into C0 2 .
  • Chemistry and organisms, including humans contain a number of processes that cannot be described or understood with state of the art chemistry.
  • the present invention offers an explanation and the invention describes how these processes can be influenced and also how (negative) influence can be avoided.
  • Molecules dissolved in water were measured in vitro and in vivo using the method described by Giertz (2010a, b). The absorbed current was measured as function of the frequency using an analogue generator as well as current present in the air.
  • Herbicides e.g. glyphosate
  • Resonance at 5.88 Hz and 6.87 Hz was also found in the human brain of all investigated persons (22 persons), in lake water (Malaren, Hjalmaren, Vanern, Vattern and Sjundasjon), in Swiss tap water and in the Baltic seawater as well as in the North Sea close to the Swedish West-coast.
  • the human brain, lake water, tap water and seawater absorbed electromagnetic energy, present in the air and in water, with the period 24/(31 ⁇ 2 14 ) hour (5.88 Hz) and 24/(145 ⁇ 2 12 ) hour (6.87 Hz).
  • Using a signal generator displayed resonance at 3.14 Hz and 3.86 Hz.
  • Tomatoes, cucumbers, zucchini, ruccola salad, paprika, bananas and apples were investigated and the absorbed current amplitude at the period 24/(31 ⁇ 2 14 ) hour and 24/(145 ⁇ 2 12 ) hour was measured. Subsequently, vegetables and apples were washed in cold water as well as hot tap water during 2 minutes. The absorbed current amplitude at the period 24/(31-2 14 ) hour was measured, displaying no change in absorbed energy amplitude, indicating that it was impossible to remove the molecules by washing. Pealing bananas, cucumbers, zucchini and apples displayed that the molecule was primarily located within the vegetable and not on the surface.
  • Electromagnetic energy, with the period 24/(31 ⁇ 2 14 ) hour and 24/(145 ⁇ 2 12 ) hour was prevented from propagating to the vegetables and apples during 1 minute, using the apparatus according to claim 78.
  • the vegetables and apples displayed no measurable absorbed electromagnetic energy at these periods, neither at the frequency 3.14 Hz nor at 3.86 Hz (measured using signal generator as source). This indicated that it was possible to remove or destroy the molecule, i.e. change the molecule into new compounds.
  • the above results were also achieved by exposing the vegetables to high amplitude electromagnetic energy with the period 24/(31 ⁇ 2 14 ) hour and/or 24/(145 ⁇ 2 12 ) hour and/or 3.14 Hz and/or 3.86 Hz.
  • Tomatoes and apples were compared before and after removing the molecule. The change in taste was distinct, displaying improved taste. It is proposed that these vegetables contained glyphosate and/or similar molecules, i.e. herbicides.
  • Electromagnetic energy at the period 24/(31 ⁇ 2 14 ) hour and 24/(145-2 12 ) hour was prevented from propagating to these water samples during 1 minute, using the apparatus according to claim 78. This resulted in that these water samples ceased permanently to create resonance at the period 24/(31 ⁇ 2 14 ) hour and 24/(145-2 12 ) hour.
  • the apparatus according to claim 78 was submerged into the water (close to the shore) of lake Sjundasjon during four days. This resulted in that all measured water in the lake ceased permanently to create resonance at the period 24/(31 ⁇ 2 14 ) hour and 24/(145 ⁇ 2 12 ) hour.
  • One purpose with the present invention is to influence and/or to remove molecules with natural period 24/(31 ⁇ 2 14 ) hour and 24/(145 ⁇ 2 12 ) hour. These molecules can be identical to glyphosate or slightly deviating and which is irrelevant as long as their natural period is 24/(31-2 14 ) hour and 24/(145 ⁇ 2 12 ) hour. In order to avoid confusion molecules with natural period 24/(31 ⁇ 2 14 ) hour and 24/(145 ⁇ 2 12 ) hour are called Herbicides in the present invention. In order to illustrate this, measurements were made on a number of different herbicides.
  • herbicides displayed resonance and absorbed electromagnetic energy at the period 24/(31 ⁇ 2 14 ) hour and 24/(145 ⁇ 2 12 ) hour; Hedonal (2,4-diklorfenoxipropionacid (diklorprop), Bayer Agro, Prefix, diklobenil, Rhone- Poulenc Agro, Paraquat (dichloride), ICI Limited and Gesatop 50, simazin (2-klor-4,6-bis-(etylamin)-s- triazin), J.R. Geigy AG.
  • Insecticides A e.g. imidacloprid
  • the sediment was removed using decanting.
  • the remaining (95%) water i.e. the supernate
  • the above results were also achieved by exposing the water to high amplitude electromagnetic energy with the period 24/(81 ⁇ 2 12 ) hour and/or 3.23 Hz and/or 4.81 Hz. This resulted in that the imidacloprid ceased to dissolve.
  • This floating compound displayed resonance and absorbed electromagnetic energy at 4.81 Hz, during a short transition phase. This compound evaporated. The sediment was removed using decanting. The remaining (95%) water (i.e. the supernate) displayed no resonance or absorbed electromagnetic energy at 3.84 Hz, 3.23 Hz and 4.81 Hz. The processed wines were stored. They displayed no change over time.
  • Tomatoes, cucumbers, onions, zucchini, apples, potatoes, grapes, olives, oranges, lemons, bananas and pineapples were investigated and the absorbed current amplitude at the period 24/(81 ⁇ 2 12 ) hour was measured. Then the vegetables and fruits were washed in cold as well as in hot tap water during 2 minutes. Then the absorbed current amplitude at the period 24/(81 ⁇ 2 12 ) hour was measured; the amplitude was identical to the previous amplitude, indicating that it was impossible to remove molecule(s) that created resonance at 24/(81 ⁇ 2 12 ) hour by washing. Pealing oranges and bananas displayed that the molecule(s) that created resonance were evenly positioned within the fruits.
  • the vegetables and fruits were prevented from absorbing electromagnetic energy, with the period 24/(81 ⁇ 2 12 ) hour, during 1 minute, using the apparatus according to claim 79.
  • the vegetables and fruits displayed no measurable absorbed electromagnetic energy at the period 24/(81 ⁇ 2 12 ) hour.
  • the above results were also achieved by exposing vegetables and fruits to high amplitude
  • the apparatus according to claim 79 was submerged into the water (close to the shore) of lake Sjundasjon during four days. This resulted in that all measured water ceased permanently to create resonance at the period 24/(81 ⁇ 2 12 ) hour, 3.23 Hz and 4.81 Hz.
  • One purpose with the present invention is to influence and/or to remove molecules with natural period 24/(81 ⁇ 2 12 ) hour. These molecules can be identical to imidacloprid or slightly deviating and which is irrelevant as long as their natural period is 24/(81 ⁇ 2 12 ) hour. In order to avoid confusion molecules with natural period 24/(81 ⁇ 2 12 ) hour are called Insecticides A in the present invention.
  • Insecticides B e.g. phoxim
  • Tomatoes, cucumbers, zucchini, apples, oranges, lemons and bananas were investigated and the absorbed current amplitude at the period 24/(19 ⁇ 2 14 ) hour, 24/(21 ⁇ 2 14 ) hour, 24/(29 ⁇ 2 14 ) hour, 24/(69 ⁇ 2 13 ) hour and 24/(125 ⁇ 2 12 ) hour was measured. Then the vegetables and fruits were washed in cold tap water during 2 minutes.
  • the absorbed current amplitude at the period 24/(19-2 14 ) hour, 24/(21 ⁇ 2 14 ) hour, 24/(29-2 14 ) hour, 24/(69 ⁇ 2 13 ) hour and 24/(125 ⁇ 2 12 ) hour was measured; the amplitude was zero, indicating that it was possible to remove molecule(s) that created resonance at the period 24/(19-2 14 ) hour, 24/(21 ⁇ 2 14 ) hour, 24/(29-2 14 ) hour, 24/(69 ⁇ 2 13 ) hour and 24/(125 ⁇ 2 12 ) hour by washing. Pealing oranges and bananas displayed that the molecule(s) that created resonance were positioned primarily on the surface.
  • the vegetables and fruits were prevented from absorbing electromagnetic energy, with the period 24/(19 ⁇ 2 14 ) hour and 24/(21-2 14 ) hour and 24/(29 ⁇ 2 14 ) hour and 24/(69 ⁇ 2 13 ) hour and 24/(125 ⁇ 2 12 ) hour, during 1 minute, using the apparatus according to claim 80.
  • the vegetables and fruits displayed no measurable absorbed electromagnetic energy at these periods.
  • the above results were also achieved by exposing vegetables and fruits to high amplitude electromagnetic energy with the period 24/(19 ⁇ 2 14 ) hour, 24/(21 ⁇ 2 14 ) hour, 24/(29-2 14 ) hour, 24/(69-2 13 ) hour and 24/(125-2 12 ) hour.
  • Vegetables, grapes and orange juice were compared before and after, displaying that a chemical taste disappeared.
  • the electromagnetic energy absorbed by the person was measured, this amplitude decreased almost linearly with time.
  • the urine displayed resonance at the period 24/(19-2 14 ) hour, 24/(21 ⁇ 2 14 ) hour, 24/(29 ⁇ 2 14 ) hour, 24/(69 ⁇ 2 13 ) hour and 24/(125 ⁇ 2 12 ) hour. It was concluded that it was possible to remove molecule(s) that create resonance at the period 24/(19-2 14 ) hour, 24/(21 ⁇ 2 14 ) hour, 24/(29 ⁇ 2 14 ) hour, 24/(69 ⁇ 2 13 ) hour and 24/(125 ⁇ 2 12 ) hour from humans. It was also concluded these dissolved molecule(s) accumulated in the human brain and the body.
