Valentin G. SHIRONOSOV -- Activated Microcluster Water

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> **VALENTIN G. SHIRONOSOV ,*et al***  
> **Activated Microcluster Water**
>
>
>
> ---
>
> **Phenomenal enhancement of healing, plant
> growth, food preservation &c with Activated Microcluster
> Water**
>
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>
>   
>
> ![](shironosov.jpg) **Valentin G. SHIRONOSOV**  
>   
>
>
> ---
>
> **<http://ikar.udm.ru>  
> "IIS-RT"-1997. Collection ?22**
>
> **Resonance in physics, chemistry and
> biology.**  
>   
> **Valentin G. Shironosov**
>
>   
> Department of BioMedPhysics, UdSU, Izhevsk, svg@uni.udm.ru ,
> tel. +7-3412-763-466  
>   
> ---- The resonant problems in different areas of physics,
> chemistry and biology from the unified point of view -
> extremeness of resonant statuses of motion in the nature are
> reviewed. In particular, the problems of dynamics of motion and
> holding of atomic, macroscopic particle, micro-organisms in
> inhomogeneous fields, outside and inside resonance conditions
> are analyzed; problems of dynamic stability of unstable states,
> bifurcation, chaos, discretization, evolution of non-linear
> dynamic systems which are not inclusive in an obvious view a
> small parameter. A fundamentals of the resonant theory of
> dynamic systems are set out. The unsolved problems are marked
> and the paths of their solution are planed, in particular: ball
> lightning, activated water, resonant effect of superweak fields
> at biological systems, including correlation between periods of
> solar activity and processes happening at this time on the
> Earth.  
>   
> **The foreword.**  
>   
> ---- This book has arisen as outcome of the numerous lectures
> and seminars, in which one I attempted in the understandable
> form to set out an achievements of the different explorers, in
> the most different spheres of activity at unified object of our
> research her Majesty - Nature. The contents of the book was
> finally made after I had in a winter semester 1999/2000 to read
> a course of the lectures for the students-biophysicist of
> physical faculty of the Udmurt state university. . The
> noticeable place in the book takes a phenomenon of the resonance
> which has permitted to realize unified connection of phenomena,
> diversiform ambient and diving through us. Moreover, I and my
> employees in a lot of cases have could to influence development
> of events in this area.  
>   
> **Contents:**  
> 1. Introducing.  
>   
> 2. Resonance in linear systems. Traps for particles.  
>   
> 2.1. About dynamic stability of unstable states.  
>   
> 2.2. Atomic traps.  
>   
> 2.3. Problem of levitation of magnetic particles.  
>   
> 2.4. "A Problem 1/R3 " in a system of two dipoles.  
>   
> 2.5. Cells in "atomic" traps.  
>   
> 2.6. Ponderomotive wave action at "resonators".  
>   
> 3. Resonance in non-linear systems.  
>   
> 3.1. Simple computational method for non-linear dynamic systems.  
>   
> 3.2. About a pendulum of Kapica outside and inside zone of a
> parametric resonance.  
>   
> 3.3. Dynamic stability of saddle points in autonomous systems.  
>   
> 3.4. About stability of unstable states, bifurcation, chaos of
> non-linear dynamic systems.  
>   
> 3.5. Discretization, chaos and evolution in non-linear dynamic
> systems.  
>   
> 4. Resonant traps.  
>   
> 4.1. Ponderomotive wave action at patterns in conditions of a
> magnetic resonance.  
>   
> 4.2. Resonant levitation of bodies and particles with own
> magnetic moment.  
>   
> 4.3. Problem of two magnetic dipoles allowing for equations of
> motions of their spins.  
>   
> 5. Instead of the concluding - unsolved problems.  
>   
> 5.1. About the nature of a ball lightning.  
>   
> 5.2. Abnormal properties of activated water.  
>   
> 5.3. Resonant effect of fields at biological systems.  
>   
> 5.4. Sun, radiation and life.  
>   
> List of the literature.  
>   
> The application - history of the problem.  
>   
>
>
> ---
>
>   
> **"IIS-RT"-2008. Collection # 43-1**
>
> **High quality water production: analysis
> and perspective**  
>   
> **Shironosov V.G., Minakov V.V., Shironosov O.V., Shironosova
> G.I., Ivanov V.B.**
>
>   
> Scientific Research Center "Resonant Technologies" Udmurt State
> University,   
> http://v4.udsu.ru/science/untsrt  
>   
> Scientific Research Center "IKAR", www.ikar.udm.ru,
> svg@uni.udm.ru svg@uni.udm.ru  
> Ecology and the industry of Russia, Moscow, 2008, p. 4-7.  
>   
> Nowadays there are a number of methods of drinking water quality
> determination. The main water characteristics are its chemical
> composition and purity. However it turns out that even pure
> water has very complex structure and properties. Drinking water
> standards do not reflect the most essential water property- its
> biological beneficial effect. That is why regular water we drink
> is not good enough.  
>   
> During the last decades scientists are getting more interested
> in water, as water is a unique liquid. Numerous experiments
> results show that existing methods of water properties
> investigation do not satisfy requirements. They do not include a
> number of water parameters that actually characterize water
> beneficial properties and biological activity. Physiological
> water properties are determined not only by its chemical
> composition and the process of its purification, but also by a
> number of interrelated physical parameters which characterize
> water as a complex structured system in a non-equilibrium
> thermo-dynamic state. This system has a microcluster structure
> and become a source of emission (Figure 1) [1].  
>   
> **Figure 1. Microclusters (0.01-0.1 mm) in water solutions: 1 -
> distilled water, 2 - natural mineral water, 3 - 70% alcohol
> solution.**
>
> ![](sb43-1e_1.jpg)
>
> **Water activation is the process of water transfer into a
> non-equilibrium thermo-dynamic state, accompanied by change of
> water structure. Water acquires resonant microcluster
> structure**. There are number of methods of water activation
> (physical, chemical, biological, ets) -Figure 2. 1-3 solutions
> were activated by means of the device "Izumrud-SI" (mod.03). The
> solutions 1 and 2 were received by means of flow-through devices
> for anolyte and catholyte production (1:1). The solutions 4-5
> were activated by means of the device "Izumrud-SI" (mod.04). The
> solution 4 was contact activated by means of electrolysis, the
> solution 5 was non-contact activated by means of electrolysis.
> The solution 6 was non-contact activated by means of ultrasonic
> scanning. The solution 7 was activated by means of ultraviolet
> radiation. The solution 8 was activated by means of gaseous
> fractions formed in the result of a reaction between Al and HCl
> solution. Activated water has a high physicochemical and
> biological activity.  
>   
> **Figure 2. Microclusters (5-25 mm) in water solutions: 1 -
> anolyte acid solution; 2 - catholyte alkaline solution; 3 -
> anolyte neutral cathodic; 4 - 0.3% Na2CO3 water solution; 5 -
> distilled water; 6 - vodka "Sarapulskaya"; 7, 8 - distilled
> water.**
>
> ![](sb43-1e_2.jpg)
>
> One of the most essential drinking water parameters is water
> "charge", that is water RedOx. Silver-chlorine electrode was
> used as an auxiliary electrode for RedOx measurement. RedOx
> water in these conditions should be negative and pH should be
> neutral, since RedOx of human body cells is ? ?70 mV. When RedOx
> of cells is different from the norm, people contract diseases.
> Investigation data (Invention application **RU 2007127132, RU
> 2007127133; Patents RU 2299859, RU 2316374) show that RedOx is
> a general parameter reflecting drinking water structure and
> biological activity**. RedOx can vary even if pH remains
> unchanged. RedOx and pH anomalies [2.3] do not contradict Nernst
> equation. It actually reflects the fact that Nerst equation is
> not universal and can not be applied to every case. It also
> reflects peculiarities of non-equilibrium environment parameters
> measurement (Figure 3, during our experiments electromotive
> voltage of signal - E was changed by the method described in
> Invention application **RU 2007127132**).  
>   
> **Figure 3. Dynamics ReDox (1-3) and E (4-6) samples of
> distilled water (1, 2, 4, 5) and of infusion solution (3, 6):
> 1, 5 - control samples; 2, 3, 5, 6 - activated non-contact by
> electrolysis without diaphragm in an interval t=0-6,7 h.**
>
> ![](sb43-1e_3.jpg)
>
> **Anomalies of pH and RedOx of non-contact and contact
> activated water can easily be explained by the fact, that** **stable
> high-energy resonant microclusters form on the base of
> covibrating dipoles (water molecules, OH-) near anode and
> cathode** [2-4]. In a static state such dipole systems are
> not stable (collapse effect), but in a dynamic state there is a
> stabilization effect. Alternating field formed on the base of
> two covibrating in antiphase dipoles has a narrow frequency
> range (resonance effect) and becomes narrower at the rate of
> 1/r4.  
>   
> **The anomalous properties of activated water solutions (such
> as relaxation period, non-contact activation effect, cluster
> structure existence period**- Figures 1 and 2, opportunity
> to predetermine and control mineralization degree, homeopathy)
> can be explained by high-quality microcluster structures
> ("molecular tuning forks")- Q ~ 1013-23. Regular drinking water
> (RedOx>0) penetrates into human body tissues and takes
> electrons from cells that consist of water by 80-90%. In the
> result of that biological structures of the human body (cell
> membranes, organoids, nucleic acids, etc) are destroyed by
> oxidation processes. That is how body gets older, essential
> organs cease to perform their functions, immunity decreases.  
>   
> Melt water in mountains have microcluster structure and a
> negative charge due to triboelectricity, transconformation and
> phase transition. Drinking water with a negative RedOx is easily
> assimilated by human body. It gives its charge to human blood
> and compensates a negative cell charge. For example, we found
> out that if mice that **if mice are treated with a lethal dose
> of X-rays and then given water with RedOx =-450 mv, their
> death rate decreases from 96% to 10% (in comparison with the
> control group of mice, that was given regular de-activated tap
> water with a positive RedOx.**  
>   
> As a rule, a negative water RedOx lasts not longer than 24
> hours, that is why it is recommended to prepare such water or
> live near mountain springs with 'alive' water.  
>   
> In 1990 Kiselev B.I. discovered a method of **water solutions
> non-contact activation by means of laser, magnetic or sonic
> field (Patent 1827274 USSR**). He proved for the first time
> that it is possible to make water biologically active for some
> period of time by means of physical methods. Clinical tests show
> that **activated water solutions can be used as
> immunostimulant remedies, therapeutic and prophylactic agents,
> since they do not have any side effects. Oral introduction of
> activated water solution (during 60 days) is less effective
> than infusion introduction ( 10 days).**  
>   
> In 2000 microhydrin (nanocarbon) was discovered. They called it
> "longevity tablets". One tablet per a glass of water, milk or
> coke shift liquid RedOx from +300 mV to -300 mV which is much
> more than fresh carrot juice RedOx (-70 mV). Microhydrin is one
> of the most effective antioxidants, but unfortunately, 1 liter
> of such water is rather expensive $4. Later Dvornikov V.M.
> created a beverage "Vashe Zdorovye" (Patent RU 2234945) which
> can retain negative RedOx during 6-12 months. As test had shown,
> the beverage has marked immunostimulating properties and can be
> used as effective therapeutic and prophylactic agent, but is
> quite expensive- $6/liter.  
>   
> One of the important water parameters is its mineral
> composition. Ca++, Mg++, J, Se bulk ions deficiency in water
> cause a number of diseases. There are few springs which have
> water with microelement and ion content which comply with
> Russian Healthcare Organization standards. Some of these springs
> are situated in Sarovo area.  
>   
> Calcium and magnesium deficiency can lead to hypertension, heart
> ischemia, osteochondrosis (even in 1.5 year old children),
> osteoporosis, incorrect posture, intelligence and memory
> decrease, quicker bilestone formation and stone formation in
> urinary tracts, tooth decay, alopecia etc. Ca and Mg ions are
> essential for normal development and health. They are especially
> important for children, women during pregnancy and
> breastfeeding, aged people.  
>   
> The tests show that there are just a number of unique springs
> with water with such properties and composition that this water
> comply with the demands for healthy life. As a rule, these
> springs are situated in mountains. So what can people do if they
> mostly drink regular tap or bottled water?  
>   
> In the course of history, two methods of water production were
> created.  
>   
> The first method is more widely-spread and cheap. It is based on
> water purification and decontamination up to standards of the
> particular region. This method allows to preserve necessary
> mineral substances and to produce cheap water - $0.0001-0.001
> per liter.  
>   
> The second method was considered to be affordable only for some
> people. It allows to produce high quality clear water by means
> of reversed osmosis or electrodialysis and the following
> mineralization (addition of mineral compositions, substances and
> gases). Now the reversed osmosis technology is getting less
> expensive and more widely-spread. It will allow producing
> cheaper and more affordable water.  
>   
> Reversed osmosis devices are usually advertised as
> next-generation devices for high-quality water production. But
> it is proved that because of the reversed osmosis devices water
> becomes:  
>   
> -distilled (demineralized);  
>   
> - deionized (oxidated), since water RedOx is positive in
> comparison with silver chloride electrode (200-400 mV);  
>   
> - water structure retain information about pipes covered with
> slime and dirt; it is especially dangerous for people with low
> immunity.  
>   
> Such water is not good enough for drinking.  
>   
> New unique Russian technologies, patented devices and methods
> allowed creating next-generation devices for production of high
> quality water (on the base of FTR-3 (Flow-Through Reactor,
> Figure 4) and extra-high quality water (by mens of Faraday
> screen) with resonant microcluster structure (Figure 5). Such
> devices can also control water parameters during water
> production.  
>   
> **Figure 4. Device "Emerald - SI" (mod. 01) for reception of
> the drinking activated high quality water with the given
> mineral structure and antioxidant properties properties: a -
> household, b - office, c - industrial.**![](sb43-1e_4.jpg)  
> Now the device "Izumrud-SI" (mod.01 os) has no analogues (Figure
> 5).  
>   
> The new approach is based on three main stages: pure water
> activation, the following mineralization and properties control.
> The offered device (Faraday screen, Patent 2299859) allowed to
> boost efficiency of water activation and electrical safety and
> to lower power inputs. Water mineralization was performed by
> means of unique Russian mineral composition "Severyanka++"
> containing Ca++, Mg++, J, Se ions.  
>   
> The device has integrated controller, flow-type sensors with
> two-level indication system - reversed osmose processes
> monitoring (purification), activation monitoring (water
> ionizing), water mineralization (mineral composition
> optimization). The integrated controller and twin indicator
> lamps (green and red) perform sensors monitoring and signal if
> any disrepairs happen. Three light indicators regimes: 1) green,
> 2) flashing (green/ red), 3) red, which tells that filters or
> mineral additive should be changed.  
>   
> **Figure 5. Device "Emerald-SI" (???.01 os) for production of
> extra-high quality water with the set mineral composition and
> antioxidant properties.**  
>
> ![](01os.jpg)
>
> Water and water solutions cost depending on "Izumrud- SI"
> devices performance: $0.004-0.008/liter (mod. 01),
> $0.008-0.08/liter (mod. 01 os).  
>   
> The devices can be used in different spheres of science and
> engineering when intensification of the processes is needed by
> means of activated high-quality water solution production with
> predetermined composition and properties.  
>   
> **Figure 6. Block scheme (a) and principle scheme (b) device
> "Emerald-SI" (mod.01 os).**
>
> ![](sb43-1e_6.jpg)
>
> The device can be applied for creation of new class of condensed
> substances (solid substances, activated solutions and
> beverages). Block scheme of the device "Izumrud-SI" (mod. 01 os-
> Figure 6a) includes purification subassemblies 1, 2,
> electroactivation subassemblies 3, mineral composition
> controller 4, sensors 5, 6, 9 for control of water properties
> (activation degree, pH, RedOx, temperature, dielectric
> capacitivity , conductivity etc), sensors 7 and 8 for liquid
> composition control (mineral elements, substances). The sensors
> 5, 7, 9 are on the system output, sensors 6 and 8 are installed
> in front of the purification subassemblies. If necessary, one
> can also install water disinfection subassemblies 10 and 11
> (Figure 6a), fine filter 12, degasifier 13, tank for activated
> liquids 14, liquid heater 15, liquid cooler 16, one or several
> ultrasonic activators, high-pressure switch 19, low-pressure
> switch 22, automated cut-off valve 20 and pump 21. Fine filters
> 12 and degasifiers 13 can be standard membrane devices- on the
> base of osmotic, track, selective or hollow fibers membranes, on
> the base of vacuum or ultrasonic deaerators or on the base of
> both. Tank for activated liquids 14 can also have pressure and
> temperature maintenance system.  
>   
> This technology is aimed at liquid quality and treatment
> efficiency increase, at water parameters control, at **preventing
> electrode overgrowing with cathode depositions. It prevents
> diaphragms from clogging**. The technology allows to expand
> operational options and to make the device user-friendlier and
> easier to maintain.  
>   
> Tap water always was and will remain process water, unless the
> offered technology is used. This is said in new State Standard.
> Low water quality is explained by water treating facilities
> condition and water chlorination technology that is widely used
> and other factors. Now there are two ways out: first, to produce
> bottled water, second, to treat tap water by means of regular
> water purifiers or purifying installations.  
>   
> The "Izumrud" electroactivation devices can produce 100-2000
> tons of water depending on tap water quality. The main advantage
> of this technology over bottled water production consists in the
> quality of produced water - **it is ionized and has RedOx and
> pH close to that of melt water and human body.** The project
> creators hope that if one distinguishes drinking water and
> process water it will help to solve numerous problems of water
> supply and to increase average life expectancy.  
>   
> **References:**  
> Smirnov A.N., Suroeshkin A.V., Lapshin B.V. et al.
> Supramolecular water complexes// Russian Chemistry Magazine,
> 2004, volume 48.  
>   
> Shironosov V.G., Shironosov E.V. 'Non-contact electrochemical
> water activation experiments', Collection of abstracts of the
> 2nd International Symposium 'Electrochemical activation in
> medicine, farming and industry', Moscow, VNIIIMT AO NPO
> 'Screen', Part 1, p.66-68, 1999
> http://www.ikar.udm.ru/sb/sb15-12e.htm  
>   
> Shironosov V.G. Resonance in physics, chemistry and biology.
> Izhevsk, Udmurt State University, p. 92, 2001
> http://www.ikar.udm.ru/sb/sb22e.htm  
>   
> Shironosov V.G. 'Phisical foundation of resonant water
> activation', Collection of abstracts of the 1st International
> Symposium 'Electrochemical activation in medicine, farming and
> industry', Moscow, VNIIIMT AO NPO 'Screen', 1997
> http://www.ikar.udm.ru/sb/sb1-2e.htm  
>   
> Shironosov V.G., Shironosova G.I., Minakov V.V., Ivanov V.B.
> Installations and devices for ecologic safety at home, at work
> and in hospitals. Abstracts of the XIII International Symposium
> "2003- International Year of Water", Austria, 2003   
> **<http://www.ikar.udm.ru/sb/sb28-1-5.htm>**  
>   
> Activated liquid (useful links)  
> **<http://ikar.udm.ru/c_n_aw.htm>**  
>   
> **<http://ikar.udm.ru/sb/sb17-4e.htm>**
> - Adaptive treatment method (artificial biofield source in
> medicine);  
>   
> [**http://ikar.udm.ru/sb/sb45-3e.htm**](http://ikar.udm.ru/sb/sb45-3e.htm)
> - Water - a source of biological and electrical energy;  
>   
> [**http://ikar.udm.ru/sb/sb38-4e.htm**](http://ikar.udm.ru/sb/sb38-4e.htm)
> - Non-contact activated infusion solutions as applied to
> prophylaxis of postoperative pancreatitis of oncopatients;  
>   
> [**http://ikar.udm.ru/sb/sb43-3e.htm**](http://ikar.udm.ru/sb/sb43-3e.htm)
> - The Treating of Patients in U.S.A. using Anolyte, Catholyte
> and Non-Contact Activated Liquid (NAL);  
>   
> [**http://ikar.udm.ru/sb/sb46-1e.htm**](http://ikar.udm.ru/sb/sb46-1e.htm)
> - Open seminar professor Ashot Khachatryan in Singapore;  
>   
> [**http://www.ikar.udm.ru/pr-1.htm**](http://www.ikar.udm.ru/pr-1.htm)
> - Non-contact activation of liquids (infusion solutions and
> drugs, drinks, tea, coffee, drinking water, including tubs,
> swimming pools, an intensification of biotechnology, the
> extension of the deadline life);  
>   
> [**http://ikar.udm.ru/sb/sb43-1e.htm**](http://ikar.udm.ru/sb/sb43-1e.htm)
> - High quality water production: analysis and perspective;  
>   
> Hi-tech from Russia - Download video: water\_rtv\_090406 -
> Excerpts from the TV program "The great secret of water"
> (www.rutv.ru, 09/04/2006);   
> [**http://ikar.udm.ru/files/video/tv\_080210\_ru.mp4**](http://ikar.udm.ru/files/video/tv_080210_ru.mp4)-- Udmurtiya pure water (43 Mb) ;   
>   
> [**http://ikar.udm.ru/files/video/levit\_ikar.mp4**](http://ikar.udm.ru/files/video/levit_ikar.mp4)
> - Levitation - is simply (0,7 Mb);  
>   
> [**http://ikar.udm.ru/files/video/cluster\_ikar.mp4**](http://ikar.udm.ru/files/video/cluster_ikar.mp4)
> - Solitary vortices - clusters of activated water (0,2 Mb);   
>   
> [**http://ikar.udm.ru/files/video/ikar\_activ.mp4**](http://ikar.udm.ru/files/video/ikar_activ.mp4)
> - Activation of water (16 Mb);   
>   
> [**http://ikar.udm.ru/files/zip/rusnano\_08.zip**](http://ikar.udm.ru/files/zip/rusnano_08.zip)
> - Presentation Icare "on the International forum on
> nanotechnology, Moscow, 3.12.2008-5.12.2008 (~40 Mb);  
>   
> [**http://ikar.udm.ru/i-si-04\_uni.htm**](http://ikar.udm.ru/i-si-04_uni.htm)
> - Universal Device for contact and non-contact activation of
> liquids (won prestigious international awards - gold,
> Switzerland).  
>   
>
>
> ---
>
>    
> **"IIS-RT"-1999. Collection # 15-12**
>
> **Noncontact electrochemical water
> activation experiments**
>
> **V.G. Shironosov, ?.V. Shironosov**  
> Scientific Research Center "IKAR", www.ikar.udm.ru,
> svg@uni.udm.ru  
> Scientific Research Center "Resonant Technologies" Udmurt State
> University, http://v4.udsu.ru/science/untsrt  
>   
> The II International Symposium "Electrochemical Activation (ECA)
> in medicine, agriculture economy, industry".  
> ?.: October 28-29 1999, p.68.  
>   
> Results of the water ECA experiments are given. Simple model,
> explains the noncontact activation, are suggested.
> Electrochemical activation, theoretical physics.  
>   
> ---- The noncontact electrochemical water activation phenomenon
> (CAW) was theoreticaly predicted in 1992 on the base of
> substantial field physical theory by I.L. Gerlovin [1].
> Noncontact ECA experimental results was published by V. Bahir in
> 1992 [2].  
>   
> ---- Hermetically sealed thin-walled capacitys (ampoules or
> capsules), or a polyvinyl chloride tube (PVC, diameter - 3 mm,
> thickness of the wall - 1 mm) with physiological solution was
> placed to the work chambers of (anodic or cathodic)
> electrochemical diaphragmal activator. As a rule, **activation
> of the ampoules was conducted for 30 minutes** by switched
> on current or by current switched off immediately before placing
> of the capacitys with physiological solution to ECA mediums.  
>   
> ---- After 30 minutes of noncontact activation results to the
> solutions in the ampoules was [3]:  
>   
> **Table.**  
> Parameters    Initial  
> physical sol.    Anolyte  
>  Catholyte    D LA C:off  
> D LA C:on     D GA C:off  
> D GA C:on     D FA C:off  
> D FA C:on     D LC C:off  
> D LC C:on     D GC C:off  
> D GC C:on     D FC C:off  
> D FC C:on  
> ??    6.7+/-0.2    1.1  
>  11.5    -0.8+/-0.1  
> -1.3+/-0.1    -0.2+/-0.1  
> -0.5+/-0.1    0.1+/-0.2  
> 0.2+/-0.15    0.5+/-0.2  
> 0.8+/-0.2    0.2+/-0.15  
> 0.4+/-0.2    -0.4+/-0.1  
> -0.2+/-0.1  
> ORP, ??    260+/-5  
>  1135+/-15    -845+/-5    110+/-10  
> 150+/-7    31+/-8  
> 30+/-5    -80+/-5  
> -130+/-4    -490+/-7  
> -560+/-10    -280+/-5  
> -370+/-6    23+/-7  
> 30+/-10  
>   
> ---- where, D LA current:off = ??(ORP)la C:off-??(ORP)initial
> ph. sol.; L,G,F - matherial of the ampoule (lavsan, glass,
> fluoroplastic); ? - anolyte activation, C - catholyte
> activation, C:off(on) - activation by current swithed on(off)
> immediately before placing the capacities with physiological
> solution to ECA mediums.  
>   
> ---- In that way, after exposition of hermetical ampoules with
> the physiological solution in anolyte or in catholyte, the
> results ?? and ORP of physiological solution was materially
> changed; it could be regarded as displaying of the noncontact
> ECA. The effect is the same when the electrolizer is switched on
> or when it is switched off. Anolyte and catholyte are influence
> on the physiological solution though the glass, lavsan and
> fluoroplastic. By that, the direction of the pH and ORP changes
> corresponds (for the glass and lavsan) to sign of
> electrochemical processing (anodic or cathodic) and inverts for
> the fluoroplastic. In 2 hours after ECA, the pH and ORP results
> are relaxing; it is the evidence of electrolize stable products
> unpenetration into hermetically sealed thin-walled capacities.
> Therefore, **noncontact ECA passes on an energetic level
> without any attendant transport (mass exchange) of ions**
> through the ampoules wall[3].  
>   
> ---- We conducted complementary experiments for elucidation of
> the noncontact activation phemomenon nature.  
>   
> Experiment 1: Hermetically sealed thin-walled polyethylene
> packets (thickness of the pellicle ~0.1 mm) with distilled water
> placed into a work cathodic chamber of the electrochemical
> activator "Espero-1". Activation was conducted with a diaphragm
> and without it for 30 minutes by switched on current. The
> results are in the table 1.  
>   
> **Table 1.**Parameters    Initial distilled
> water    medium  
> cathod with diaphragm    cathod medium without
> diaphragm    Dpacket with diaphragm  
>  Dpacket without diaphragm  
> ??    7.2+/-0.2    10.7  
>  7.6    -0.4+/-0.2    -0.4+/-0.2  
> ORP, ??    264+/-5  
>  -873+/-5    -460+/-5  
>  -364+/-20    -384+/-20  
>   
> ----where, D pac with diaph.=??(ORP)pac. without
> diaph.-??(ORP)init. dist. water  
>   
> Experiment 2: Hermetically sealed thin-walled polyethylene
> packets (thickness of the pellicle ~0.1 mm) with distilled water
> placed into cylindrical food aluminium and plastic capacitys
> (dalum14=14 sm, dplast14=14 sm), filled with catholyte.