  • water that contains phoxim was influenced when prevented from absorbing electromagnetic energy at the period 24/(19 ⁇ 2 14 ) hour and 24/(21 ⁇ 2 14 ) hour and 24/(29 ⁇ 2 14 ) hour and 24/(69 ⁇ 2 13 ) hour and 24/(125 ⁇ 2 12 ) hour and at the same time allowed or enforced to create resonance at a deviating period (e.g. 24/(3-2 17 ) hour).
  • Electromagnetic energy, with the period 24/(19 ⁇ 2 14 ) hour, 24/(21 ⁇ 2 14 ) hour, 24/(29 ⁇ 2 14 ) hour, 24/(69-2 13 ) hour and 24/(125 ⁇ 2 12 ) hour was prevented from propagating to these water samples during 1 minute, using the apparatus according to claim 80. This resulted in that these water samples ceased permanently to create resonance at the period 24/(19-2 14 ) hour, 24/(21 ⁇ 2 14 ) hour, 24/(29 ⁇ 2 14 ) hour, 24/(69 ⁇ 2 13 ) hour and 24/(125 ⁇ 2 12 ) hour.
  • the purpose with the present invention is to influence and/or to remove molecules with natural period 24/(19 ⁇ 2 14 ) hour, 24/(21 ⁇ 2 14 ) hour, 24/(29 ⁇ 2 14 ) hour, 24/(69 ⁇ 2 13 ) hour and 24/(125 ⁇ 2 12 ) hour.
  • These molecules can be identical to phoxim or slightly deviating and which is irrelevant as long as their natural period is 24/(19 ⁇ 2 14 ) hour, 24/(21 ⁇ 2 14 ) hour, 24/(29 ⁇ 2 14 ) hour, 24/(69 ⁇ 2 13 ) hour and 24/(125 ⁇ 2 12 ) hour.
  • Insecticides B Insecticides B in the present invention.
  • Pesticides e.g. dioctyl sodium sulfosuccinate
  • Resonance at 6.07 Hz, 6.92 Hz, 7.49 Hz, 3.20 Hz and 3.52 Hz was also found in a large variety of food such as grapes, olives, caper, canned corn, oranges, orange juice, lemons, bananas, pineapples, olive oil, vinegar, wine, whiskey, vodka, gin and sugar.
  • These beverages and foods absorbed electromagnetic energy present in the air with the period 24/(1 ⁇ 2 19 ) hour, 24/(73 ⁇ 2 13 ) hour and 24/(79 ⁇ 2 13 ) hour.
  • This floating compound displayed resonance and absorbed electromagnetic energy with the period 24/(73 ⁇ 2 13 ) hour (6.92 Hz) and at 3.20 Hz during the transition phase.
  • This compound evaporated.
  • the third compound remained dissolved and displayed resonance and absorbed electromagnetic energy with the period 24/(1 ⁇ 2 19 ) hour and 24/(79-2 13 ) hour.
  • the sediment was removed using decanting.
  • the remaining (95%) water (i.e. the supernate) displayed resonance and absorbed electromagnetic energy at 24/(1 ⁇ 2 19 ) hour and 24/(79 ⁇ 2 13 ) hour.
  • the above results were also achieved by exposing the water to high amplitude electromagnetic energy with the period 24/(73 ⁇ 2 13 ) hour. It was concluded that the DSS molecule was split into one compound that remained dissolved and two compounds and/or chemical elements that did not dissolve.
  • Grapes, olives, oranges, lemons, bananas and pineapples were investigated and the absorbed current amplitude at the period 24/(l-2 19 ) hour, 24/(73 ⁇ 2 13 ) hour and 24/(79-2 13 ) hour was measured. Then the fruits were washed in cold as well as in hot tap water during 2 minutes. Then the absorbed current amplitude at the period 24/(1 ⁇ 2 19 ) hour, 24/(73 ⁇ 2 13 ) hour and 24/(79 ⁇ 2 13 ) hour was measured; the amplitude was identical to the previous amplitude, indicating that it was impossible to remove the molecule(s) by washing.
  • the apparatus according to claim 81 was submerged into the water (close to the shore) of lake Sjundasjon during four days. This resulted in that all measured water in the lake ceased permanently to create resonance at the period 24/(1 ⁇ 2 19 ) hour, 24/(73 ⁇ 2 13 ) hour and 24/(79 ⁇ 2 13 ) hour.
  • One purpose with the present invention is to influence and/or to remove molecules with natural period 24/(1 ⁇ 2 19 ) hour, 24/(73 ⁇ 2 13 ) hour and 24/(79 ⁇ 2 13 ) hour.
  • These molecules can be identical to dioctyl sodium sulfosuccinate or slightly deviating and which is irrelevant as long as their natural periods are 24/(1 ⁇ 2 19 ) hour and 24/(73 ⁇ 2 13 ) hour and 24/(79-2 13 ) hour.
  • Pesticides in the present invention.
  • Fungicides e.g. bitertanol
  • Bitertanol/sibutol (C20H23 3O2, Bitertanol/Bayer AG) created resonance at 3.60 Hz, 3.98 Hz and 4.17 Hz Hz.
  • This water absorbed electromagnetic energy present in the air with the period 24/(11 ⁇ 2 15 ) hour (4.17 Hz), 24/(19 ⁇ 2 14 ) hour (3.60 Hz) and 24/(21 ⁇ 2 14 ) hour (3.98 Hz).
  • Resonance at 3.60 Hz, 3.98 Hz and 4.17 Hz was also found in bread, flour, muesli, grapes, olives, oranges, orange juice, lemons, tomatoes, olive oil, vinegar, wine, whiskey, vodka and gin. Some of these products were marked Ecological. These beverages and foods absorbed electromagnetic energy present in the air with the period 24/(11 ⁇ 2 15 ) hour, 24/(19 ⁇ 2 14 ) hour and 24/(21 ⁇ 2 14 ) hour.
  • Resonance and absorbed electromagnetic energy at the period 24/(11 ⁇ 2 15 ) hour, 24/(19 ⁇ 2 14 ) hour and 24/(21 ⁇ 2 14 ) hour was also found in the human brain of all investigated persons (22 persons) as well as in lake water (Malaren, Hjalmaren, Vanern, Vattern), in Swiss tap water and in the Baltic seawater and North seawater.
  • the purpose with the present invention is to influence and/or to remove molecules with natural period 24/(11 ⁇ 2 15 ) hour and 24/(19 ⁇ 2 14 ) hour and 24/(21 ⁇ 2 14 ) hour.
  • These molecules can be identical to bitertanol or slightly deviating and which is irrelevant as long as their natural periods are
  • 24/(11 ⁇ 2 15 ) hour and 24/(19 ⁇ 2 14 ) hour and 24/(21 ⁇ 2 14 ) hour are called Fungicides in the present invention.
  • Benzene (C 6 H 6 ), phenol (C 6 H 5 OH) and cyclohexhane (C 6 H 12 ) are six membered carbon ring molecules. They serve as important solvents and precursors in the production of drugs. These molecules create resonance and absorb electromagnetic energy at the period 24/(19 ⁇ 2 14 ) hour (3.60Hz) and 24/(21 ⁇ 2 14 ) hour (3.98 Hz). Drug molecular substances that contain one or many six membered carbon ring(s) have one thing in common; they create resonance and have the natural period 24/(19 ⁇ 2 14 ) hour and 24/(21 ⁇ 2 14 ) hour. In addition each type of drug create resonance at frequencies specific to the rest of the molecule, e.g.
  • bitertanol contains two benzene groups and the insecticide phoxim contains one benzene group and that is the reason why bitertanol and phoxim create resonance at the period 24/(19-2 14 ) hour and 24/(21 ⁇ 2 14 ) hour.
  • the purpose with the present invention is to influence and/or to remove drugs with the natural period 24/(19 ⁇ 2 14 ) hour and 24/(21 ⁇ 2 14 ) hour.
  • Drugs in the present invention are called Drugs in the present invention.
  • the inventor is aware that this may include molecules not classed as drugs; however, containing the six membered carbon ring. The implication is that such molecules can be influenced when influencing and/or removing drugs.
  • Nitrogen compounds e.g. N0 2 , N0 3 , NH 4
  • Nitrogen compounds e.g. N0 2 , N0 3 , NH 4
  • NPK fertilizers
  • NH 4 ammonia
  • NH 4 , Nitor ammonia
  • mineral water mineral water
  • nitrites nitrates and ammonia in lake water
  • Nitrites (N0 2 ) and nitrates (N0 3 ) ceased to dissolve whereby they evaporated (and some oxygen (0 2 ) dissolved in the water) when the water was prevented from absorbing electromagnetic energy with the period 24/(65 ⁇ 2 13 ), using the apparatus according to claim 84.
  • Ammonium (NH 4 ) was changed into a compound which created resonance and absorbed electromagnetic energy at the period 24/(11 ⁇ 2 15 ) hour and 24/(63 ⁇ 2 13 ) hour, when the water was prevented from absorbing electromagnetic energy with the period 24/(65 ⁇ 2 13 ) hour, using the apparatus according to claim 84. This coincided with the natural periods of ammonium chloride (NH 4 CI) and it is proposed that NH 4 was changed into NH 4 CI.
  • the apparatus according to claim 84 was submerged into the water (close to the shore) of lake
  • Phosphates e.g. P0 4
  • C0 2 (AGA, E290, gascode 4301) dissolved in water
  • liquid C0 2 contained in a bottle (AGA, E290, gascode 4301) and C0 2 exhaust from cars as well as C0 2 in human breath created resonance and absorbed electromagnetic energy at the period 24/(131 ⁇ 2 12 ) hour (6.21 Hz).
  • liquid C0 2 contained some water that created solvation shells and that C0 2 in exhaust also contained some water that created solvation shells.
  • C0 2 was also found in lake water, Swiss tap water, Baltic seawater and North seawater; however not in very acid lake water.
  • the apparatus according to claim 86 was submerged into the water (close to the shore) of lake Sjundasjon during 12 hours. This resulted in that all measured water in the lake ceased to create resonance at the period 24/(131 ⁇ 2 12 ) hour. A significant increase (approximately 3 times) in absorbed electromagnetic energy at the period 24/(3 ⁇ 2 17 ) hour and 24/(43 ⁇ 2 13 ) hour was observed, indicating increase in dissolved oxygen (0 2 ). This experiment displays that it is possible to remove carbon dioxide from a lake. Then the lake slowly absorbed carbon dioxide from the air (the surface water contained approximately 5 % of the initial C0 2 concentration after 24 hours). The process was repeated, resulting in renewed change of C0 2 into oxygen and carbon.
  • the apparatus according to claim 86 was submerged into the water (close to the shore) of an approximately 20 km 2 large bay in the Baltic Sea during 24 hours. This resulted in that all measured water in the bay ceased to create resonance at the period 24/(131 ⁇ 2 12 ) hour. A significant increase (approximately 4 times) in absorbed energy at the period 24/(3 ⁇ 2 17 ) hour and 24/(43 ⁇ 2 13 ) hour was observed in surface water, indicating increase in dissolved oxygen (0 2 ). This experiment displays that it was possible to remove carbon dioxide from seawater. Then the bay slowly absorbed carbon dioxide from the air and from organisms (the surface water contained approximately 5 % of the initial C0 2 concentration after 48 hours).
  • the method can be used to reduce carbon dioxide in the atmosphere.
  • the method can also be used to reduce carbon dioxide outlet from power plant exhaust, in one or two steps.
  • the first step includes removal of C0 2 directly from the exhaust.
  • the second step the exhaust is fed, in a continuous process, through water whereby the C0 2 is changed into oxygen and carbon.
  • Chlorophyll contains lead (Pb).
  • Lead Pb
  • One of the natural periods of lead is 24/(63 ⁇ 2 12 ) hour.
  • Electromagnetic energy with the period 24/(63 ⁇ 2 12 ) hour creates electromagnetic interference and extinct electromagnetic energy with the period 24/(131 ⁇ 2 12 ) hour, i.e. the natural period of C0 2 .
  • the electromagnetic process caused by lead contained in plant chlorophyll changes C0 2 into C and 0 2 . This was verified in the following experiments. A bottle containing C0 2 dissolved in water was positioned close to a pot plant.
  • Electromagnetic energy with the period 24/(15-2 15 ) hour created electromagnetic interference with the period 24/(131 ⁇ 2 12 ) hour (i.e. natural period of 0 2 ) and with the period 24/(73 ⁇ 2 13 ) hour (i.e. one natural period of C).
  • Electromagnetic energy with the period 24/(87 ⁇ 2 12 ) hour created electromagnetic interference with the period 24/(71 ⁇ 2 13 ) hour (i.e. the other natural period of C). This resulted in that C and 0 2 ceased to dissolve and whereby they formed the compound C0 2 .
  • Alcohol-water solutions that contained sulfites and sulfate created resonance and absorbed electromagnetic energy with the period 24/(17 ⁇ 2 14 ) hour (3.22 Hz) and 24/(63 ⁇ 2 13 ) hour (5.97 Hz). This type of resonance was found in cheap and medium prized red and white wine, labelled
  • Ammonium chloride (NH 4 CI) dissolved in water created resonance and absorbed electromagnetic energy at the period 24/(11 ⁇ 2 15 ) hour (4.17 Hz) and 24/(63 ⁇ 2 13 ) hour (5.97 Hz). Ammonium chloride ceased to create resonance and ceased to absorb electromagnetic energy when the water solution was prevented from absorbing electromagnetic energy with the period 24/(11 ⁇ 2 15 ) hourand
  • the backside is that these molecules and/or parts of these molecules remain dissolved in water, i.e. in food, in beverages, in ground water, in lakes and in seawater. When consumed the majority is dispelled with the urine; however, some is dissolved and transported by the blood to the brain and stopped by the brain-blood-barrier (BBB), whereby they accumulate in the brain. This causes an increasing chemical and electromagnetic interference in the brain.
  • BBB brain-blood-barrier
  • the natural state of ground water, lake water, seawater and water in advanced organisms is to have resonance at the period 24/(3 ⁇ 2 17 ) hour (4.55Hz).
  • One reason is that one natural period of sodium (Na) and oxygen (0 2 ) is 24/(3 ⁇ 2 17 ) hour.
  • the amount of oxygen (0 2 ) that can dissolve in water is proportional to the ability of water to create resonance and absorb electromagnetic energy at the period 24/(3 ⁇ 2 17 ) hour.
  • the present invention describes methods to clean drinking water, water reservoirs, sewage, industrial processes, rivers, lakes, the Baltic Sea and in principle oceans.
  • the present invention describes methods to remove sulfites and sulfate from acid lakes.
  • Food and beverages including orange juice, olive oil, vinegar, wine and liquor contain a variety of herbicides, insecticides, pesticides, fungicides, antibiotics (in beef, pork, chicken) and sulfites. This is illustrated with wine and where most wines are polluted with herbicides, insecticides, pesticides, fungicides and sulfites. Changing one of these parameters (e.g. removing herbicides) results in insignificant change in taste. Removing all 5 results in dramatic change in taste. Removing these molecular substances from food, beverages and tap water results in improved taste and decreased brain pollution.
  • the present invention describes methods to clean food and beverages at the source (at production) and/or during distribution and/or by the end customer.
  • the invention describes methods to remove dissolved phosphorus compounds resulting in that dissolved chemical elements can be removed from e.g. sewage or industrial processes.
  • the invention describes methods to influence dissolved phosphorus compounds in microbes resulting in that chemical elements are influenced which harms and/or kills microbes (e.g. bacteria, virus, fungal microbes).
  • microbes e.g. bacteria, virus, fungal microbes.
  • the invention describes methods to remove sulfites and carbon dioxide at the source. It will be possible to produce energy from coal, oil and gas with only minor release of sulfur and carbon dioxide. It will have major environmental impact.
  • the invention describes methods to remove poisonous chemical elements from water and from humans and animals.
  • the invention describes methods to influence and remove chemical elements from microbes, including bacteria and pathogens, resulting in their death and diseases management.
  • the invention describes methods to influence chemical elements, compounds and molecules, resulting in fundamentally new ways of controlling chemical processes.
  • the invention describes methods to influence the outer molecular layers of metals and molecular substances resulting in novel ways to treat matter.
  • Figure 1 describes an apparatus to remove chemical element.
  • Figure 2 describes an apparatus to remove chemical element.
  • Figure 3 describes the enclosure of the apparatus described in Figure 1 and Figure 2.
  • Figure 4 describes a method to remove chemical element
  • Figure 5 describes a method to remove chemical element.
  • Figure 6 describes absorbed current by Al in the body as function of the time
  • Figure 7 describes absorbed current by Cd in the body as function of the time
  • Figure 8 describes absorbed current by Cu in the body as function of the time.
  • Figure 9 describes absorbed current by Pb in the body as function of the time.
  • Figure 10 describes absorbed current by Sn in the body as function of the time.
  • the object of this invention is to influence and/or remove a chemical element, compound molecule contained and/or dissolved in water.
  • Said chemical element and said compound include all chemical elements and compounds that dissolve in water, including Ag, Al, As, Au, C, Ca, Cd, CI, Co, Cr, Cu, F, Fe, Ga, Hg, I, K, Li, Mg, Mn, Na, Nd, Ni, O, P, Pb, S, Se, Sn, Ti, Zn, V and W and their compounds.
  • Said molecule includes all types of molecules that dissolve in water. However, the invention describes in detail molecules that have environmental and health impact.
  • Said molecule includes herbicides (e.g. glyphosate, C 3 H 8 N0 5 P, N-(phosphonomethyl)glycine, 2- [(phosphonomethyl)amino]acetic acid and the CAS number 1071-83-6), and where the natural periods of said molecule are 24/(31 ⁇ 2 14 ) hour and 24/(145 ⁇ 2 12 ) hour.
  • herbicides e.g. glyphosate, C 3 H 8 N0 5 P, N-(phosphonomethyl)glycine, 2- [(phosphonomethyl)amino]acetic acid and the CAS number 1071-83-6
  • Said molecule includes insecticides A (e.g. imidacloprid, CgHxoCINsC , N-[l-[(6-Chloro-3- pyridyl)methyl]-4,5-dihydroimidazol-2-yl]nitramide and the CAS number 138261-41-3), and where the natural period of said molecule is 24/(81 ⁇ 2 12 ) hour.
  • insecticides A e.g. imidacloprid, CgHxoCINsC , N-[l-[(6-Chloro-3- pyridyl)methyl]-4,5-dihydroimidazol-2-yl]nitramide and the CAS number 138261-41-3
  • insecticides A e.g. imidacloprid, CgHxoCINsC , N-[l-[(6-Chloro-3- pyridyl)methyl]-4,5-dihydroimidazol-2-
  • Said molecule includes insecticides B (e.g. phoxim, C 12 H 15 N 2 0 3 PS, N-[(Diethoxyphosphorothioyl)oxy] benzenecarboximidoyl cyanide, and the CAS number 14816-18-3), and where the natural periods of said molecule are 24/(19-2 14 ) hour and 24/(21 ⁇ 2 14 ) hour and 24/(29 ⁇ 2 14 ) hour and 24/(69 ⁇ 2 13 ) hour and 24/(125 ⁇ 2 12 ) hour.
  • insecticides B e.g. phoxim, C 12 H 15 N 2 0 3 PS, N-[(Diethoxyphosphorothioyl)oxy] benzenecarboximidoyl cyanide, and the CAS number 14816-18-3
  • Said molecule includes pesticides (e.g. dioctyl sodium sulfosuccinate, C 2 oH37Na0 7 S, sodium l,4-bis(2- ethylhexoxy)-l,4-dioxobutane-2-sulfonate, Aerosol OT, AOT, sodium bis(2-ethylhexyl) sulfosuccinate; docusate sodium, and the CAS number 577-11-7), and where the natural periods of said molecule are 24/(1 ⁇ 2 19 ) hour and 24/(73-2 13 ) hour and 24/(79 ⁇ 2 13 ) hour.