> Catholyte (??=13.5, ORP = -950 ??) was received on the
> "Emerald-Si" unit. Activation was conducted for 30 minutes in
> fresh-made solutions. The results are in the table 2.  
>   
> **Table 2.**Parameters    Init. dist. water  
>  D alum14    D alum+polyeth14  
>  D alum+tefl14    D alum14+plast  
>  D plast14    D plast+foil14  
> ??    7.5+/-0.2  
>  -0.3+/-0.2    0+/-0.2  
>  -0.8+/-0.3    -0.4+/-0.3  
>  -0.4+/-0.3    0.3+/-0.3  
> ORP,??    289+/-3  
>  -749+/-10    -245+/-10  
>  -301+/-10    -175+/-10  
>  -165+/-15    -280+/-15  
>   
> ---- where, D ? =??(ORP)?-??(ORP)init. dist. water,
> alum+polyeth14 -catholyte was filled into a thin polyethylene
> packet (~0.1mm), wich was close-adjoined to aluminium capacity
> walls, alum+tefl14 - aluminium capacity with a thin-walled
> teflon cover, alum14+plast - catholyte was filled into a plastic
> capacity (thickness of the wals ~2 mm) and placed into an
> aluminium capacity-alum14, plast+foil14 - the thin aluminium
> foil was close-adjoined to the plastic capacity walls.  
>   
> Experiment 3: Dielectrical vessels with anolyte and catholyte( V
> = 100 ml.), were prepared on the "Emerald-Si" unit by Va=Vk =5
> l/hour, placed into micro wave field (? = 1 ???, n=2.4 ???) for
> 1 minute, after that its parameters were measured. Measuring of
> the parameters and heating of the anolyte and catholyte was
> simultaneously conducted for 1-2 minutes in the water bath. The
> results are in the table 3.  
>   
> **Table 3.**Parameters    Initial solutions  
>  Micro waves    Heating  
> anolyte    catholyte  
>  anolyte    catholyte  
>  anolyte    catholyte  
> ??    3.9    12.4  
>  3.0    13.1  
>  2.7    13.0  
> ORP,??    1108+/-10  
>  -960+/-10    1093+/-10  
>  -253+/-10    1085+/-10    -928+/-5  
> ?, degree ?    22+/-0.1  
>  22+/-0.1    50+/-2  
>  50+/-2    50+/-2    50+/-2  
>   
> The experiments permit to draw some conclusions:  
>   
> The noncontact electrochemical water activation are to be
> observed by small thickness of dielectric partition (mm and
> less) and depends from a material of the partition; by that,
> CAW, in anodic and cathodic chambers, has a different sign of D
> ORP (table) for the same material partition;  
>   
> CAW takes place as for ECA water with diaphragm as for ECA water
> without it (table 1);  
>   
> DORP increases by activation in a metal capacity, or in a metal
> capacity with a thin nonconductive dielectrical cover (table 2)  
>   
> Nonthermal influence effect of microwave field to the catholyte
> (sharp decreasing of ORP table 3).   
>   
> ---- Anomal properties 1-3 phenomenon of noncontact
> electrochemical activation can be simply explained by origin of
> high energetics steady resonance systems from oscillating water
> difields, - (two and more) near the anode and cathode [4-7]. In
> statics such systems from difields are not steady (collaps
> effect), in dynamics, by resonance, a dynamics stabilisation
> unsteady condition effect displays though [5-7]. Variable
> electromagnetic field from two synchronously-oscillating
> difields (SAD) [6] has a narrow frequency spectrum (resonance
> effect and decrease ~ 1/r6. Maximum of the spectrum, possibly,
> belong to microwave diapason, because, for ??- typical
> frequencies of rotation transitions ~2 ??? (length of a wave l?
> =18 sm). Therefore, **contactless activation can to be origin
> only from thin walls**, close by SAD, and depend from
> spectral properties of material-partition. Amplification of CAW
> in metal cylindrical form capacities can be explained by
> amplification of active microwave field by means of reflection
> from the conducting surfaces (microwave resonator effect). It
> should be expect amplification of CAW by the sizes of capacityes
> ~l ?, l ?/2.  
>   
> **Literature**  
> Gerlovin I.L. The base of the united theory of all interaction
> in a matter .-SP.; Energoatom Publication 1990  
>   
> Bahir V.?. Electrochemical activation. -?.; ARSRIMT, v.1, 1992.
> p. 197-204.  
>   
> Prilucky V.I., Bahir V.?. Electrochemical activated water:
> Anomal properties, mechanism of biological action.- ?.; ARSRIMT
> JS Scientific Production Unity "Ecran". 1997. -p. 228.  
>   
> Shironosov V.G. Physical base of resonance activation of water,
> p. 220-221, The I International Symposium "Electrochemical
> activation in, medicine, agriculture economy, industry ",
> collection of the articles -M; ARSRIMT JS Scientific Production
> Unity "Ecran". 1997. - p. 248. http://ikar.udm.ru/sb/sb1-2e.htm  
>   
> Shironosov V.G. About the steady in unsteadness conditions,
> bifurcation, chaos of the nonlinear dynamics systems. SA
> USSR,1990, v. 314, N 2, p. 316-320.
> http://ikar.udm.ru/sb/sb22e.htm  
>   
> Shironosov V.G. An addition of two magnetic difields with the
> due regard of spin motion equations. Sel. Physics, 1985, N 7, p.
> 74-78. http://ikar.udm.ru/sb/sb22e.htm  
>   
> Shironosov V.G. Fireball's physical nature. In collection
> thesises of articles IV Russian university academical scientific
> practical conferention Izhevsk: publucation of Udmurt state
> university, 1999, v.7, p. 55-58.
> http://ikar.udm.ru/sb/sb15-9e.htm  
>   
>
>
> ---
>
>   
> **"IIS-RT"-1997. Collection ?1-2**
>
> **Physical Basics of Water Resonance
> Activation.**
>
> **Shironosov V.G. svg@uni.udm.ru**  
> First International Symposium "ElectroChemical Activation in
> Medicine, Agriculture, Industrial"  
> The collection of the reports M.: 1997, p 220 (in Russian)  
>   
> Discussing questions about water activation on level of
> molecular structure.  
>   
> Proposing to use water activation by short wave resonance
> irradiation.  
>   
> ---- Simplicity of production and storage relatively harmless
> action on living organism activated water produced by technology
> of electrochemical activation (ECA) provided its wide use in
> different spheres and technologies.  
>   
> ---- Water activation in general is conducted with adding
> diluted solution of salt. During process of flowing through
> anode chamber in ECA every microvolumetic salt solution comes
> into contact with surface of anode, where appears in high
> intensity electric field. As a result, solution exposed to
> strong electron - acceptor influence and inside of the solution
> synthesize active substances which acts like strong oxidants.
> Most parts of those compounds cannot exist outside of water in
> another state of aggregation. In this matter anolyte is unique
> in its chemical composition. Also, in this solution guarantees
> absence of dioxins or any xenobiotics which create risk of
> contamination to environment.  
>   
> ---- Physics of this process is complicated, but it's easy in
> general to understand. Flowing through reactor activated water
> obtained features of "Mazera" - systems highly active ions,
> molecules "microgenerators". Water activated by resonance short
> wave frequency (SWF) - electromagnetic radiation acquires
> characteristics close to ECA activation [1]. In some way
> molecules of activated water based on clinic experiment of their
> use of our hospital center [2], - It's something like a
> miniature version of SWF generators ("Kremlin Pills"), which by
> flowing through a living organism causes its "restoration" -
> healing by resonance field. That is why even a small amount of
> these substances soluted in that water will cause effects
> (effect close to homoeopathy).  
>   
> ----According to this experiment it becomes extremely important
> to learn the spectrum of emission and absorption of liquid
> atmospheres which were activated by ECA and using internally,
> because of **clinical experiment of using SWF devices were
> found to have not only positive influences by electromagnetic
> vibrations, but also negative influences at certain
> frequencies. That is why additional activation of liquids by
> short wave resonance radiation on certain frequencies may
> substantially increase its healing abilities.**  
>   
> Smith C.W. Millimeter wavelength coherence phenomena in water,
> ?. 210; Lashenko A.K., Lileev A.C., Zaseskij A.J. Dielectric
> properties of electrolytes solutions and mechanisms of an
> absorption of electromagnetic irradiation by water systems in a
> microwave and EHF ranges, p. 226, Tenth Russian Symposium
> "Millimeter waves in medicine and biology" The collection of the
> reports (M.: RAS, - 1995, p 260) (in Russian)  
>   
> Ilinskij I.C. KVH-THERAPY in a combination with air- and water
> treatment for the patients with illness of a stomach.  
> Tenth Russian Symposium "Millimeter waves in medicine and
> biology" The collection of the reports (M.: RAS, - 1995, p 260)
> (in Russian)   
>   
>
>
> ---
>
>   
> **"IIS-RT"- 2007. Collection ? 17-4**
>
> **The method of adaptive treatment.
> Artificial source bio medicine**  
>   
> **Boris Ivanovic Kiselev**
>
>   
> Director-General AOZT 1990-1997  
> **<http://www.aquamed.spb.ru/index.html>**  
> tel.+7 (812) 387-4801, mob. +7-905-213-6630St. Petersburg,
> Russia 196070, Moskovsky Prospekt, Build 161, Room 70,
> ipcitus@mail.ru ipcitus@mail.ru  
>   
> The article, in a very short and concise way, describes the
> major discovery of great importance to human civilization, for
> the first time it is proved that the so-called "bio" is not the
> prerogative of living objects. This discovery provides, firstly,
> a complete theory of the fundamental fields, secondly, to take a
> fresh look at the origin of life on earth and, finally, thirdly,
> a new direction in medicine, is fundamentally different from all
> known and allow for the two main principles of treatment;  
>   
> harmless;  
>   
> treat the patient, not the disease.  
>   
> shown to a new method based on the eight-practice patients a
> wide range of diseases.  
>   
> **METHOD OF ADAPTIVE TREATMENT**  
> St. Petersburg city 1993-1997 ISSUE 1  
>   
> Say immediately : it further goes on regular panacea, and will
> be shown one possibility - a new approach to patient management.  
>   
> Purpose of this study is on the one hand, the formulation of the
> new directions in alternative medicine, in which treatment of
> the patient is fundamentally different from all known methods of
> eastern European or mainstream medicine, and the other is to
> show practical achievements in the proposed area for treatment
> in the last eight years.  
>   
> The basis for this new direction and establishes the following
> assumptions :  
>   
> diagnosis and treatment choices priority (with several diseases)
> should be made by the patient's body;  
>   
> according to their reserves resistance, the body shall mobilize
> the patient choices and creating their own funds to deal with a
> disease;  
>   
> command key, in which the body begins to work this way, should
> be a matter to a neutral body itself.  
>   
> Easy to suggest that the implementation of these assumptions can
> :  
>   
> any possible medical errors, but also be able to treat diseases
> such that the early stages are not diagnosed, such as IBS;  
>   
> the possibility of complications and side effects, and the
> complete absence of contraindications;  
>   
> change the role of the attending physician.  
>   
> Obviously, the medical institute's approach to treatment is not
> to teach. Therefore, asking for the opinion of modern medical
> technique, even with higher ranking doctors is useless.  
>   
> Technology to the key had been tested in Pokrovskaya Hospital C
> - Petersburg, from which the author received a certificate in
> 1990. The principle of this technology was handling the
> electromagnetic field vials isotonic sodium chloride solution
> method intact. In other words, the chemical composition of the
> solution in the processing has not been changed. The following
> experiments were conducted at the outset IN VITRO to ensure
> objectivity, then at the Institute of Animal Physiology of
> Pavlova.  
>   
> Photographs were produced using Kirlian photography, aura images
> of drops of fresh blood conventional arrive, and arrive,
> processed image technique (see photo No.1-3).  
>    
>
> **Photo 1     Photo 2
>     Photo 3**
>
> ![](f1-3.jpg)
>
> On the right plain broth, in the middle-treated, and the
> left-Aura drops of fresh blood. From comparison of images clear
> that the aura of processed box "dead" arrive the same aura
> living blood.  
>   
> This is the first time shown that the method can artificially
> and physically force an inanimate object (water) for a limited
> time, a media bio. In other words, created an artificial source
> of bio (IIBP), as opposed to natural-life source.  
>   
> In the early twentieth century, Academician Vernadsky V. I. has
> the idea of a global theory, which would have unified laws to
> animate and inanimate nature. This is the future of the unity of
> live and dead he called noosphere. In theory, no par. It is
> expected that it will be the most important theory of
> civilization on Earth. Currently, a critical step in
> establishing the theory of undefined methodological framework
> for future theory, and viable paradigm for developing systems.
> In this paradigm contains the basic requirements for any viable
> and growing system in animate and inanimate nature and the
> systems that characterize the viability of all civilization on
> Earth. This law is far from par, but the conditions laid down in
> the paradigm must enter in theory noosphere.  
>   
> One theory is Fundamental Fields (TFP), the foundation of the
> theory of soils, a paradigm based on a viable and developing
> systems. Average combines all forms of interaction in the matter
> : the strong, weak, electromagnetic and gravitational - the main
> concept of TFP-laminate space. All the contradictions within
> existing disparate theories Spacetime time substance, and among
> addressed through TFP. However, the current hypothesis in
> biology, biophysics, and the hypothesis of the bio, ie special
> fields supposedly inherent only living system, a barrier between
> the known fields in biophysics and this particular field of
> living systems. We show that in fact there is no such barrier.  
>   
> In this work, experimentally it has shown that the special
> effects of water or aqueous solutions known in physics fields,
> in the water or in aqueous solution, and there may exist some
> time secondary stimulated radiation in connection with the
> collapse of large water clusters with small numbers game small
> (electrically active) clusters with large numbers game. These
> small dipole, chaotically moving, a very low radiation of
> Incoherent chaotic spatial polarization. Since water is a major
> component of living systems, it is what field biologists called
> bio.  
>   
> Random clusters of water in a living system comes from the
> special internal chemical mechanism changes (in a person that
> ATF) clusters. If this mechanism did not exist, the cells would
> not be able to assimilate micro-clustered water. Thus,
> stimulated emission of living systems (bio) is certainly a
> necessary accompaniment of the metabolism of cells of these
> systems, ie making large clusters of small external water.  
>   
> On the magnetic radiospectrometer RE-1306, working Effect
> paramagnetic resonance with hydrophilic probes measured changes
> in the rotational mobility of ions in the cell water, as
> compared to natural water. Owners resonance lies in the range of
> 15-25 Hz. And the probe shows the rotational mikrovyazkosti
> decrease by 20-30%. As the frequency of the radiation is very
> low, and a living object is small compared to the wavelength of
> radiation, the actual field measurements near the site is always
> in short zone. Thus, the living organism as the laser is the sum
> of noncoherent point emitters with chaotic in a very low
> polarization range. Thus, it can be an important conclusion,
> namely : bio measuring devices must be physically in a
> multi-anechoic chamber for the suppression of external
> interference in the very low range of 120 dB. Such cells, in the
> author's opinion, in the territory of Russia is not. This is a
> very expensive camera. It should now understand. With
> measurements must be conducted by an electric dipole, and with
> high sensitivity magnetic antennas, ie parametric antennas with
> lasers, which can provide high sensitivity measurements.  
>   
> Another problem, which is transport, water molecules are
> resonant absorbent of proteins. Dipole number is in the tens of
> thousands-tens, and the natural water these numbers are mainly
> based on the number of Debye. Thus, mono-structurized water
> molecules is essential for effective synthesis and protein
> breakdown.  
>   
> To determine the impact of protein, a biological experiment on
> the effectiveness of the drug on blood cells IN VITRO. This two
> similar tubes filled the same number of the same blood. Then one
> of them introduced normal arrive at 1 / 15 of the blood, and
> another at the same level arrive treated field. Of the two
> bottles sampled at the electron microscope.   
>   
> After exposure to images submitted (photo No. 4-5).  
>   
>
> **Photo 4     Photo 5**
>
> ![](f4-5.jpg)
>
> On the left image visible blood cells with proteins
> conglomerate, and the right-treated cells of the protein.  
>   
>
> **Photo 6     Photo 7
>     Photo 8     Photo 9**  
>   
> ![](f6-9.jpg)
>
>   
> Photo No. 6-9 shows the effects on the blood cells of the same
> blood IN VITRO various fields of the above methods. Photo No.
> 6-picture baseline erythrocyte (seen large blocks of waxy
> erythrocyte). At photo No. 7 after exposure to copyright
> methodology (see disintegration of large blocks into smaller).
> Pic No. 8-effects of ultraviolet radiation (visible
> disintegration of larger units than the photo No. 7). Photo No.
> 9-effects on erythrocyte (still large blocks, within which is
> scheduled to break small). Thus, you can make two important
> conclusions :  
>   
>  objectively proved that the effect on blood broth, this is the
> electromagnetic field, there really was;  
>   
>  effects on erythrocyte fields of copyright way more favourable
> than in other fields.  
>   
> **Impact on Plant (photo No. 10 : Left-treated water on the
> news. how, right-normal). The impact on the bread (photo No.
> 11) (a week) : right-treated water on copyright technique
> left-usual.**  
>   
>
> **Photo 10     Photo 11**  
>   
> ![](f10-11.jpg)
>
>   
> Check impact of the animals arrive at conducted to verify the
> absence of a negative effect on the kidneys and liver.  
>   
> After such checks in the cardiology division Pokrovskaya
> Hospital on 30 IBS patients were treated in the drug compared
> with a control group.   
>   
> Treatment proposed method has significant advantages over UFO
> blood and other traditional methods. In preparation cardiac
> surgery intensive care department applied for the septic
> endocarditis, when antibiotics did not work. It also found that
> the drug was triggered automatically as gipokoagulyant and how
> giperkoagulyant and as analgetik.  
>   
> The same "product", also with a double placebo was tested at the
> Department of Infectious Diseases GIDUV in treating hepatitis B
> and AIDS. The result was positive and published in the Medical
> Gazette (No. 19, 1993). Comparison with azidotimedinom AIDS
> treatment showed a significant advantage copyright method. One
> of the patients monitored so far, and he periodically receives
> treatment (from 1991). The result is shown on the chart   
>   
> Zashtrihovannoy area on the chart marked points of treatment. In
> December 1991 T4 lymphocytes were measuring 300, in September
> 1996 T4 lymphocytes reached 1026.  
>   
> The Department Pediatric Gastroenterology GIDUVa treated group
> of children with various diseases, including goiter and golden
> Staphylococcus. A report the department. After treatment was
> positive.  
>   
> Also been treating **compression fractures and scoliosis
> (stages 1-2)** in children aged 12 to 14 years (16). Output
> 2 -3 positive course of treatment-recovery (time-treatment of
> four months to a year). Confirmed rentgenologicheski and
> photographs (Photo No. 12-13). Recovery Time-2 months.  
>   
>
> **Photo 12 (before)   
>  Photo 13 (after)**  
>   
> ![](f12-13.jpg)  
>   
> **Photo 14 (before)     Photo 15 (after)**
>
>   
>
> ![](f14-15.jpg)
>
> There is also a full recovery with the restoration of
> eosinophilic granuloma vertebrae in the spine and Kyummelya
> disease.  
>   
> There are some observations on healing **polycystosis ovaries,
> uterus myoma, welding pipes, eczema and neyrodermita, trophic
> ulcers, parapraktita, Hiss and burns**. Quickly and with
> sustained remission kupiruetsya Hypertensive Stroke. There had
> been cured diffuse kistozno- slipchivogo Arachnoiditis Medio
> basal localization. As observed in the treatment of breast
> tumors overlaid pack, it can be concluded that the man found a
> source of bio anticancer funds directly.  
>   
> **Before Treatment     After Treament**  
> Comparing left photos tumors before and after treatment showed
> that the tumor disintegrated into two parts and has been
> considerably reduced. The photographs show the germination of
> living tissue in the tumor. The experience of breast cancer
> treatment in outpatient settings said that in the early stages,
> but already proposed knife surgery, IIBP can eliminate tumors.
> In a hospital in the intensive care unit was eliminated
> digestive tumor, the patient aged 74 years. It never seen any
> side effects or complications.  
>   
>
> **Photo 16 (before)   
>  Photo 17 (after)**
>
>   
>
> ![](f16-17.jpg)
>
> Photo No. 16-17 demonstrated by the treatment of fatty oily skin
> (youth acne). Results obtained 4 months. Treatment proved
> hypothesis author of the new opportunities the new directions in
> alternative medicine. Thus, IIBP can be characterized as
> polisistemny tsitoprotektivny adaptogencorrector homeostasis.
> The technical name IIBP AKVATSIT--K (cell KISELEVA water).  
>   
> Studies make important statements :  
>   
> **the proposed method can cure any disease** without
> laboratory tests on animals;  
>   
> new directions in alternative medicine actually has principles
> "do no harm" and "must treat the patient, not the disease";  
>   
> the doctor is actually researcher processes in body homeostasis
> Copy, which allows more correct to use other means of treatment
> in case of their own resistance forces is not enough;  
>   
> IIBP bioenergy can make in science;  
>   
> IIBP to better understand and explore the emergence of life on
> Earth;  
>   
> IIBP use in biological sciences and biotechnology could provide
> new results that are unattainable by other methods;  
>   
> IIBP is extremely cheap and environmentally friendly production
> of patients a wide range of diseases;  
>   
> public medicine unprofitable use this tool, as there is no need
> to require huge funding from the state for drugs abroad,
> receiving "commissions" person of companies.  
>   
>
>
> ---
>
>   
>
> **Water - the source of the biological
> and the electrical energy**  
>   
> **Kiselyov Boris Ivanovich**
>
>   
> General Director of JSC AKVAMED, 1990-1997),  
> +7-905-213-6630, v. House. +7 (812) 387-4801, 196070,
> St.-Petersburg, Moskovsky prospect, d.161, kv.70,
> ipcitus@mail.ru;  
> e-mail: ipcitus@mail.ru ipcitus@mail.ru  
>   
> In 1974, I defended a thesis on "The Oscillator Energy SPATIAL
> Feedback".  
>   
> In 1975, HAC rejected my thesis because it was incomplete.  
>   
> I have repeatedly defended this thesis in Vake 5 more times. By
> the then 19 copyright certificates were already issued to me.
> However, in the course of defending my thesis, I realized that
> the reason for rejection was very different and the truth began
> to surface. After a while, I showed a letter to my best friend,
> who suggested that the rejection was because I was considered an
> anti-Soviet.  
>   
> Thesis were rejected.  
>   
> However, the topic was not abandoned and I began to use it in
> medicine.  
>   
> As a result, in 1990, I received the copyright certificate
> number 1827274 for "Method for processing physiological
> solution. Kisseleva BI."  
>   
> In due time, I had perfected the process and received several
> patents. Testing began with the measurement of blood IN VITRO
> prior to the introduction of a nat. solution and treated by my
> usual method.  
>   
> It was found that blood, as an independent body of liquid has an
> opportunity to respond to an "artificial bio-field"  
>   
> Venous blood in the eyes become blood Alogo color, although
> color was dark. The blood of anaemic patients became normal
> haemoglobin rate. Later, in 1993, under the direction of MD SK
> Churin extensive studies were carried out on IN VITRO, and IN
> VIVO. The results were contained in a report submitted to the
> Academic Council approved by the hospital.  
>   
> The primary findings of the work:  
>   
> 1. In the experiment, IN VITRO "Akvatsit-K" (the so-called
> structured I nat. Slurry). Structuring turned ordinary nat.
> solution in cell water and reduced the aggressiveness of
> platelets, to normalize the distribution of calcium inside the
> cell, causing activation of platelets.  
>   
> 2. "AKVATSIT-K" reduces the content of lipid hydroperoxide in
> plasma, indicating a stabilization of cell membranes.  
>   
> 3. There is good portability and lack of side effects course
> "AKVATSIT-K" for all the examined patients and the virtual
> absence of contraindications for this therapy to patients.  
>   
> 4. Under the short course influence of "AKVATSIT-K" as with the
> course AUEFOK, influences on the level of the lipids of the
> blood (cholesterol, HDL and LPNP) as well as blood sugar level
> could not be noted.  
>   
> 5. Towards the end of the course of "AKVATSIT-K", patients with
> hypertension 1,2 st. were observed hypotensive effect.  
>   
> 6. Against the background of the course "AKVATSIT-K", an
> improvement in the indices of ergometric was revealed. Tolerance
> to the physical load increased. However, with the course AUEFOK
> the tolerance to load remained at the same level as before the
> treatment.  
>   
> 7. There are positive developments in the state of blood
> coagulation (prolongation of time recalsification, reducing
> troboplastin-Thrombin activity and prothrombin activity).  
>   
> Taking into account the favorable influence of "AKVATSIT-K" on
> the platelet count and the positive shifts in the clinic against
> the background of an improvement in the state of patients, it is
> possible, with a high portion of probability, to assume that the
> conducted course of "AKVATSIT-K", is connected with its
> influence on the coagulation potential of the blood and the
> processes of the peroxide oxidation of the lipids, which have
> value in atherogenesis.  
>   
> Thus, this processing technique of intact nat. solution and
> methods of measurement of quantitative characteristics of
> changes in energy ions allowed the testing on patients with
> cardiovascular diseases, HIV patients and other diseases.  
>   
> Patients suffering from multiple sclerosis 1-2 Art., Scoliosis,
> Article 1-3. As well as secondary syphilis had been successfully
> treated. Go to the second part of my work, namely, to create**electro-hydrodynamic generator (pat. number 56397
> [CASMITTER]).** **CASMITTER- its name is an abbreviation for "CURRENT
> AMPLIFICATION - STIMULATED BY MOVEMENT OF WATER ALONG
> EMITTER", in other words, strengthening the current stimulated
> by the movement of water along the emitter.**  
>   
> This enhancement of current is **because of clearance across
> the velocity vector of water movement, there is a constant
> force on the protons of water, intensified by its dielectric
> constant by 89 times****. Calculation shows that the amount
> of this force composes value, under specific conditions, tens
> of megatons**. Calculation is carried out for the generator,
> depicted on Fig. 1-4.    
>   
>
> **Fig.1.**  
>   
> ![](sb45-3-1.jpg)  
>   
> **Fig.2.**  
>   
> ![](sb45-3-2.jpg)  
>   
> **Fig.3.**  
>   
> ![](sb45-3-3.jpg)  
>   
> **Fig.4.**  
>   
> ![](sb45-3-4.jpg)
>
>   
> Furthermore, the water (electrolyte H4O) after several cycles of
> circulation increases energy of Brownian motion into tens of
> thousands of times (see Fig. 5, 6 before and after and the
> diagram of the setup in Fig. 7).  
>       
>
> **Fig.5.**  
>   
> ![](sb45-3-5.jpg)  
>   
> **Fig.6.**  
>   
> ![](sb45-3-6.jpg)  
>   
> **Fig.7.**
>
> ![](sb45-3-7.jpg)
>
> In other words, through the sum of a constant force and forces
> of Brownian motion, impacts of a wide spectrum is produced
> throughout the entire length of electrodes. It is possible to
> assume that the lattice of the atom emitters under the influence
> of these forces, will enter into resonance and will drop
> electrons from its shells, which will already possess
> considerably larger energy, than energy of the action of
> protons.  