  • pesticides e.g. dioctyl sodium sulfosuccinate, C 2 oH37Na0 7 S, sodium l,4-bis(2- ethylhexoxy)-l,4-dioxobutane-2-sulfonate, Aerosol OT, AOT, sodium
  • Said molecule includes fungicides (e.g. bitertanol, sibutol, C 2 oH 2 3N 3 0 2 , l-(biphenyll-4-yloxy)-3,3- dimethyl-l-(lH-l,2,4-triazol-l-yl)butan-2-ol, and the CAS number 55179-31-2), and where the natural periods of said molecule are 24/(11 ⁇ 2 15 ) hour and 24/(19 ⁇ 2 14 ) hour and 24/(21 ⁇ 2 14 ) hour.
  • fungicides e.g. bitertanol, sibutol, C 2 oH 2 3N 3 0 2 , l-(biphenyll-4-yloxy)-3,3- dimethyl-l-(lH-l,2,4-triazol-l-yl)butan-2-ol, and the CAS number 55179-31-2
  • the natural periods of said molecule are 24/(11 ⁇ 2 15
  • Said molecule includes drugs, antibiotics and hormones that use the six membered carbon ring and/or benzene (C 6 H 6 ) and/or phenol (C 6 H 5 0H) and/or cyclohehane (C 6 H 12 ) as solvents and/or precursors (e.g.
  • Said molecule includes nitrogen compounds (e.g. N0 2 , N0 3 , NH 4 ), and where the natural period of said molecule is 24/(65 ⁇ 2 13 ) hour.
  • nitrogen compounds e.g. N0 2 , N0 3 , NH 4
  • Said molecule includes phosphates (e.g. P0 4 , Ca(H 2 P0 4 )), and where the natural periods of said molecule are 24/(35 ⁇ 2 14 ) hour and 24/(73 ⁇ 2 13 ) hour.
  • phosphates e.g. P0 4 , Ca(H 2 P0 4 )
  • Said molecule includes carbon dioxide (C0 2 ), and where the natural period of said molecule is 24/(131 ⁇ 2 12 ) hour.
  • Said molecule includes sulfites (e.g. H 2 S, S0 2 ) and sulfate (S0 4 ), and where the natural periods of said molecule are 24/(17 ⁇ 2 14 ) hour and 24/(63 ⁇ 2 13 ) hour.
  • Said molecule includes ammonium chloride (NH 4 CI), and where the natural periods of said molecule are 24/(11 ⁇ 2 15 ) hour and 24/(63 ⁇ 2 13 ) hour.
  • Said molecule includes sodium chloride (NaCI), and where the natural periods of said molecule are 24/(167 ⁇ 2 12 ) hourand 24/(173 ⁇ 2 12 ) hour.
  • NaCI sodium chloride
  • the method is to stop and/or prevent said chemical element, compound or molecule from absorbing electromagnetic energy present in the air and in water, with the natural period or natural periods of said chemical element, compound or molecule. This is achieved by stopping electromagnetic energy with said natural period or said natural periods, +/- 1 %°, from propagating to and/or reaching said chemical element, compound or molecule.
  • Said chemical element, compound or molecule can have one or many natural periods. Electromagnetic energy with all said natural periods must be stopped simultaneously from propagating to and/or reaching said chemical element. Stopping
  • electromagnetic energy with only one or two natural period(s) can sometimes influence said compound or molecule; however the preferred method is to simultaneously stop electromagnetic energy with all of said natural periods from propagating to and/or reaching said compound or molecule.
  • Said chemical element, compound or molecule can be dissolved as an ion and the present invention describes a method which causes a reaction where the product of the reaction is that the solute, i.e. said chemical element, compound or molecule, is insoluble in the solvent, i.e. said water, or the solubility of said solute is decreased.
  • This type of reaction is sometimes called precipitation and the result is settling or sedimentation of said chemical element, compound or molecule.
  • the precipitate or sediment can consist of atom or ion and/or metal and/or one or many compounds and/or salts. It facilitates removal and/or separation of said chemical element, compound or molecule from said water.
  • Said product of the reaction can also be change of an ion into atom and/or metal and/or one or many compounds or into the same type of ion; however with change in characteristics (e.g. solvation shells).
  • Said product of the reaction can also be that a compound or molecule is changed into one or many compounds and/or chemical elements or the same type of compound; however with change in characteristics (e.g. solvation shells).
  • Said product of the reaction can also be that said chemical element, compound or molecule in humans and animals are released from their positions and transported by lymph and/or blood and removed with urine and/or excrements.
  • Said product of the reaction can also be that said chemical element or compound is influenced and/or removed from microbes, including pathogens.
  • Said water include all types of water, all types of water solutions, all types of aqueous solutions, all types of water in industrial processes, all types of sewage, all types of water reservoirs, sea and lake water, all types of beverages and food.
  • Said water include all types of water contained in all types of organisms and/or simpler life forms, including humans, animals, plants, insects, microbes, bacteria, fungal microbes, mold, virus, prions and all types of pathogens.
  • Said water include H 2 0 molecules contained in coal, oil, petrol, all types of petroleum products and all types of petroleum distillates.
  • Said water includes all types of H 2 0 + ion or molecule structures including the presence of all other types of atoms, compounds and molecules.
  • Coal, gas (e.g. in liquid form), oil, petrol and petroleum distillates and products contain chemical elements (e.g. lead) and molecules (e.g. S0 2 ) dissolved in H 2 0 molecules. Said method results in a reaction which changes the chemical element (e.g. ion) into insoluble atom and/or metal and/or compound and the S0 2 molecule into e.g. S and 0 2 .
  • chemical element e.g. ion
  • part of said coal, gas, oil, petrol and petroleum distillates and products are an aqueous solution and are thus included in the present invention.
  • Air contains chemical elements, compounds and molecules dissolved in or surrounded by H 2 0 molecules. Said method results in a reaction which forms said chemical element, compound or molecule into insoluble atom, ion and/or metal and/or compound. Thus part of said air is an aqueous solution and is thus included in the present invention.
  • Preventing said chemical element, compound or molecule from absorbing said electromagnetic energy present in the air and in water normally results in that said product of the reaction is achieved within one minute.
  • the method can also be used during a longer time or continuously.
  • Said product of the reaction e.g. precipitate
  • Said product of the reaction (chemical element and/or compound) can be removed and/or separated using decanting.
  • Said product of the reaction (chemical element and/or compound) can be removed and/or separated using filtering.
  • Said product of the reaction (chemical element and/or compound) can be removed and/or separated using centrifugation.
  • Said product of the reaction (chemical element and/or compound) can sometimes be removed and/or separated using evaporation.
  • Said chemical element, compound or molecule is removed in vivo with urine and excrements.
  • the method can be used or performed where only one selected chemical element or compound or molecule is selectively influenced and where other types of chemical elements, molecules, compounds, atoms, ions and/or metals are not influenced. This is achieved by simultaneously selecting all natural period(s) of the selected chemical element or compound or molecule.
  • the method is non-invasive, except for its controlled and selective influence on the selected chemical element or compound or molecule.
  • the method can be used or performed in sequence by addressing any one of many types of chemical elements, compounds and/or molecules in sequence. This is achieved by selecting simultaneously all natural periods of the first chemical element or compound or molecule, then selecting
  • the method can be used or performed in parallel by simultaneously addressing any combination of many types of chemical elements, compounds and/or molecules in parallel. This is achieved by selecting simultaneously all natural periods of all addressed chemical elements, compounds and/or molecules in parallel.
  • the method can also be used simultaneously in sequence and in parallel.
  • One method to stop electromagnetic energy and/or current in the air and in water from propagating to said chemical element, compound or molecule is to disturb and/or cancel and/or to change the resonance in the air and/or in water using electromagnetic interference.
  • This can be achieved using two, three or four passive forced damped oscillators, and which have natural periods equal to the natural period or natural periods of said chemical element, compound or molecule.
  • the invention encompasses apparatus consisting of two, three, four or five passive forced damped oscillators (1), (2), (3) and (4) positioned with an angle (5) a (45° ⁇ a ⁇ 90°) and at a distance (6) of 0.1- 10 mm, and where said oscillators have the natural periods of said chemical element, compound or molecule. This is illustrated in Figure 1.