>   
> Experimentally, such "fast" electrons were found as follow:  
>   
> **A solution was made of saturated KMnO4 (pregnant solution).** **After a few minutes in the generator, the solution
> became completely transparent, and at the bottom of the
> dilators, precipitated brown iron ore were deposited. Iron in
> the periodic table is right at the next location and is
> different from the manganese to one electron at the second
> level. Thus, the penetration of the electron on the second
> level of the manganese atom shows no normal energy of the
> electron.** **It is thus natural to assume that the electron left the
> atom emitter from its resonant power spectrum of proton
> strikes.** **In other words, the amplifier turned dynamo (UPT), which
> has its own source of nuclear energy. It is possible to
> formulate cold hydrogen-nuclear reactor for fast electrons,
> which differs from the existing nuclear fast neutron reactors.** **Therefore, such a generator fuelled electrolyte as an
> alternative to forms of fuel could be a serious competitor for
> all methods to obtain power and energy.**  
>    
> RSC President  
> "Kurchatov Institute"  
> Academician  
>       
> E.P.Velikhov  
>   
> Information  
>   
> The intensive care unit association Inter-Cardio had tested the
> preparation "Akvatsit-K" in postoperative patients with
> infection, instead of antibiotics.  
>   
> The drug showed high efficacy in the treatment of sepsis,
> without the complications and side effects.  
> 05.07.95           
>   
> Professor AB ZORIN  
> Association of Inter-Cardio  
> Hospital Sall-Petrier Department Professor GANDZHBAKA  
> 47 Boulevard Opital  
> 75651 Paris index 13 - FRANCE  
>   
> President Ave KABROL  
> Gen., Secretary etc. TOMA  
> Treasurer Ave PAVI  
>   
> Association of Inter-Cardio  
> Hospital 'COVER  
> 11 Grand Ave, 65, VO  
> St. Petersburg 199026 - Russia  
>   
> President Ave ZORIN A.  
> Gen.. Secretary T. et al BAGRINSKAYA  
> Treasurer Dr. A. SHATALOV  
>    
> In Pokrov Hospital of St. Petersburg and the Institute of
> Physiology. Pavlov, a study on the impact of intact-structured
> isotopic solution of sodium chloride (Akvatsit-K) for the
> biological experiment and clinical (cardiovascular disease,
> ischemic heart disease and hypertension).  
>   
> The experiment was conducted in vitro on the blood of animals
> (IP 14) to determine the SA-binding capacity of the membranes of
> platelets using KHTTS, fluorescent probe for spectrofluorometer.  
>   
> In addition, a study on the blood of animals (? 15) the impact
> of the preparation "Akvatsit-K" for hydroperoxide oxidation of
> blood lipids and given the comparative evaluation of the impact
> with the impact of MSS-blood for the same parameter.  
>   
> Result: Reduction of fluorescence of platelets in the
> experimental group was an average of 32,4% +/- 0,6%, in the
> control group - a decrease by an average of 15,1% +/- 0,27%, that
> in 2,1 times less than in experimental group. The observed
> statistically significant effect of increasing calcium in the
> outer membrane as compared with the control group, which is
> likely to reduce the ability of platelet aggregation after
> exposure to the preparation "Akvatsit-K", ie reduced
> aggressiveness of platelets.  
>   
> Result of hydroperoxide oxidation of lipids in blood plasma
> showed a decrease in average, 0,61 +/- 0,03 to 1 ml of blood
> (control group). Thus, the statistically significant effect of
> reduction in the hydroperoxide oxidation of lipids with working
> of the plasma of the blood in vitro by the preparation of
> "Akvatsit-K" is a favorable factor for the stabilization of cell
> membranes, damage by the activation process of peroxide
> oxidation of lipids.  
>   
> With MSS, there is increase in blood lipid peroxidation, which
> is a destabilizing factor for the "normal" functioning of cell
> membranes.  
>   
> Studies conducted in vitro, showed good progress under the
> influence of "Akvatsit-K" in a state of cellular membranes,
> reducing the extent of lipid peroxidation, "aggressiveness" of
> platelets. One can assume that the changes observed in the
> smooth muscle cells (SMC) vascular wall, which in its
> SA-homeostasis resembles platelets: changes in concentration in
> the sagas + MMC vessels occurs by the same laws and mechanisms.  
>   
> **Clinical part**  
> We examined 27 male patients aged 20 to 62 years. The majority
> of patients were persons of working age (avg. age 48 years). The
> main diagnoses: ischemic heart disease and / or hypertension.
> Angina with CHD corresponded to I-II functional class,
> hypertension of WHO classification in line with I-II stage.  
>   
> The heavier group of patients consisted of 5 persons
> (transferred infarction with the postmyocardial infarction
> angina II- III functional class).  
>   
> All the patients in the group were treated with traditional
> therapy treatment and a course of "Akvatsit-K". The course
> consisted of intravenous drip of 15 ml ampoules of "Akvatsit-K",
> dissolved in 150ml of isotonic solution of sodium chloride over
> 7-10 course of injections daily. No cases was reported of
> clinical deterioration in the current disease or poor tolerance
> of procedure. In patients with normal blood pressure,
> "Akvatsit-K" did not affect its value, while in patients with
> elevated systolic blood pressure, value fell by an average of 15
> +/- 5 mm and the diastolic by 7 +/- 7 mm and remained stable until
> patient was discharged. Influence of "Akvatsit-K" for the
> frequency of attacks of angina pectoris was assessed only on the
> group of severe patients (5 men) with angina strain II-III
> functional class. There was a significant reduction of attacks
> of angina at rest, the easier halting of the stenocardia
> attacks, a sharp (5 times) reduction in the number of
> nitroglycerin tablets to halt attacks during the day, all
> patients managed to reduce the dose of designated nitrate's
> prolonged action of beta blocker and calcium antagonists.  
>   
> Objective criterion for the improvement of the patients served
> as a test of dynamic studies of tolerance to physical activity
> by veloergometry before and after the course "Akvatsit-K".
> Initial power of 75 Watts. Every 3 min. load increased by 25
> Watts. In the overwhelming number of cases, the load terminates
> upon attainment of heart rate 150 beats / min. Improving the
> well-being was noted in 16 out of 20 patients. OBJECTIVE: To
> reduce systolic blood pressure at rest and at the end of the
> load at 20 mm and an increase in the height of the load is not
> less than one degree (25 W), decrease signs of coronary
> insufficiency at the end of the load is not less than 1 mm. ST
> segment depression per kg. It is essential that 6 out of 7
> patients on background therapy were minimal objective signs of
> improvement only on this type of treatment. In addition, the
> improved haemodynamics (increase in heart rate, blood pressure,
> rate of spending reserves myocardium under load). A study of
> influence of "Akvatsit-K" for blood coagulation system, as well
> as indicators of lipid and carbohydrate metabolism (cholesterol,
> sugar). Patients did not receive anticoagulants of direct and
> indirect actions.  
>   
> After the end of the treatment time recalcification of plasma
> extended the average for the group from 162 +/- 11,6 sec. to 235 -
> 139 sec. It decreased the value of thromboplastin-Thrombin
> Activity with 94,5 +/- 1,7 mg% to 238,5 +/- 13,6 mg% (p <0.02),
> the value of prothrombin index decreased from 91,9 +/- 1,7% to 79
> , 9 +/- 1,9 (p <0.01). Distinct tendency to the content of
> fibrinogen in the blood from 274,8 +/- 3,5 mg% to 238,5 +/- 13,6
> mg%, and activation of fibrinolysis, lysis time of clots
> decreased from 314,7 +/- 17,2 min. up to 277,2 +/- 13,9 min.
> Critical reduction in size of prothrombin index and no prolong
> time in recalcification were noted. Fluctuations in prothrombin
> activity before treatment -108-76%, after treatment 100-63%
> (from 27 patients, reduced to 63% were from 3 patients).  
>   
> Table 6 provides comparative data of "Akvatsit-K" for the severe
> group of patients (5) and blood.  
>   
> No side effects of the preparation "Akvatsit-K" was found.
> Observation of clinical application of the patent, see IIS-RT ?
> 17-4, 2000 - Kiselev BI Adaptive method of treatment (an
> artificial source of bio-field in medicine).  6   
>   
>
>
> ---
>
>   
>
> **PATENTS**
>
> **Device for activation of liquids**  
> **KR201020093572**
>
> **Abstract**  
> PURPOSE: The quality of the formed liquid is improved. The
> operation affinity and manipulation affinity of facility are
> enhanced. Provided is the liquid activating device.
> CONSTITUTION: A liquid activating device. With rinse units(1,
> 2). With the constitution unit for the electrical type
> activation. The constitution unit for adding the inorganic
> component and inorganic substance is included. One or a
> plurality of transmitters(5, 6) getting ready the display system
> for controlling the property of the activated liquid is
> included. Liquid activating device. In the entrance of the
> apparatus, one or more transmitters getting ready the display
> system for controlling the property of the liquid is included.  
>   
> **Description**  
> The invention relates to a device according to the preamble of
> claim 1  
>   
> The device can be used for activation of liquids and for the
> preparation of high-quality water, water solutions with
> predetermined mineral compositions and properties can be used.  
>   
> Also for the production of washing, disinfection and germicidal
> solutions can be used.  
>   
> Moreover, the device for reacting liquids in a thermodynamic
> activated non-equilibrium state with resonant micro cluster
> structure can be used.  
>   
> This condition is characterized by increased physical chemical
> activity.  
>   
> It is used for intensification of chemical, biological and
> physical processes.  
>   
> Activated liquids are everywhere used where antiseptics and
> stimulators are used by biological and chemical processes.  
> These include the treatment of seeds for various crops before
> planting and the soil for the purpose of casting weed control.  
>   
> They can also be used to accelerate growth of crops and increase
> their harvest.  
>   
> Also for the treatment of wounds in animals and humans and for
> the treatment and prevention of many diseases, the activated
> device with liquids.  
>   
> There are devices for the activation of liquids by means of
> electrolysis (with and without diaphragm) known (VM Bachir
> Electrochemical activation, M. VNIIIMT, 1992, part 1, 401 pp.).  
>   
> These devices allow fluids with predetermined properties (in
> particular with a certain oxidation-reduction potential = redox
> potential, pH, micro cluster structure) to be produced.  
>   
> However, they also have significant defects.  
>   
> During the preparation of the activated liquids no system for
> monitoring their properties and composition.  
>   
> It is used untreated tap water.  
>   
> In effect, contain activated liquids uncontrollable side
> pollutants.  
>   
> There is a Elektrodenbeschlagung (cathode deposits).  
>   
> This in turn causes an uncontrollable degradation of the
> produced fluids, a deterioration of the electrolytic cell
> operation and frequent refresh.  
>   
> Of the invention, the closest prior art, the means I sumrud SI
> (RU 12 120 U) for the preparation of activated liquids (water,
> anolyte, catholyte, contactless activated liquids).  
>   
> This device contains a purification unit and units for
> electrical activation and addition of mineral elements and
> materials.  
>   
> The major shortcomings of these devices are: the absence of a
> system for the control of the properties and composition of the
> produced fluids, and the formation of cathode deposits
> contaminated activated media (depending on the composition of
> the raw water).  
>   
> The object of the invention is to increase the quality of the
> produced fluids and the operating and ease of installation.  
>   
> This object is achieved by the features of claim 1.  
>   
> The device for activation of liquids comprising components for
> the cleaning, the electrical activation, and the addition of
> mineral elements and substances.  
>   
> It is also additionally provided with one or more transmitters
> with a display system to control the properties of the activated
> liquid.  
>   
> Moreover, this device can be also equipped with one or more
> transmitters with a display system for the control of fluid
> properties at the inlet of the device.  
>   
> They can also be provided with one or more donors with a display
> system for monitoring the temperature of the composition of the
> liquids.  
>   
> In addition, they can also be provided with or
> Flussigkeitserhitzern-cool, with memories and ultrasound
> activators, and with one or a plurality Entkeimungsbaugruppe
> degassers.  
>   
> Which is arranged in front Entkeimungsbaugruppe the cleaning
> unit.  
>   
> The cleaning unit of the device can additionally be provided
> with one or more fine filters.  
>   
> The raw liquid contains different side after cleaning materials
> and gases.  
>   
> These cause fogging of the cathode electrodes with debris and
> contamination of the fluids and the formation of activated
> secondary pollutants (carbonic acid, carbon, etc.).  
>   
> The complete assembly of the device (one or more) sensors with a
> display system for the display of liquid properties and
> composition makes it possible to control the operation of the
> device for the produced fluids.  
>   
> Disturbances and also fogging of the electrodes detected and
> replenished the pads and the filter elements are replaced.  
>   
> The membranes Cartridgen with the mineral elements and
> substances can be exchanged and the feedback systems are being
> implemented to control and automatic transmission.  
>   
> Attaching an additional unit for fine cleaning and degassing
> significantly reduces the cathode deposits.  
>   
> In addition, the operating time of the device is extended
> without refresh, thereby improving the stability and the quality
> of the produced activated liquids.  
>   
> The use of storage (even with heating or cooling) extends the
> functionality of the application possibilities and effectiveness
> of the device considerably without affecting their performance
> is increased.  
>   
> The intensification of activation processes in the range of
> specific temperatures warming is taking place or Cooling of
> fluids during the production of the activated liquid.  
>   
> This is done by means of incorporation of temperature control
> devices in the apparatus.  
>   
> The invention will be explained in detail in the drawings
> schematically illustrated embodiments.  
>   
> Shown are:  
>   
> **Fig 1 shows a device for the activation of liquids with a
> sensor with a display system for the control of the properties
> and the composition of the fluids,**
>
> ![](kr2010009a.jpg)
>
> **Fig 2 shows a device with additional units for
> sterilization, degassing and ultrasonic activation, including
> storage, heaters and coolers for the fluids and filters for
> fine cleaning and** ![](kr2010009b.jpg)
> **Fig 3 shows the scheme of the device for liquid
> activation Izumrud-Sl (Mod 01os).**
>
> ![](kr2010009c.jpg)
>
> As shown in FIG 1 shows, the device for activation of the units
> 1 and 2 liquids for cleaning, a unit 3 for the electrical
> activation (electrical activator) and a unit 4 for the addition
> of mineral elements and substances.  
>   
> This device also includes transmitter 5, 6 and 9 with display
> systems to control the properties of the fluids (activation
> level, pH, redox potential, temperature T,
> Dielektrizitatskennzahl [epsilon], conductivity p, etc.), and
> sensor 7 and 8 with a display system for the control the
> composition of the fluids (mineral elements and substances).  
>   
> Donor 5, 7 and 9 are installed at the output of the device.  
>   
> The encoder 6, and 8 are disposed at the inlet of the device in
> front of the cleaning units.  
>   
> The device can also be equipped with the following components:
> building blocks 10 and 11 for the sterilization of the liquid,
> as Figure 2 shows.  
>   
> Moreover filter 12 for fine cleaning, degasser 13, memory 14 for
> storing the activated liquids, heater 15 and cooler 16 for the
> liquid and one or more activators are available 17.  
>   
> As sensor 5, 6, 7, 8 and 9 having a display system for the
> control of the properties and composition of fluids before and
> after the activation can standard encoder with display systems
> (mineralization, ion composition, materials, activation
> parameters, redox potential, pH, T, epsilon [ ], p) are used.  
>   
> As a filter for fine purification 12 and 13 may as degasser
> standard devices are used on the basis of membrane technology.  
>   
> It is to osmotic membranes, trace, Selektionsund more fiber
> membranes and vacuum and Ultraschallentgaser and combinations
> thereof.  
>   
> The memory 14 may be equipped with a system which maintains a
> constant pressure and a constant temperature.  
>   
> As an example for the realization of the proposed technical
> solution is the device for the activation of liquids Izumrud-Sl
> (Mod. 01 os) as shown in Figure 3.  
>   
> In this device as a display unit for a single donor separate
> assembly 18 is designed on the basis of a double light
> indicator.  
>   
> The device contains additional assemblies and modules for
> operation automation.  
>   
> These include high-pressure relay 19, automatic shutoff valve
> 20, 21 booster pump, low pressure relay 22  
>   
> The memory 14 is equipped with a system for the maintenance of
> constant pressure.  
>   
> The device for activation of fluids works as follows:  
>   
> Come into the Rohflussigkeiten units 1 and 2 for cleaning (Fig.  
> 1).  
>   
> While they flow through the encoder 6 to the display system to
> determine the properties and the sensor 8, with a display system
> for determining the composition of the liquids.  
>   
> After cleaning, the liquids are transported to the electrical
> activator third  
>   
> Here comes into the electrical activation of the liquids.  
>   
> It may be added before or after the electrical activation of the
> assembly 4 certain substances.  
>   
> Due to the stress caused by the electric field (electric
> activation) the modification of the internal structure of the
> water comes into (under normal conditions and in the absence of
> external influences is the water is a mixture of homogeneous
> isotropic Raumclustem polar water molecules and their ambipolar
> radicals).  
>   
> Here, the water is activated with its modified structures both
> in Kathodenais stored in the anode region of electric activator
> dynamically.  
>   
> These modified structures exist for a time and then relax back
> to the unactivated raw water after the activation process is
> completed.  
>   
> The liquids at the exit of the electrical activator 3 can be
> monitored by the sensor 5, 7 and 9 for the determination of the
> properties and the composition of the fluids with each display
> systems.  
>   
> Before cleaning the fluids can be disinfected by the units 10
> and 11 (Figure 2).  
>   
> At the output of the cleaning units, the liquids are
> subsequently purified by filter 12 and additionally treated with
> degasser 13th  
>   
> After the activation and control of the properties of the fluids
> may be transported by means of units 15 and 16 is heated or
> cooled in the memory 14.  
>   
> In the apparatus for fluid-Sl Izumrud activation (Fig. 3) flows
> the liquid (the original tap water) through the first filter of
> the first pre-cleaning unit  
>   
> The first filter (Absetzcartridgefilter) holds the mechanical
> admixtures to-back.  
>   
> The second filter (with active carbon) provides an odor removal
> and removal of the residual chlorine from the water.  
>   
> The third filter (Pressed coal) from organochlorine compounds,
> unpleasant taste and odor.  
>   
> After flowing through the three Vorreinigungsfilter the filtrate
> enters the fine cleaning filter 12 (ruckosmotische membrane).  
>   
> The pore diameter in this membrane is max. 0.0001 [mu] m.  
>   
> Therefore, this membrane can practically only water molecules
> and dissolved oxygen.  
>   
> After the final purification filter the water comes to the
> deaerator 13 (Nachreinigungskohlenfilter from coconut).  
>   
> Then the purified water flows through the encoder 6 for property
> control (activation step) and donor 8 for composition control
> (mineralization conductivity meter).  
>   
> Then it passes into the third electric activator  
>   
> The electrical activator device lsumrud-SI (Mod 01 os) has a
> special design and is constructed from modern materials.  
>   
> He has a resonant power supply.  
>   
> This electrical activator makes it possible to activate the
> water, to sterilize effectively, its structure and redox
> potential in the range of about  
> ~ - (100 .. 25O) mV to improve.  
>   
> In the end, the water has antioxidant properties.  
>   
> If the water continues to Mineralisationsbaueinheit the
> mineralizer 4, flows through, it is saturated with the easily
> digestible for the human organism trace elements Ca <+ +>,
> Mg <+ +>, I <">, Se.  
>   
> Thereafter the activated and mineralized water is conveyed
> through the sensor 5 to determine the characteristics
> (activation step), and the sensor 7 for determining the
> composition (mineralization conductometer).  
>   
> In the storage tank 14, it is then collected and discharged
> through the high pressure valve 19 and a valve.  
>   
> Which is collected in the storage container Antioxydanswasser 14
> under a pressure up to 2.5 bar.  
>   
> If no water is then derived, remains its redox potential
> obtained at least 3 days.  
>   
> The signals from the input sensors 5 and 6 for the control
> characteristic and the output sensors 7 and 8 for the
> composition control can be processed by control units
> (controllers) of the electrical activator, third  
>   
> They provide consumers with the information on the proper
> operation of the device via the display 18 in the form of 3
> double-LEDs.  
>   
> While green and red mean in order a deviation from the norm.  
>   
> The three LEDs indicate the quality of the cleaning, activation,
> and mineralization of activated water.  
>   
> The alarm LED unit in a timely manner to malfunction of the
> electrical activator and exchanged cartridges and refill the
> mineral additives.  
>   
> The high pressure relay 19, the automatic shut-off valve 20, the
> booster pump 21 and the low pressure relay 22 provide the
> continuous automatic operation of the device securely.  
>   
> The prerequisite is that the required pressure in the pipeline
> network and electricity available.  
>   
> Precipitated from the water supply from the mains, it closes the
> check valve 20 from the water outlet of the device, and the
> water in the reservoir is retained.  
>   
> As mineralization donor Typenkonduktometer activation donors
> were used, namely the donor activation level according to the
> Russian Application No. 2007127132 dated 16.07.2007.  
>   
> With comparable characteristics of the electrical activation
> (energy input, output), the known device has ended after 24
> hours of continuous operation, the water activation (ie, the
> improvement of redox potential).  
>   
> The cathodes were misted with cathode deposits.  
>   
> The registered device worked, however, three months later, still
> undisturbed.  
>   
> It should only be remarked that the red LED of the display
> system 18 after these three months reported the required
> replenishment of mineral additives.   
>   
>
>
> ---
>
>    
>
> **WO2009010858**  
> **METHOD FOR RECOGNISING THE CLUSTER STRUCTURE AND THE
> MICROCLUSTERS IN LIQUIDS**
>
>   
> Inventor: SHIRONOSOV VALENTIN GEORGIEVISH [RU]   
>    
> Applicant: SUK DIANA HYUN CHOON [KR]  
> SCIENT RES CT IKAR [RU] (+1)       
> CPC: G01N29/02  
> IPC: G01N29/02       
>   
> The invention relates to a method for recognising the cluster
> structure and the microclusters in liquids with the change in e
> h characteristic values of radiation incident on the liquid.
> According to the invention, the technical achievabililty of the
> method can be improved, the sensitivity increased, the cost of
> the recognition process reduced, the cluster structure and the
> microclusters recognised in deep liquid layers and the dynamic
> range improved, wherein the liquid under investigation is
> subjected to ultrasound radiation, wherein the liquid
> microclusters themselves form highly energetic eddy formations
> of liquid dipoles.  
>   
> **Description**  
> The invention relates to a method for the detection of clusters
> of micro-structure and the cluster of liquids.  
>   
> It can be used for measuring the physico-chemical and biological
> activity of the structured liquids in various applications.  
>   
> To specifically include the detection of characteristics and
> parameters of the biologically active substances (biologically
> active additives), the activated gases and liquids, which are
> located in thermodynamic non-equilibrium state with micro
> cluster structure or have been brought into this state by means
> of substances and fields, for the optimization of process the
> activation of the liquids and the hydrogen energy in real-time.  
>   
> It is a method for the detection (identification and acquisition
> of the properties and parameters) of the structured conductive
> liquids known.  
>   
> This is done by visualizing the structure of water by freezing
> water and photo-taking (Masaru Emoto, Messages from Water:
> secret codes of the ice crystals.  
>   
> M.: OOO publishing "Sophia", 2006. - 96 S., http://www.astarta
> .pp.ru / forum / showthread php.?  
> t = 1065).  
>   
> The main shortcomings of this method are its complexity, inertia
> and conservation, ie Freezing.  
>   
> Only the structure of the upper layer of the liquid is detected.  
>   
> The conditions for the implementation of the method
> significantly affect the measurement results.  
>   
> It is a method for visualizing and exploring the parameters of
> the patterned conductive liquids due to the method of the gas
> discharge visualization (GEV) known.  
>   
> The GEV method is a process tool.  
>   
> It allows to analyze the thin water structures rapidly and to
> take into account the particularities of environmental
> influences (the assessment of structural modifications in the
> liquid phase objects, http://grv.fromru.com/use.html).  
>   
> About the shortcomings of this method is one in which complexity
> of its technical realization.  
>   
> Only the structure of the upper layer of the liquid is detected.  
>   
> The conditions for the implementation of the method
> significantly affect the measurement results.  
>   
> Is technically closest to the proposed method is the method for
> the detection of characteristics and parameters of the patterned
> conductive liquids by means of the visualization
> supraubermolekularen water complexes due to laser interference   
>   
> (Smirnov AN Lapshin VB Balyschev AW Lebedev IM Syrojeschkin AW
> Supraubermolekulare water complexes. "Explored in Russia", p
> 413-421. http://zhurnal.ape.relarn.ru/articles/2004/038.pdf).  
>   
> The liquid to be tested is treated with laser radiation.  
>   
> If supraubermolekulare water complexes (SUEK) is present in the
> liquid, so as a result of this treatment is the amplitude of
> phase modulation of the laser radiation on optical inhomogeneity
> of the extended laser beam passing through the liquid system.  
>   
> Observing and documenting SUEK done using video equipment.  
>   
> The main shortcomings of this method are the complexity of its
> technical implementation, the complexity of the realization of
> the resonance methods of detection when the micro-cluster sizes
> exceed the radiation wavelength, because an optical
> high-frequency range is used.  
>   
> Moreover, the cluster structure is recognized only in the thin
> surface layer of the liquid.  
>   
> The object of the invention to simplify the technical
> feasibility of the process of increasing its sensitivity to
> lower the cost of the acquisition sequence to identify the
> cluster structure and the micro-clusters in deep and liquid
> sections to extend the dynamic range.  
>   
> This object is achieved according to the invention in that after
> the change of the characteristics of the radiation acting on the
> under test liquid, the liquid is treated with ultrasound, and in
> the measurement of the radiation characteristics of the Doppler
> frequency shift is applied.  
>   
> The use of ultrasound as a radiation source shall ensure that: a
> simplification of the process, the reduction of the energy
> intensity of the process, its cheaper, increasing the
> sensitivity and the possibility of three-dimensional mass
> analytical detection of the cluster structure of the liquid due
> to the method of pulse wave Doppler (using Doppler frequency
> shift for the measurements).  
>   
> The use of ultrasound for the detection and visualization of
> various physical education and inhomogeneities in liquids is
> well known.  
>   
> However, it was due to the specific structure and the properties
> of the cluster of micro-liquid to be impossible to realize such
> structures by ultrasound.  
>   
> We have demonstrated experimentally and theoretically that it is
> possible.  
>   
> This is due to the fact that the liquid micro-clusters are
> themselves high-energy vortices (high-energy vortical
> formations) from FlussigkeitsdipoSen (di-polar liquid).  
>   
> The Flussigkeitsdipole the resonance microclusters (RM)
> (Resonance micro-clusters (RM)). With dimensions of ~ [lambda]
> of ultrasound in liquid and less  
>   
> This allows the resonant micro cluster with the ultrasonic
> radiation are in resonance interaction and dissociate in
> Komponentendipole (composition dipole) and ions.  
>   
> This is also due to the technical simplicity of
> Frequenzumstimmung and the possibility of application of pulse
> wave Doppler ultrasound for.  
>   
> The formation of stable clusters of micro bound dipoles was
> first explained theoretically 1985 (Schironossov VG reports from
> universities, Physics, 1985, Volume 28, Issue 7, pp. 74-78).  