  • said oscillators can be positioned as illustrated in Figure 2.
  • the copper conductor lengths according to Eq. (5) are listed below.
  • Said oscillators can be positioned in the air whereby they create electromagnetic interference and this disturbs the resonance mechanism in air (i.e. the 3D matrix) and which stops resonance in the air (i.e. the 3D matrix) at said natural period or said natural periods.
  • electromagnetic energy is prevented from propagating to said chemical element, compound or molecule and prevented from creating resonance in said water.
  • the oscillators can also be submerged into said water containing said chemical element, compound or molecule or a solution or substance (e.g. oil, gas) containing said water and said chemical element, compound or molecule.
  • a solution or substance e.g. oil, gas
  • An alternative method is to inject electromagnetic energy with a frequency or period that creates electromagnetic interference with said natural period or said natural periods.
  • a passive forced damped oscillator can produce the injected electromagnetic energy. This method is used in claim 90.
  • the forced damped oscillator can consist of a conductor. Resonance and a standing wave in the conductor occurs when its length is equal to one half wavelength, ⁇ /2, or a multiple, i.e. ( ⁇ /2) ⁇ 2 q .
  • a conductor with length L and current speed v (1.517 mm/s in copper) creates a standing wave and resonance at the natural period T:
  • T 5 24/(5 ⁇ 2 16 ) hour (3.79 Hz)
  • T 31 24/(31-2 14 ) hour (5.88 Hz)
  • Tug 24/(139 ⁇ 2 ⁇ ) hour (3.29Hz)
  • T 9 24/(9-2 16 ) hour (6.83 Hz)
  • T 15 24/(15-2 15 ) hour (5.69 Hz)
  • T 99 24/(99-2 12 ) hour (4.69 Hz)
  • TTI 24/(71 ⁇ 2 13 ) hour (6.73 Hz)
  • T 73 24/(73 ⁇ 2 13 ) hour (6.92 Hz)
  • T 21 24/(21-2 14 ) hour (3.98 Hz)
  • T 73 24/(73 ⁇ 2 13 ) hour (6.92 Hz)
  • T 89 24/(89-2 12 ) hour (4.22 Hz)
  • T 17 24/(17 ⁇ 2 14 ) hour (3.22 Hz)
  • T 23 24/(23 ⁇ 2 15 ) hour (8.72 Hz)
  • T 3 24/(3 ⁇ 2 17 ) hour (4.55Hz)
  • Tu 24/(ll-2 15 ) hour (4.17 Hz)
  • T 71 24/(71 ⁇ 2 13 ) hour (6.73 Hz)
  • T 73 24/(73-2 13 ) hour (6.92 Hz)
  • T 83 24/(83 ⁇ 2 13 ) hour (7.87Hz)
  • T 3 24/(3 ⁇ 2 17 ) hour (4.55Hz)
  • T 5 24/(5-2 17 ) hour (7.59 Hz)
  • T 5 24/(5-2 15 ) hour (3.79 Hz)
  • T 7 24/(7-2 16 ) hour (5.31 Hz)
  • T 9 24/(9 ⁇ 2 15 ) hour (3.41 Hz)
  • T 7 24/(7 ⁇ 2 16 ) hour.
  • T j 24/(1 ⁇ 2 18 ) hour (3.03 Hz)
  • T 9 24/(9 ⁇ 2 15 ) hour (3.41 Hz)
  • T 71 24/(71 ⁇ 2 13 ) hour (6.73 Hz)
  • T 7 24/(7 ⁇ 2 16 ) hour (5.31 Hz)
  • T 33 24/(33 ⁇ 2 14 ) hour (6.26 Hz)
  • T 5 24/(5 ⁇ 2 15 ) hour (3.79 Hz)
  • T 7 24/(7 ⁇ 2 16 ) hour (5.31 Hz)
  • T 35 24/(35 ⁇ 2 14 ) hour (6.64 Hz)
  • T 3 24/(3-2 17 ) hour (4.55Hz)
  • T 43 24/(43 ⁇ 2 13 ) hour (4.08 Hz)
  • T 129 24/(129 ⁇ 2 12 ) hour (6.12 Hz)
  • T 121 24/(121 ⁇ 2 12 ) hour.
  • T 2 i 24/(21 ⁇ 2 15 ) hour (7.96 Hz)
  • T 9 24/(9 ⁇ 2 16 ) hour (6.83 Hz)
  • T 5 24/(5 ⁇ 2 16 ) hour (3.79 Hz)
  • T 63 24/(63 ⁇ 2 12 ) hour (2.99 Hz)
  • L 63 24-60-60 v -2
  • Tj 24/(1 ⁇ 2 18 ) hour (3.03 Hz)
  • T 9 24/(9 ⁇ 2 16 ) hour (6.83 Hz)
  • T 9 24/(9-2 16 ) hour ⁇ 6.83 Hz
  • T 43 24/(43 ⁇ 2 13 ) hour (4.08 Hz)
  • T 7 24/ ⁇ 7 ⁇ 2 16 ) hour (5.31 Hz)
  • herbicides e.g. glyphosate, C 3 H 8 N0 5 P.
  • T 3 i 24/(31 ⁇ 2 14 ) hour (5.88 Hz)
  • T 81 24/(81 ⁇ 2 12 ) hour (3.84 Hz)
  • T 21 24/(21 ⁇ 2 14 ) hour (3.98 Hz)
  • T 29 24/(29 ⁇ 2 14 ) hour (5.50 Hz)
  • T 69 24/(69-2 13 ) hour (6.54 Hz)
  • T 125 24/(125 ⁇ 2 12 ) hour (5.93 Hz)
  • T 73 24/(73-2 13 ) hour (6.92 Hz)
  • T 79 24/(79-2 13 ) hour (7.49 Hz)
  • This apparatus consists of three oscillators (1), (2) and (3) with natural period.
  • T n 24/(ll-2 15 ) hour
  • T 19 24/(19-2 14 ) hour
  • T 21 24/(21-2 14 ) hour. It influences fungicides (e.g. bitertanol, C 2 oH2 3 N 3 02).
  • Tn 24/(ll-2 15 ) hour (4.17 Hz)
  • T 19 24/(19-2 14 ) hour (3.60 Hz)
  • T 21 24/(21-2 14 ) hour (3.98 Hz)
  • T 21 24/(21 ⁇ 2 14 ) hour (3.98 Hz)
  • sulfites e.g. H 2 S, S0 2
  • S0 4 sulfate
  • T 17 24/(17 ⁇ 2 14 ) hour (3.22 Hz)
  • T 63 24/(63 ⁇ 2 13 ) hour (5.97 Hz)
  • Tu 24/(ll-2 15 ) hour (4.17 Hz)
  • T 63 24/(63 ⁇ 2 13 ) hour (5.97 Hz)
  • T 167 24/(167 ⁇ 2 12 ) hour (7.92 Hz)
  • Extinction of electromagnetic energy can also be achieved by electromagnetic interference where electromagnetic energy at one period interferes with electromagnetic energy at a large number of other periods.
  • extinction of electromagnetic energy at a large number of periods is achieved with only one oscillator.
  • This oscillator extinct electromagnetic energy with the natural periods of sulfites and herbicides and insecticides A and insecticides B and pesticides and fungicides and drugs, and it influences any one of these molecular substances.
  • T 189 24/(189 ⁇ 2 12 ) hour (8.96 Hz)
  • the accuracy in all conductor lengths is preferably +/- 1%-
  • the invention encompasses apparatus where the oscillators are preferably manufactured using printed circuit board (PCB) technique.
  • the oscillators can be mounted in an enclosure (7), illustrated in Figure 3.
  • the enclosure contains 1-10 holes (8), with approximately 1-4 mm diameter, which allows air or water (or oil or gas) and its positive ions to enter the enclosure. Positive ions are a prerequisite for proper function of said oscillators.
  • the enclosure can be supplied with different types of fastening devices.
  • Said fastening devices include any device which fastens the enclosure to objects, humans, animals or clothes including screws, leash, strap, harness, band and/or belt.
  • Said enclosure (7) can consist of e.g. plastic and in which case the oscillators are always "active", i.e. they influence resonance in air and in water and can be used in air and in water.
  • a multiple of apparatus can be used in large industrial processes or when covering large areas or volumes.
  • the methods and apparatus can be employed continuously (e.g. in continuous industrial processes, cleaning of sewage, water reservoirs and lakes) or during a limited time, e.g. ⁇ 1 minute in order to remove chemical elements, compounds and molecules from food, beverages and humans.
  • the apparatus can be positioned in the air close ( ⁇ 5 m) to said water including industrial processes, food, beverages, humans, animals and microbes.
  • the apparatus can be positioned in the pocket, in the purse, fastened or positioned on an object, a table etc. Any position within 5 m from the human, animal, microbes or water is possible.
  • the apparatus can be positioned in said water and where said oscillators are in direct contact with said water, including industrial processes, sea water, lake water, wells, aqueous solutions, oil and gas (containing H 2 0 molecules).
  • One example is removing e.g. cadmium, lead, herbicides, insecticides, pesticides, fungicides and sulfites during olive oil production. This can be performed in the steal container (e.g. 10-50 hi) during the production phase, i.e. the oscillators (apparatus) are submerged into the olive oil inside the container (during a few minutes).
  • a second example is removing e.g. herbicides, insecticides, pesticides and fungicides during wine production. This can be performed in the steal container (e.g. 10-50 hi) during the fermentation phase, i.e. the oscillators (apparatus) are submerged into the wine inside the container (during a few minutes).
  • a third example is removing e.g. lead and/or S0 2 from crude oil in which case one or many oscillators (apparatus) are submerged into the oil tank, e.g. on a ship or a storage tank.
  • a fourth example is removing chemical elements, herbicides, insecticides, pesticides, fungicides, sulfites, carbon dioxide, nitrates and/or phosphates from sewage, water reservoirs, wells, rivers, lakes and seawater and in which case the oscillators (apparatus) are submerged into the water. This creates a chain reaction and which removes the addressed chemical elements, compounds and molecules in all water, e.g. in a lake.
  • An alternative is to position said apparatus (7) in a metal container (9) (e.g. steel, iron, aluminum, copper) containing air and where said water (10) is positioned in the container and in the air inside the container as illustrated in Figure 4.
  • a metal container e.g. steel, iron, aluminum, copper
  • said water (10) is positioned in the container and in the air inside the container as illustrated in Figure 4.
  • This often yields a better result, i.e. the extinction of electromagnetic energy at said natural period(s) is more effective.
  • no extinction of electromagnetic energy occurs outside the container, i.e. the environment outside the container is not influenced.
  • This container can have any size and a multitude of said apparatus (7) or other means to extinct said energy.
  • One example is removing herbicides, insecticides, pesticides, fungicides, antibiotics and sulfites from wine, beverages, drink water and food in domestic (home) use.
  • the size of the container is preferably 1-5 liters, and the oscillators (apparatus) are positioned in the air within the container.