>   
> It was previously unknown to law the formation of stable
> vortical resonance micro-clusters (RM) of two or more resonance
> moderately in push-pull oscillating dipoles (solution of the
> problem "1 / R <3>") established with a rapidly decreasing
> radiation field.  
>   
> The field decreases with the distance from (~ 1 / R <4>).  
>   
> Later (Schironossov VG, EV Schironossov Collected theses, Report
> 2  
> International symposium.  
>   
> Electrochemical activation in medicine, agriculture and
> industry. - M.: VNIIIMT NPO EKRAN, 1999, Part 1, page 66) was
> also tentatively (discovered empirically) the effect of the
> non-contact activation of liquids (KAF) in the electrolysis
> without a diaphragm by means of thin walls.  
>   
> Such non-contact activation of liquids was determined by the
> RM-radiation.  
>   
> The resonant micro clusters of water bound OHDipolen (after
> peroxy type - H2O2 H2O2 ...) cause the formation of
> characterizing radiation in different wavelength ranges
> (mechanisms of action of the electromagnetic waves of low
> intensity to water and water solutions.  
>   
> 22nd International scientific and practical conference "Problems
> of electronics", http://merak.ru/journal20rus.htm).  
>   
> The specific relaxation time of the RM - [tau] RM exceeds by
> several orders of magnitude the [tau] o the usual nonequilibrium
> media (KMR (NMR), ESR, etc.).  
>   
> They can be a few tens of seconds to a few decades.  
>   
> This is confirmed by the results of the tests.  
>   
> Thus, the patterned conductive liquid is a substance which is in
> a thermodynamic non-equilibrium state with a micro cluster
> structure.  
>   
> And this material itself acts as a radiation source.  
>   
> Structured systems (liquids and gases) have their own vortex
> structure (Schironossov VG Physical nature of ball lightning.  
>   
> Collected Theses of reports of the 4thRussian
> scientific-practical conference for universities and academies.  
> Izhevsk: Publisher of Udmurter University, 1999, Part 7, pp.
> 55-58. http://www.ikar.udm.ru/sb15-9.htm).  
>   
> Listens to the action of the substances or fields on completely,
> returns the non-equilibrium structure of the substances back to
> their original state of equilibrium.  
>   
> The method according to the invention is explained in detail
> based on embodiments shown in the drawings.  
> Shown are:  
>   
> **FIG 1-3 schemes the detection of the parameter microclusters
> fluids according the parameters of the ultrasonic measurement
> values.**
>
> ![](wo2009010858a.jpg)  
>   
> ![](wo2009010858b.jpg)
>
> **In Figures 4 to 11 Examples of the generated images
> of the cluster structure for different liquids are shown: FIG****4 0.3% water solution of Na2CO3) contact as enabled in
> the system** **"Izumrud-Sl" (Mod 04s) -
> "http://www.ikar.udm.ru/i-si-04.htm"**
>
> ![](wo2009010855c.jpg)
>
> **FIG 5 ANK (neutral anolyte kathodenbahandelt), won
> in the 'Izumrud-Sl "(Mod 03) -"
> http://www.ikar.udm.ru/i-si-03.htm "**
>
> ![](wo2009010858c.jpg)
>
> **Figure 6 distilled water, contactless enabled in the
> system "Izumrud-Sl"** **(Mod 04s) -
> "http://www.ikar.udm.ru/i-si-04.htm" size of the horizontal
> mark 5 mm;****FIG 7 vodka "Sarapulskaya" contactless enabled by U.S.****Piezostriktionstrahlers (10 W1 24 kHz);****FIG 8 Saueranolyt, won in the 'Izumrud-S "(model 03) in
> Flow Operating anolyte / catholyte 1:1 -
> "http://www.ikar.udm.ru/ isi-03.htm", the size of the
> horizontal mark 5 mm;****FIG 9 catholyte, in the 'Izumrud-Sl "(Mod 03) obtained in
> the flow mode anolyte / catholyte = 1: 1 -"
> http://www.ikar.udm.ru/isi-03.htm, size of the horizontal mark
> 5 mm;**![](wo858-6789.jpg)**Figure 10 distilled water, activated by gaseous fractions
> due to the interaction of AI and HCI solution;****Fig. 11 distilled water, activated by UV radiation.**
>
> ![](wo858-10-11.jpg)
>
> The means for detecting the cluster structure and the
> micro-clusters of liquid (Figure 1) consists of a container 1 to
> be investigated with the (micro-structured and cluster 2
> containing) liquid 3  
>   
> The emitter 4 and the U.S. receiver 5 are arranged either in
> this tank or contact (with the walls of this container FIG 1).  
>   
> The emitter 4 and the U.S. receiver 5 can be used as a single
> component 6 using the Impulsererfassungsmethoden (FIGS. 2 - 3)
> are performed.  
>   
> The container 1 (Fig. 1 - 3) may be a flow-Eindosierbehalter.  
>   
> The procedure for the detection of clusters of micro-structure
> and clusters of liquid consists in the following: The container
> 1 contains structured liquid 3 (Fig. 1 - 3); the radiator 4 and
> the U.S. receiver 5 (Fig. 1) or a unified element 6 ( FIG 2, 3).  
>   
> Everything is placed in the container 1.  
>   
> Here, the radiator 4 and the U.S. receiver are arranged on the
> container walls 6.  
>   
> Due to the interaction between the U.S. and the waves of the
> liquid 3 micro clusters 2 comes into a change in the wave
> parameters.  
>   
> Below are the parameters of the abandoned and the reflected wave
> (amplitude, frequency, phase, delay, when pulse techniques are
> used) measured.  
>   
> Thereby, a signal is formed which represents the parameters and
> the properties of the cluster structure of the liquids.  
>   
> By mathematical processing of the signals of several converters
> (Fig. 3) the display of the cluster structure and the
> micro-clusters of liquid is visualized on a screen.  
>   
> Order to increase the sensitivity and the degree of the method,
> in addition, the dissociation of the cluster pattern is effected
> in the molecular components and ions by the frequency and the
> amplitude of the wave can be retuned U.S..  
>   
> The resolution of various substances in the fluid to be examined
> as well as the treatment of the liquid with different fields
> cause the modification of the cluster structure of this liquid.  
>   
> Acting accordingly using the signal to be detected size.  
>   
> As to be examined structured liquids, such substances can be
> used, which are located in the liquid state, and which have been
> brought into the thermodynamic non-equilibrium state with
> resonance microclusters structure or can be maintained in this
> state, by means of the release of various substances, chemical
> and biochemical reactions, physical processes, heating and
> radiation of various electrical and mechanical generators and
> power sources.  
>   
> These include, for  
>   
> As solutions of chemicals, Mikroclusterund nanoclusters powder
> (Mikrohydrin, Megamin, Sehydrin (Segidrin), activated alumina,
> etc.), the contact or in contactless activated liquids (which
> have been produced by electrolysis with or without a diaphragm,
> with the use of electrical and mechanical generators warming)
> form.  
>   
> The effectiveness of the method is confirmed by examples
> notified of detection of the cluster structure and the
> micro-clusters of different liquids, which are located in
> thermodynamic non-equilibrium state with resonant micro cluster
> structure (4 to 11).  
>   
> The representations of  the cluster structure and the
> micro-clusters of liquid were at modes of Echound Doppler
> signals (the limited to the frame area) in the U.S. Scanner
> "MyLab 15" is generated.  
>   
> The amounts of distilled water were sonicated by ultrasound.  
>   
> It was known in advance that the treatment benefits would not
> cause intense heating of the liquid to be examined (line encoder
> 10.0 MHz).  
>   
> During this treatment, in the usual pattern formation fluids
> were visualized on echo operation, which have been previously
> observed in the prototype using optical methods.  
>   
> When power Doppler operation limited Doppler positive
> developments were visualized by micro-clusters.  
>   
> They had a stable rounded shape and distinct contours.  
>   
> These micro cluster formations had. The form of rings and
> toroids or other stable forms having a diameter of 0.6 to 1, 5
> cm, and moved over the entire volume of liquid USbehandelten  
>   
> It increased the amount and size of the described positive
> Doppler toroids depending extension of the exposure time, the
> frequency selection and the power increase of the search pulses.  
>   
> In addition, the number of toroids produced in specified volume
> of liquid, and their formation rate were influenced by the
> actual state of the activated liquid.  
>   
> The dependence of the amount and from what the articles
> described the characteristics of the U.S. sonicated liquid
> indicates that these micro-clusters (stable long-life education
> and no bogus representations ie, Artefacts).  
>   
> The Doppler representation of the toroidal microclusters are
> actually the velocity of the water particle motion again
> (molecules, clusters and larger clusters) in the predetermined
> point of the room.  
>   
> Thus, under U.S. influence such stable (more than a few seconds)
> existing objects are created in the water, in which the rate of
> molecular motion exceeds the natural level in the base of the
> liquid with not much thermal performance.  
>   
> Thereby achieving the DopplerVerschiebungeni kHz and more.  
>   
>
>
> ---
>
>    
>
> **WO2009010855**   
> **METHOD FOR DETERMINING THE ACTIVITY OF A STRUCTURED LIQUID**
>
>   
> Inventor: SHIRONOSOV VALENTIN GEORGIEVISH // KUZNESOV EVGENIY
> PAVLOVISH  
> Applicant: SUK DIANA HYUN CHOON [KR] // SCIENT RES CT IKAR   
> CPC: G01N37/005       
> IPC: G01N27/416       
>      
> The invention relates to a method for determining the activity
> of a structured liquid, including the measuring of physical
> parameters thereof. The potential difference between the
> electrodes dipped in the liquid is used as a characteristic
> value for measurement, the electrodes being made of materials
> with which the microclusters of the liquid do not interact in
> the same manner, which simplifies the technical construction,
> increases sensitivity, records activity on smaller portions
> reduces the energy intensity and reduces the costs of the
> determination.  
>   
> **Description**  
> The invention relates to a method for determining the activity
> of a structured liquid.  
>   
> The method can be used in various applications, including
> specifically in the detection of characteristics and parameters
> of biologically active substances, as well as activated gases
> and liquids, which are in thermodynamic non-equilibrium state
> with micro cluster structure or have been brought into this
> state by means of the substances, and of fields .  
>   
> It is a method for detecting the characteristics and parameters
> of the liquids by means of visualization of the structured
> conductive supraubermolekularen water complexes due to laser
> interference known (Smirnov AH Lapshin VB Balyschev AW Lebedev
> IM Syrojeschkin AW Supraubermolekulare water complexes.  
>   
> "Explored in Russia", p 413-421.
> http://zhurnal.ape.relarn.ru/articles/2004/038.pdf .  
>   
> The main shortcomings of this method are its complexity and the
> fact that the activity is detected only in the surface layer of
> the liquid, and that due to the application of an optical
> high-frequency range.  
>   
> Is technically closest to the proposed method is a method for
> determining the activity of a structured conductive liquid.  
>   
> Such activity measured using the detection of residual radiation
> from excited water micro-clusters of bound dipoles OHnach the
> peroxy type - H2O2, H2O2 ...  
>   
> (Mechanisms of action of low-intensity electromagnetic waves on
> water and water solutions. 22nd International scientific and
> practical conference "Problems of electronics",
> http://merak.ru/journal20rus.htm).  
>   
> The major shortcoming of this method is that it is necessary to
> use super-sensitive spectral with Mikrowellenund mm areas.  
>   
> This eliminates the possibility of measurement of activity of
> small portions of liquid, which have been subjected to a
> specific way.  
>   
> Other shortcomings include the lack of sensitivity of the
> method, the complexity and costliness of its technical
> realization and insufficient accuracy (for insufficient exposure
> to the inner physical fields on the electrode sensors of
> Mikrowellenund mm ranges through the liquid medium).  
>   
> It is an object of the invention to simplify the technical
> realization of the process, to increase the sensitivity to
> detect the activity of small portions of liquid to reduce the
> energy intensity and to reduce the cost of the detection
> sequence.  
>   
> This object is achieved according to the invention is achieved
> in that the potential difference is used between the immersed in
> the liquid electrodes as to be measured characteristic value,
> wherein the electrodes are made of materials which cooperate
> dissimilar with the micro-clusters of the liquid (Fig. 1).  
>   
> For measuring the parameters of the test liquid special
> electrodes are immersed in the liquid to be tested and measuring
> the potential difference between the electrodes are immersed.  
>   
> Here, the structured liquid to be analyzed is separated by a
> thin wall of the liquid to be tested.  
>   
> Also then, the potential difference of the test liquid to be
> compared with the potential difference of the liquid to be
> examined.  
>   
> The use of potential difference between the immersed in the
> liquid electrodes as being measured characteristic value, while
> the electrodes are made of the the micro clusters of liquid
> different cooperating materials, ensures the simplification of
> the procedure itself, the reduction of the energy intensity of
> the process and its cheapening .  
>   
> This is due to the fact that the micro-clusters of the liquid
> surface with atomic electromagnetic fields of dissimilar
> electrodes cooperate to dissociate in the formation of
> lonenkomponenten Hydratisierungselektronen.  
>   
> As a form at the dissimilar electrode potentials of various
> sizes.  
>   
> The difference between these potentials (EMK) serves just as an
> activity measure of the structured liquid (concentration of
> micro-clusters after the peroxy type, per unit volume).  
>   
> Thus, in detail, one of the electrodes, which dissociates the
> peroxy active are formed from silver, gold, platinum, palladium
> or iron oxide.  
>   
> This is, for example, to determine the activity of the patterned
> conductive liquids from bonded OH dipoles (after the peroxy type
> - H2O2, H2O2, etc).  
>   
> The other electrode, such As the low activity may be carried out
> of iron.  
>   
> The actual appearance of the rapid decomposition of the
> compounds of bonded dipoles on the surface of each electrode was
> as activation (activation) denotes (Altshuller GS, Shapiro RB
> Oxiwasser.  
>   
> "Technology for young people", Issue No. 10, 1958.  
> Pp. 25-27.).  
>   
> The formation of stable clusters of micro bound dipoles was
> explained theoretically 1985 (Schironossov VG reports from
> universities, Physics, 1985, Volume 28, Issue 7, pp. 74-78).  
>   
> It was previously unknown to law the formation of stable
> resonance micro-clusters (RM) of two or more resonance
> moderately in push-pull oscillating dipoles (solution of the
> problem "1 / R <3>") established with a rapidly decreasing
> radiation field.  
>   
> The field decreases with the distance from (~ 1 / R <4>).  
>   
> Later experimentally discovered (empirically) the effect of
> non-contact activation of liquids (KAF) in the electrolysis cell
> without diaphragm through thin walls.  
>   
> Such non-contact activation of liquids was the RM-radiation
> caused Collected (Schironossov VG, EV Schironossov theses of the
> reports of the 2nd International Symposium. Electrochemical
> activation in medicine, agriculture and industry. - M.: VNIIIMT
> NPO EKRAN, 1999, part 1, page 66).  
>   
> The specific relaxation time [tau] of RM RM exceeds by several
> orders of magnitude the [tau] 0 the usual nonequilibrium media
> (KMR (NMR), ESR, etc.).  
>   
> They can be a few tens of seconds or more.  
>   
> This is confirmed by the results of the tests.  
>   
> The activated or by the action of substances or fields to be
> activated is a liquid substance, which is located in a
> thermodynamic non-equilibrium state with a micro-structure and
> the cluster itself, the radiation source.  
>   
> Structured liquids have a specific electromagnetic radiation
> (http://merak.ru/journal20rus.htm,
> http://www.lfbmcongress.spb.ru).  
>   
> Hears the influence of substances, or on fields completely,
> returns the non-equilibrium structure of the substances back to
> their original state of equilibrium, and therefore so does the
> induced emf.  
>   
> The specificity of the method is its high sensitivity to weak
> energy flows and small amounts of soluble substances.  
>   
> This is because the change of the polycrystalline structure of
> the water according to the laws of thermodynamics molecular
> requires much less energy than. The change of the characteristic
> values ??of weak electrolytes  
>   
> The measurement of the potential difference between the immersed
> in the test liquid electrodes, the test fluid is separated from
> the to be tested structured liquid by means of a thin wall,
> makes it possible the influence of the electrodes reduce the
> change process essential to carry out the selective measurements
> by specific spectral characteristics of the walls and the test
> fluid to be used, and the determination of the liquid contact
> and activity without introduction of chemical admixtures make
> the part of the electrodes.  
>   
> The additional measurement of the potential difference between
> the possible in the test liquid immersed electrodes and the
> comparison of this difference with the measured potential
> difference for the examined liquid to the sensitivity, the fault
> tolerance and the accuracy of the device for realization of the
> process and their calibration significantly (by a few orders of
> magnitude increase).  
>   
> **The invention is explained in detail with reference to the
> drawings.****Fig. 1 shows a circuit diagram for measuring the
> potential difference between dissimilar electrodes****Fig 2 shows a circuit diagram for measuring the potential
> difference between the electrodes immersed in the test liquid,
> wherein the test fluid is separated from the liquid to be
> examined, structured by a thin wall,****Fig 3 shows a circuit diagram for measuring the potential
> difference between the immersed in the test liquid and the
> liquid to be examined and electrodes****Fig 4 shows the curves of the type [Delta] [phi] of the
> structured fluid as a function of time during the activation
> process (t <t i) and after (t> t).**  
> The means for implementing the method for determining the
> activity of a structured liquid (Figure 1) consists of a
> container 1 for the liquid to be examined is structured second  
>   
> Two electrodes are arranged in the container 3 and 4 from
> dissimilar materials.  
>   
> The electrodes are connected to potential difference knife 5.  
>   
> The device can a container 6 (Fig. 2) with 7, and the test
> liquid therein electrodes 3 and 4.  
>   
> The test fluid is separated from the container 1 with the
> structured liquid to be examined, 2 by means of a thin wall 8.  
>   
> Moreover, the device can additionally be provided with a
> container 9 (FIG. 3).  
>   
> 9 contains the test liquid, the container 10 and the electrode
> 11 disposed therein and 12  
>   
> Here, the electrodes 3 and 4 as well as 11 and 12, as EMF
> sources serially connected to and connected to the potential
> difference knife 5.  
>   
> The containers can be formed as DurchflussEindosierbehalter.  
>   
> The method for determining the activity of the structured liquid
> consists in the following: The electrodes 3 and 4 in the
> container 1 with the structured liquid 2 (FIG. 1) or in the
> container 6 is introduced with testing liquid 7 (FIG. 2).  
>   
> The test liquid contacted with the liquid to be examined by a
> thin wall 11  
>   
> The electrodes 3 and 4 are made from such materials, which
> interact differently with the micro-clusters of the liquid.  
>   
> Due to the interaction of the liquid with the microclusters
> atomic surface electromagnetic fields of dissimilar electrodes
> their dissociation is carried out in the formation of under
> lonenkomponenten Hydratisierungselektronen.  
>   
> It appears the emf across the electrodes 3 and 4  
>   
> The EMF will be forwarded from the electrodes 3 and 4 (Fig. 1,
> 2) for knife 5.  
>   
> At the output of the blade 5, a signal is generated which
> indicates the concentration and energy of the micro-cluster
> after the peroxy type, per unit volume, is proportional to, and
> which has the activity of the structured liquid 2.  
>   
> The liquid 2 to be examined is introduced into the container 1
> (Fig. 2), and thereby separated from the container 6 with test
> liquid 7 by a thin wall 8 so comes into the non-contact
> activation of the test liquid.  
>   
> Accordingly, the electromotive force appears at the output of
> the electrodes 3 and 4  
>   
> As a thin wall 7, 8 and the test liquid materials having
> different spectral characteristics and properties in relation to
> the radiation transmission can be used.  
>   
> In detail, the thin wall of such materials such as dielectrics,
> conductors, semiconductors, or their combinations are performed.  
>   
> Order to increase the sensitivity and the interference security
> of the device for realization of the proposed method and its
> calibration, in addition, the potential difference between the
> immersed in the test liquid 10 electrodes 11 and 12 (FIG. 3) is
> measured and compared with the potential difference, which in
> the the test liquid was measured second  
>   
> The measurement of the potential difference in liquids and the
> comparison of results can be (in time) either sequentially or
> simultaneously, by means of a serially opposition differential
> circuit of the electrodes as EMF sources (Fig. 3).  
>   
> The resolution of various substances in the fluid to be examined
> as well as the treatment of the liquid with different fields
> cause the change of the liquid type.  
>   
> This has accordingly made on the signal to be detected size.  
>   
> As to be examined structured liquids, such substances can be
> used, which are located in the liquid state, and which have been
> brought into the thermodynamic non-equilibrium state with
> resonance microclusters structure or can be maintained in this
> state, by means of the release of various substances, chemical
> and biochemical reactions, physical processes, a heating, a
> radiation of various electrical and mechanical generators and
> power sources.  
>   
> These include, for  
>   
> As solutions of chemicals Mikroclusterund nanocluster powder
> [Mikrohydrin, Megamin, Sehydrin (Segidrin), activated alumina,
> etc.] and the contact or in contact-activated liquids (which by
> electrolysis with or without diaphragm, using electrical and
> mechanical generators, or by heating were generated).  
>   
> The effectiveness of the process is notified to Examples 1 to 5
> confirms the determination of the activity of various structured
> liquids which are located in thermodynamic non-equilibrium state
> with resonant micro cluster structure.  
>   
> Distilled water was used as the test liquid.  
>   
> As electrodes, which cooperate with the dissimilar micro
> clusters of the liquid, platinum Pt, and stainless steel were
> used.  
>   
> The electrodes were immersed in the liquid to be examined.  
>   
> **Example 1**  
> A method for measuring the activity of the structured liquid -
> water solution of hydrogen peroxide with various concentrations
> HbO2 - has according to the scheme in FIG 1 - [Delta] [Phi] i
> and Figure 3 - [Delta] [Phi] 3 is performed (with counter
> circuit the EMF electrodes).  
>   
> **Table 1**  
> **Example 2**  
> A method for measuring the activity of the structured liquid to
> the circuit diagram of Figure 3 (with counter circuit the EMF
> electrodes).  
>   
> The potential difference [Delta] [Phi] was found between the
> electrodes immersed in the test liquid.  
>   
> The test liquid was separated from the structured liquid to be
> examined with a thin polypropylene wall.  
>   
> Structured as to be examined was the contact-activated liquids
> by electrolysis in distilled water and infusion
> diaphragm-electrolysis apparatus "Izumrud-Sl" (mod 04) used
> "http://www.ikar.udm.ru/i-si-04.htm" .  
>   
> The curves of the activity of the structured liquid [Delta]
> [Phi] versus time during the activation process (t <t), then
> (t> t [iota]) are shown in Figure 4.  
>   
> **Example 3**  
> A method for measuring the activity of the structured liquid to
> the circuit diagram of Figure 3 (with its cascading the EMF
> electrodes).  
>   
> The liquid was obtained by means of exposure from distilled
> water.  
>   
> Types of stress: ultraviolet (UV); gaseous fractions, which were
> obtained by the electrolysis with diaphragm in the anode (A) and
> cathode (K); resolution BAS - Mikrohydrin (M), Upsarin UPSA with
> vitamin C (UUC).  
>   
> As UVStrahlungsquelle the plant for water purification for pools
> UV-C was used with a lamp 35,000 TUV 4P SET5 (40 watt UV-C).  
>   
> For the extraction of gaseous fractions (A), (K), the plant was
> "Izumrud-Sl" (Mod 03) used (http://www.ikar.udm.ru/i-si-03.htm).  
>   
> The results of the activity measurements for structured fluid
> (SF), which were prepared by various methods are listed in Table
> 2.  
>   
> **Table 2**  
> Thus, the method of measuring members of the physico-chemical
> and biological activity of the structured liquids.  
>   
> It can be used in various applications, specifically for the
> detection of characteristics and parameters of the biologically
> active substances, and the activated gas and liquid, which are
> located in thermodynamic non-equilibrium state with micro
> cluster structure or have been brought into this state by means
> of substances and fields.  
>   
> N The use of small electrodes that are placed in various
> locations on the test liquid, makes it the basis of this method
> to visualize the cluster structure of liquids and produce their
> tomograms (EMF-graphy, ADS Tomography).  
>   
>
>
> ---
>
>   
>
> **RU2299859**  
> **DEVICE FOR ACTIVATION OF THE LIQUIDS**
>
>   
> Inventor: SHIRONOSOV VALENTIN GEORGIEVICH, // KURGANOVICH
> VLADIMIR STEPANOVICH       
> Applicant: ZAO NAUCHNO-ISSLEDOVATEL'SKIJ TSENTR "IKAR"
>       
> IPC: C02F1/46       
>   
> FIELD: chemical industry; food industry; medicine; production of
> devices for activation of liquids. ^ SUBSTANCE: the invention is
> pertaining to the devices for activation of liquids, and may be
> used for production of the liquids with the preset properties,
> treatment of the potable water and the mineralized water,
> activation of the infusion and medical solutions, and also the
> blood. The device contains the container for the activated
> liquid and the electrodes, one of which is made hollow. The
> hollow electrode is located inside the container for the liquid
> subjected to the activation and inside it there are the other
> electrodes arranged - one or more. At that the hollow electrode
> is fulfilled either continuous with one or several holes or in
> the form of the net, or is made out of the semi-permeable
> substance.; The device in addition is supplied with the thin
> wall installed on the outside the hollow electrode. The
> technical result of the invention is simplification of the
> design, the improved electrical safety and efficiency of
> treatment of the liquids (the increased efficiency of the
> device) and the extension of the device operational and
> functional capabilities. ^ EFFECT: the invention ensures
> simplification of the device design, the improved its electrical
> safety and efficiency of the liquids treatment, the extended its
> operational and functional capabilities.  
>   
>
>
> ---
>
>   
>
> **RU2316374**  
> **METHOD OF PRODUCTION OF THE SOLID SUBSTANCE FROM THE
> CRYSTALLIZABLE LIQUID**
>
>   
> Inventor: SHIRONOSOV VALENTIN GEORGIEVIC [RU]   
>    
> Applicant: ZAO NITS IKAR [RU]       
>    
> IPC: B01D9/02       
>   
> FIELD: applied physics; applied chemistry; methods of production
> of the solid substances from the different crystallizable
> liquids. ^ SUBSTANCE: the invention is pertaining to the field
> of the applied physics and the applied chemistry and may be used
> for production of the solid substances from the different
> crystallizable liquids. The crystallizable liquid before
> crystallization is exposed to the contact with the other liquid
> activated or being activated by means of electrolysis or at the
> expense of dissolution of the microhydrin. The contact with the
> crystallizable liquid is exercised directly or through the
> intermediate medium, which represents the thin wall, the liquid
> or of their combinations.; The invention allows to simplify the
> production process, to vary the structure of the crystallizable
> substance with the minimal power inputs. ^ EFFECT: the invention
> ensures simplification of the production process, the capability
> to vary the structure of the crystallizable substance at the
> minimal power inputs.  
>   
>
>
> ---
>
>   
>
> **RU2092442**  
> **DEVICE FOR ELECTROCHEMICAL TREATMENT OF LIQUID**
>
> Inventor: SHIRONOSOV VALENTIN GEORGIEVIC [EE]  
> KARIZHSKIJ PAVEL ANATOLEVICH [EE] (+1)       
> Applicant: AKTSIONERNOE OBSHCHESTVO ZAKRY [EE]   
>    
> IPC: C02F1/46  
>   
>
>
> ---