  • the wine bottle, beverages/water contained in a bottle or a glass or food is positioned in the container during ⁇ 1 minute.
  • the apparatus according to claim 90 includes drugs, resulting in that antibiotic in meat, pork and chicken is influenced as well.
  • Said water can also be processed in a continuous process where said water (11) is continuously transported through a container (9), as illustrated in Figure 5.
  • This container can have any size and a multitude of apparatus (7) or other means to extinct electromagnetic energy.
  • One example is removing lead and S0 2 from gas, oil and petrol in which case the container size can be e.g. 1000 m 3 .
  • the method is non-invasive, i.e. nothing is added to water, aqueous solutions, food, beverages, humans and animals.
  • Said chemical element, compound or molecule can also be influenced and/or removed by exposing said water to electromagnetic energy with one or many of the natural periods of said chemical element, compound or molecule, preferably +/- 1 ⁇
  • the amplitude must be significantly higher (approximately 10 times) than the amplitude of the corresponding electromagnetic energy present in the air or in water. This creates resonance in the solvation shells; however, the amplitude of this resonance is so high that the solvation shells are destroyed, resulting in a reaction that creates atom(s), ion(s) and/or metal and/or one or many compounds.
  • the correct amplitude is adjusted empirically and depends on the type of water solution and its volume as well as the type of chemical element, compound or molecule.
  • Said chemical element, compound or molecule and the solvation shells can also create resonance at a natural frequency (i.e. natural period) deviating from the period 24/(m-2 n ) hour.
  • Said chemical element, compound or molecule creates resonance when exposed to electromagnetic energy with said natural frequency, resulting in that they form insoluble atom(s), ion(s) and/or metal and/or one or many compounds.
  • the invention encompasses said natural frequencies, referred to as "one or many of the natural frequencies of said chemical element, compound or molecule" in claim 1 and claim 48.
  • Exposing a chemical element, compounds or molecule to electromagnetic energy normally results in a reaction within one minute.
  • the method can also be used during a longer time or continuously.
  • This method is invasive and should therefore, preferably, not be used in vivo. It is among others suitable for large volume application, e.g. removing said chemical element, compound or molecule from crude oil or sewage.
  • Figure 6 displays results obtained on a human containing aluminum (Al) when electromagnetic energy with said natural period was prevented from propagating to the human using the apparatus according to claim 55.
  • Graph (12) displays the absorbed current in the brain at the period 24/(15 ⁇ 2 15 ) hour, as function of the time when electromagnetic energy with the period 24/(15 ⁇ 2 15 ) hour was prevented from propagating to the human.
  • Graph (12) shows that approximately 80 % of the aluminum was located to the brain, while the remaining aluminum was located to the rest of the body.
  • Figure 7 displays results obtained on a human containing cadmium (Cd) when electromagnetic energy with said natural periods were prevented from propagating to the human using the apparatus according to claim 59.
  • Graph (13) displays the absorbed current in the brain at the period 24/(21 ⁇ 2 14 ) hour, as function of the time when electromagnetic energy with the period 24/(21-2 14) hour and 24/(41-2 13 ) hour were prevented from propagating to the human.
  • Graph (13) shows that
  • Figure 8 displays results obtained on a human containing copper (Cu) when electromagnetic energy with said natural periods were prevented from propagating to the human using the apparatus according to claim 63.
  • Graph (14) displays the absorbed current in the brain at the period 24/(73-2 13 ) hour, as function of the time when electromagnetic energy with the period 24/(73 ⁇ 2 13 ) hour and 24/(83 ⁇ 2 13 ) hour were prevented from propagating to the human.
  • Graph (14) shows that
  • Figure 9 displays results obtained on a human containing lead (Pb) when electromagnetic energy with said natural periods were cancelled or prevented from propagating to the human using the apparatus according to claim 74.
  • Graph (15) displays the absorbed current in the brain at the period 24/(5 ⁇ 2 16 ) hour, as function of the time when electromagnetic energy with the period 24/(5 ⁇ 2 16 ) hour and 24/(63 ⁇ 2 12 ) hour were prevented from propagating to the human.
  • Graph (15) shows that approximately 60 % of the lead was located to the brain, while the remaining lead was located to the rest of the body and primarily to the spine.
  • Figure 10 displays results obtained on a human containing tin (Sn) when electromagnetic energy with said natural periods were cancelled or prevented from propagating to the human using the apparatus according to claim 75.
  • Graph (16) displays the absorbed current in the body at the period 24/(1 ⁇ 2 18 ) hour, as function of the time when electromagnetic energy with the period 24/(1 ⁇ 2 18 ) hour and 24/(9-2 16 ) hour and 24/(17 ⁇ 2 15 ) hour were prevented from propagating to the human. Tin was distributed to the whole body.
  • the present invention displays that some chemical elements, which are considered toxic, create resonance and absorb electromagnetic energy in vitro, in situ and in vivo. In vivo these toxic elements accumulate in the human body. The reason may be that this resonance enhances their bonds to water.
  • the present invention describes a method to remove these toxic elements from the human body, from industrial processes, from sewage, from drinking water, from food and beverages. It also facilitates effective control of chemical elements in sensitive industrial and medical processes.
  • the following chemical elements are considered toxic; Ag, Al, As, Cd, Co (in large concentration), Cr, Cu (in large concentration), F, Hg, Pb and Sn.
  • the present invention facilitates removal of extremely low concentration (i.e. down to one ion) of said chemical element in humans, in industrial processes, in tap water and in sewage.
  • the invention describes silver because humans sometimes contain relatively large amount of silver, one reason may be that silver is used as a food additive in Europe (e.g. E174) and in some dental filling compounds. Safety aspects of silver are disputed.
  • the method also allows extraction or production of silver from water.
  • Cobalt and copper are important trace metals in miniscule amounts; however, toxic in large concentration.
  • Some humans display very high concentration of cobalt (probably from cobalt in pottery) and copper (probably from coffee brewers and copper piping).
  • the invention allows extraction or production of gold and rare chemical elements from water.
  • the invention facilitates influence of the outer layers of a metal or a chemical element structure or a compound or a molecular structure, wherein the outer layers change and cease to create resonance and to absorb electromagnetic energy at said natural period or said natural periods.
  • the invention can be used to treat and/or to change the outer layers or surface of metals and molecular structures in numerous ways.
  • the invention can among others be used to prevent leakage of a chemical element from a metal surface.
  • One example is to treat the surface of aluminum cans containing beverages (beer, soda, Coca Cola), wherein the can ceases to leak aluminum. This treatment can be performed using the apparatus according to claim 55 during 1 minute.
  • Another example is vinyl chloride.
  • Vinyl chloride creates resonance and absorbs electromagnetic energy at the period 24/(71 ⁇ 2 13 ) hour and 24/(73 ⁇ 2 13 ) hour, probably caused by carbon. Thus, clothes that contain vinyl chloride absorb electromagnetic energy and which can have health effects. Preventing vinyl chloride from absorbing electromagnetic energy with the period 24/(71 ⁇ 2 13 ) hour and 24/(73-2 13 ) hour (e.g. during one minute), using the apparatus according to claim 58, changes the outer molecular layers of the vinyl chloride, whereby it permanently ceases to absorb electromagnetic energy at the period 24/(71-2 13 ) hour and 24/(73 ⁇ 2 13 ) hour.
  • Olive oil, olives, grapes and vinegar often contain chemical elements (e.g. aluminum, lead, nickel, zinc and copper).
  • chemical elements e.g. aluminum, lead, nickel, zinc and copper.
  • the producer or the distributor or the consumer can remove dissolved chemical elements from food and beverages or convert soluble chemical elements into insoluble chemical elements and/or compounds. This improves the taste and contributes to health effects.
  • Wine and alcoholic beverages contain, almost without exception, metals such as Al, Cd, Cu, Ni, Pb and Zn in small concentration (i.e. less than 10 ⁇ g/l). This may seem harmless; however, it creates electromagnetic resonance and absorbs electromagnetic energy and which disturbs the human taste receptors. Removing these chemical elements, using the present invention, can improve the taste. However, chemical elements often contribute to taste, i.e. the terroire of wine.
  • Mineral oil (Classicway, Statoil), petrol (95 octane, Statoil), gas (propane/C 3 H 8 , AGA) and petroleum distillates (Avfettning, Petrolia AB, Lacknafta, Petrolia AB and Tandvatska, ICA) contained traces of lead (approximately 1 Lead in these products was removed using the present invention and apparatus according to claim 74.
  • the present invention includes removal of lead and other chemical elements from oil, gas and petroleum products.
  • Microbes and pathogens e.g. bacteria, virus, fungal microbes and mold
  • Examples are the bacteria lactobacillus reuteri which contains C and Pb, lactobacillus rhamnosus which contains C and W, pathogenic legionella bacteria which contains C and I, anaerobic bacteria metano sarsino which contain C and Se, DMD (Duchene Muscular Dystrophy) which contains C and Sn, some flu virus which contains C and V and some flu virus which contains C and W and virus in some warts which contains C and Fe.
  • the microbe absorbs electromagnetic energy with the natural periods of these chemical elements, e.g. flu virus with the natural periods of carbon (C) and vanadium (V).
  • the present invention allows selective influence of said chemical element and influence on selected types of microbes and pathogens.
  • the invention includes the method to influence any one of the two chemical elements contained in many microbes (e.g. for flu C or V) or both (e.g. for flu C and V).
  • the invention includes killing organisms (which live on oxygen) including microbes by influencing oxygen.
  • the invention also includes killing organisms (which live on carbon dioxide) including microbes by influencing carbon dioxide.
  • Herbicides, insecticides, pesticides and fungicides dissolve in water and are therefore present almost everywhere in the environment; in ground water, lakes, seawater, vegetables, fruits, flour, bread, pasta, corn flakes muesli, olives, different oils, mineral water, orange juice, wine, liquor and the human brain.
  • the invention enables removal of herbicides, insecticides, pesticides and fungicides from water, food and beverages at the source, during production, during distribution and by the end customer.
  • the invention enables removal of herbicides, insecticides, pesticides and fungicides from the human brain and body and from animals.
  • Drugs, antibiotics and hormones, including antibiotics used in beef, pork and chicken production dissolve in water and are therefore present in the environment; in ground water, tap water, lakes, seawater and in food (e.g. beef, pork, salami, chicken) and in the human brain.
  • the invention enables removal of drugs, antibiotics and hormones from industrial processes, sewage, water reservoirs, drinking water, lakes, seawater, food, animals and the human brain and body.
  • the invention enables removal of nitrogen compounds (e.g. N0 2 , N0 3 , NH 4 , NH 4 CI) and phosphorus compounds (e.g. PI, P4, P0 4 , H 3 P0 4 ) from rivers, lakes, water reservoirs and seawater.
  • nitrogen compounds e.g. N0 2 , N0 3 , NH 4 , NH 4 CI
  • phosphorus compounds e.g. PI, P4, P0 4 , H 3 P0 4
  • C0 2 is a major environmental threat.
  • the invention enables removal of C0 2 from e.g. power plant exhaust and car exhaust.
  • the invention can be applied on C0 2 exhaust in air, or by feeding C0 2 exhaust through water and removing the C0 2 in the water, whereby carbon remains in the water and 0 2 evaporates.
  • the invention enables removal of C0 2 from lake and seawater, whereby lakes and oceans afterwards can dissolve and accumulate C0 2 contained in the air, thereby reducing C0 2 in the atmosphere.
  • the invention facilitates continuous conversion of C0 2 in the atmosphere into carbon and oxygen.
  • Sulfur compounds are a major environmental threat.
  • the invention enables removal of sulfites (e.g. S0 2 ) and S0 4 from crude oil, oil, petrol, petroleum products, gas and coal.
  • the invention enables removal of sulfur compounds from power plant exhaust.
  • the invention enables removal of sulfites (e.g. H 2 S, S0 2 ) and sulfate (S0 4 ) from wells, water reservoirs, rivers, lakes and seawater.
  • sulfites e.g. H 2 S, S0 2
  • S0 4 sulfate
  • Sulfites degrade the taste of wine and many beverages (e.g. whiskey).
  • the invention enables removal of sulfites from wine and all types of food and beverages.
  • the invention enables removal of dissolved phosphorus compounds. This results in that dissolved chemical elements cease to dissolve whereby they sediment. Thus, the invention enables removal of phosphorus and chemical elements from water, e.g. in sewage and industrial processes.
  • the invention enables influence on phosphorus compounds in organisms, including microbes (e.g. bacteria, virus). This results in that chemical elements in these organisms are influenced and whereby these organisms are influenced and/or killed. Thus, the invention enables influence on and/or killing microbes by influencing phosphorus.
  • the invention enables change of dissolved Na and dissolved CI into NaCI.
  • the NaCI is separated using e.g. centrifugation.
  • the invention includes reduction of Na and CI and/or NaCI in water, including seawater.
  • the present invention includes the influence on chemical processes by influencing chemical elements, compounds and/or molecules dissolved in water or by preventing chemical elements and/or compounds from becoming dissolved.
  • the present invention facilitates fundamentally new ways of controlling, creating and/or preventing chemical processes.
  • Some compounds and molecules have many natural periods.
  • One example is S0 2 that has the natural period 24/(17 ⁇ 2 14 ) hour and 24/(63 ⁇ 2 13 ) hour.
  • the S0 2 molecule is split when prevented from absorbing electromagnetic energy with the period 24/(17 ⁇ 2 14 ) hour.
  • the S0 2 molecule is also split when prevented from absorbing electromagnetic energy with the period 24/(63 ⁇ 2 13 ) hour.
  • the S0 2 molecule is also split when prevented from absorbing electromagnetic energy with the period 24/(17 ⁇ 2 14 ) hour and 24/(63 ⁇ 2 13 ) hour.
  • Another example is glyphosate where the molecule is split when prevented from absorbing electromagnetic energy with the period 24/(31 ⁇ 2 14 ) hour or with the period 24/(145 ⁇ 2 12 ) hour or with the periods 24/(31 ⁇ 2 14 ) hour and 24/(145-2 12 ) hour.
  • Some molecules are only influenced when prevented from absorbing electromagnetic energy simultaneously with all of its natural periods. Consequently, the present invention encompasses the method to influence some compounds and molecules, which have e.g. the natural periods Tl, T2 and T3, by preventing the compound or molecule from absorbing electromagnetic energy with the period Tl and/or T2 and/or T3.
  • the preferred method is to prevent said compound or molecule from absorbing electromagnetic energy with the periods Tl and T2 and T3.
  • the present invention encompasses all chemical elements, compounds and molecules in water and/or dissolved in water.
  • the invention describes in detail chemical elements, compounds and molecules that have environmental impact and impact on humans, including disease management. Fertilizers based on phosphorus and nitrogen pollutes rivers, lakes, sea and drinking water.
  • the present invention facilitates removal of e.g. phosphates, nitrates and ammonia from water and which will allow continued use of fertilizers in agriculture while minimizing the environmental impact. Effective agriculture is almost impossible without use of herbicides, insecticides, pesticides and fungicides. However, they have major environmental impact.
  • the present invention facilitates removal of these molecular substances from rivers, lakes, seawater, tap water, food, beverages and the human body.
  • S0 2 and C0 2 outlets from cars and power plants are a major environmental hazard.
  • the present invention facilitates removal of S0 2 and S0 4 at the source, e.g. in crude oil, and removal of S0 2 , S0 4 and C0 2 at the outlet. This may turn oil, gas and coal into environmentally safe energy. Drugs, antibiotics and hormones are necessary in diseases management and food production.
  • the present invention facilitates removal of many of these molecular substances at the source
  • the present invention describes methods to reduce the salinity of water. State of the art diseases management is enormously complex resulting in that state of the art medicine is loosing ground against multi resistant bacteria and new types of virus.
  • microbes contain chemical elements that create electromagnetic processes that are essential for the microbe's survival. Thus, the vital kernel of microbes is one or two chemical elements.
  • the present invention describes a fundamentally new way of killing microbes and disease management, facilitated by influencing chemical elements and/or compounds contained in microbes.

Landscapes

  • Life Sciences & Earth Sciences (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Geology (AREA)
  • Hydrology & Water Resources (AREA)
  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Water Supply & Treatment (AREA)
  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Agricultural Chemicals And Associated Chemicals (AREA)

Abstract

La présente invention concerne un procédé permettant d'influencer un élément chimique, un composé ou une molécule dans de l'eau, en évitant audit élément chimique, audit composé ou à ladite molécule d'absorber l'énergie électromagnétique présente dans l'air et dans l'eau.
PCT/SE2011/000210 2011-11-22 2011-11-22 Procédé et appareil de purification de solutions aqueuses par la protection ou la soumission de substances chimiques à un rayonnement électromagnétique à basse fréquence WO2013077780A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
PCT/SE2011/000210 WO2013077780A1 (fr) 2011-11-22 2011-11-22 Procédé et appareil de purification de solutions aqueuses par la protection ou la soumission de substances chimiques à un rayonnement électromagnétique à basse fréquence

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/SE2011/000210 WO2013077780A1 (fr) 2011-11-22 2011-11-22 Procédé et appareil de purification de solutions aqueuses par la protection ou la soumission de substances chimiques à un rayonnement électromagnétique à basse fréquence

Publications (1)

Publication Number Publication Date
WO2013077780A1 true WO2013077780A1 (fr) 2013-05-30

Family

ID=48470122

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/SE2011/000210 WO2013077780A1 (fr) 2011-11-22 2011-11-22 Procédé et appareil de purification de solutions aqueuses par la protection ou la soumission de substances chimiques à un rayonnement électromagnétique à basse fréquence

Country Status (1)

Country Link
WO (1) WO2013077780A1 (fr)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104973738A (zh) * 2015-07-26 2015-10-14 李娜 一种去除含铬污水污染物的方法
EP2939624A4 (fr) * 2012-12-31 2016-03-30 Lanzhou Jinfule Biotechnology Co Ltd Applications de dispositif de dérive et de suspension
CN106115974A (zh) * 2016-07-26 2016-11-16 北京惠宇乐邦环保科技有限公司 一种草铵膦生产废水的预处理方法
CN107628722A (zh) * 2017-11-07 2018-01-26 长沙埃比林环保科技有限公司 一种纯碱处理含铅废水的方法
CN116609810A (zh) * 2023-05-19 2023-08-18 复旦大学 基于导航地基系统的电离层四维电子密度动态预测方法

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2123399A (en) * 1982-07-09 1984-02-01 Marcos Pinel Jimenez System for purifying liquids by magnetic resonance
RU2188798C1 (ru) * 2000-12-08 2002-09-10 Барышев Михаил Геннадьевич Способ обеззараживания жидких сред
US6475071B1 (en) * 2000-08-25 2002-11-05 Micron Technology, Inc. Cross flow slurry filtration apparatus and method
EP1676815A1 (fr) * 2004-12-28 2006-07-05 Planet Horizons Technologies SA Procédé de traitement électromagnétique des liquides
US20100042005A1 (en) * 2007-03-28 2010-02-18 Trustees Of Boston University Detecting optical properties of a turbid medium

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2123399A (en) * 1982-07-09 1984-02-01 Marcos Pinel Jimenez System for purifying liquids by magnetic resonance
US6475071B1 (en) * 2000-08-25 2002-11-05 Micron Technology, Inc. Cross flow slurry filtration apparatus and method
RU2188798C1 (ru) * 2000-12-08 2002-09-10 Барышев Михаил Геннадьевич Способ обеззараживания жидких сред
EP1676815A1 (fr) * 2004-12-28 2006-07-05 Planet Horizons Technologies SA Procédé de traitement électromagnétique des liquides
US20100042005A1 (en) * 2007-03-28 2010-02-18 Trustees Of Boston University Detecting optical properties of a turbid medium

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
HANS W GIERTZ, IT MEDICINE - A NOVEL APPROACH TO MANAGEMENT OF INFECTIOUS DISEASES, pages 111 - 123 *

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2939624A4 (fr) * 2012-12-31 2016-03-30 Lanzhou Jinfule Biotechnology Co Ltd Applications de dispositif de dérive et de suspension
CN104973738A (zh) * 2015-07-26 2015-10-14 李娜 一种去除含铬污水污染物的方法
CN106115974A (zh) * 2016-07-26 2016-11-16 北京惠宇乐邦环保科技有限公司 一种草铵膦生产废水的预处理方法
CN107628722A (zh) * 2017-11-07 2018-01-26 长沙埃比林环保科技有限公司 一种纯碱处理含铅废水的方法
CN116609810A (zh) * 2023-05-19 2023-08-18 复旦大学 基于导航地基系统的电离层四维电子密度动态预测方法
CN116609810B (zh) * 2023-05-19 2024-06-07 复旦大学 基于导航地基系统的电离层四维电子密度动态预测方法

Similar Documents

Publication Publication Date Title
Kanissery et al. Glyphosate: Its environmental persistence and impact on crop health and nutrition
CN106396037B (zh) 过乙酸/过氧化氢和过氧化物还原剂用于处理钻井液、压裂液、回流水和排放水的用途
Odukoya et al. Understanding the impacts of crude oil and its induced abiotic stresses on agrifood production: A review
Pateiro-Moure et al. Critical review on the environmental fate of quaternary ammonium herbicides in soils devoted to vineyards
WO2013077780A1 (fr) Procédé et appareil de purification de solutions aqueuses par la protection ou la soumission de substances chimiques à un rayonnement électromagnétique à basse fréquence
Zaranyika et al. Degradation of oxytetracycline in the aquatic environment: a proposed steady state kinetic model that takes into account hydrolysis, photolysis, microbial degradation and adsorption by colloidal and sediment particles
Agnihotri Anabaena flos-aquae
Bernstein et al. Salinity stress does not affect root uptake, dissemination and persistence of Salmonella in sweet-basil (Ocimum basilicum)
Pathak et al. Various techniques for atrazine removal
Kumar et al. Iodine: a unique element with special reference to soil-plant-air system
Kumari et al. Ascophyllum nodosum (L.) Le Jolis, a pivotal biostimulant toward sustainable agriculture: A comprehensive review
Masmoudi et al. Halobacteria-based biofertilizers: a promising alternative for enhancing soil fertility and crop productivity under biotic and abiotic stresses—A review
Tarus et al. Pesticide residue levels in Nzoia river catchment area
Lysytsya Research on the impact of polyhexamethyleneguanidine on the plant component of biocenoses
Ravichandran Possible natural ways to eliminate toxic heavy metals
CN101843261A (zh) 从浒苔中提取赤潮藻抑制剂的方法和应用
Hassoon Heavy metals contaminationassessment for some imported and local vegetables
Apodaca et al. Arbuscular mycorrhizal fungi alleviate phytotoxic effects of copper-based nanoparticles/compounds in spearmint (Mentha spicata)
CN106466328B (zh) 海洋深层水萃取物及其用途
Daniel I. EVALUATION OF DIQUAT AND ENDOTHALL FOR THE CONTROL OF WATER MILFOIL (MYRIOPHYLLUM EXALBESCENS) AND THE EFFECT OF WEEDKILL ON THE NITROGEN ANDPHOSPHORUS STATUS OF A WATERBODY. II. DESIGN AND CONSTRUCTION OF A SHALLOW WATER SEDIMENT CORE SAMPLER
Singh et al. A review on biosorbents
Zhang et al. Novel Antibacterial Metals as Food Contact Materials: A Review
Ulrich et al. Chiral chlordane components in environmental matrices
Vane Assessment of physico-chemical parameters, nutrients, fluorides, pesticides and selected heavy metals contamination in Lake Elementaita drainage basin
Kivuti Using cilantro leaves and stems to remove lead, cadmium and turbidity from contaminated water

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 11876195

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

32PN Ep: public notification in the ep bulletin as address of the adressee cannot be established

Free format text: NOTING OF LOSS OF RIGHTS (EPO FORM 1205A DATED 04-0912014)

122 Ep: pct application non-entry in european phase

Ref document number: 11876195

Country of ref document: EP

Kind code of ref document: A1