METHOD AND INSTALLATION FOR THE SEPARATION OF POLYMOLECULAR WATER STRUCTURES CONTAINING ALSO BIOLOGICALLY ACTIVE WATER
The present invention is refferringto a method and equipment for the separation of certain polymolecular structures of water from ordinary, purified water which can be of interest in medicine, biology, bioenergetics, electrochemistry and other fields.
Various studies and several hypotheses have been worked out during the last decades on the simple and ccmplex polymolecular structure of water.
A series of experiments showing the existence, within the water structure of dimers, trimers and hexamers as unstable structures are known.
Separation of structurally modified water fractions has also been succesfully carried out by condensing unsaturated water vapours within fine capillaries (Chemical Abstracts 72, 1970, 33434 and 73, 1970, 38666). The changes noted in the modified water, after the separation of one of the components are, however, reversible, reaching the equilibrium state after several days or even weeks.
As a practical need, in various theories on nuclear reactors another hypothesis has also been included according to which the neutron moderating cross-sections in distilled water should be calculated taking into account the ratio between ordinary water and the deuterated, polymolecular water.
At the same time in the available literature no refference is made regarding the existence of certain polymolecular water structures related
to the hydrogen (H, D) as well as oxi gen isotopes (016, 017, 018). The magnetic treatment of water using permanent magnet-based devices, d .c or a.c supplied solenoidal coils or permanent magnetized ferrites is also known. By such a treatment the water mineralization or desalination as well as the ion separation can be achieved. Biologic effects of water lasting short periods of time, such as plant and animal growth stimulation, are also mentioned in the literature (Romanian patents No 76448 and 48221, French patent No 1442804).
The method described according to the present invention enables the separation of certain polymolecular structures of water also containing the biologically active water, in such a way, that passing ordinary water after a preliminary purification stage by simple or multiple distillation steps or after chemical purification through a chain of separation cascades within which the enrichment and separation of hydrated structures from the polymolecular structures of water takes place, using the simultaneous action of a hydrodynamic field of water whose flowing pressures are ranging between 0.1-5 atmospheres depending on the cascade capacity, of two electromagnetif fields of about 10-2500 V whose field vectors are pointing out the separa tion directions, a low power ultrasonic field of a frequency ranging between 1Q0 kHz-1000 kHz which influences the proper dipolar field of water molecules and the gravitational field, a fraction of ordinary modified water called N-water as well as two fractions called A-water and B-water having different polymolecular structures are eventually separated and subsequently subject to the same simultaneous and synergetic action of the same fields as in the first stage but at modified parameters according to the enrichment degree of the respective fractions.
The installation based on the method described according to the present invention is made up of a distillation or chemical separation level consisting of neutral columns, a cascade of identical separators consisting of neutral and hermetically closed vessel s, these being provided with 5 openings, 3 pairs of identical and chemically inert electrodes out of which two pairs with osmotic properties, are connected to two continuous electromagnetic field generators and a third pair is connected to an ultrasonic generator, the internal volume of the separatϊ ng vessel being divided into an upper and a lower level by a chemically inert and electrically active horizontal membrane, the lower level being also divided into two compartments, A and B, by a chemically and electrically inert membrane, but
having also osmotic properties, the separators communicating between them through hermetically closed and chemically neutral pipes, each of these being connected to a collector for the modified, ordinary water, the last one being provided also with two collectors for the polymolecular water fract ions.
In the following an example of the application of the present inven tion is given in connection also with figures No. 1 and 2, which represent:
- fig.1, a scheme of principle of the installation according to the invention;
- fig.2, a general view of the separating level structure.
The installation for the separation of polymolecular structures having biological properties out of ordinary water, consists of a purification level 1 within which the distillation or chemical purification of water takes place, of a cascade of separators 2a, 2b, 2c... structurally identical and representing hermetically closed vessels. Each separator communicates with the collectors, 3a, 3b ... 3n and the last separator 2n is provided with two supplementary, hermetically closed collectors, A and B, for the polymolecular water fractions A and B, respectively.
Each of the 2-series separators is made up of a hermetically closed vessel 4, separated by a chemically inert and electrically act ive membrane into two levels, an upper one, 5, and a lower one, 6. The level 5 is provided with two chemically inert electrodes, 7, connected to an electromagnetic generator which is not represented. In its turn level 6 is divided into two other compartments by a membrane 8. The compartment 6 is provided with a second pair of electrodes, the electrode, 9, being connected to the separating membrane, 1 , and the electrode 10, is connected to the bottom of the vessel 4. The compartment 5 is provided with electrodes 11 for ultrasonic field or high frequency electric field. Vessel 4 is provided with inlets 12, 13, 14 and outlets 15, 16, 17.
Ordinary water showing a proper hydrodynamic field determined by its flowing nature at pressures ranging between 0.1-5 atmospheres, is brought up to the level 1 where distillation or chemical purification occurs. From the purification stage, 1, the water passes through inlet 12, into the upper compartment of the first separating level 2a, where it is simultaneously subject to a continuous electromagnetic field generated by the two electrodes,
7, by applying an internal voltage with values ranging between 10-2500 volts, depending on the capacity of the vessel and an ultrasonic field generated by electrodes 11 by means of an external generator which is not represented, at frequencies ranging between 100-1000 kHz depending on the intensity of the cavitation phenomena which may appear in the vessel. As a result of the synergetic co-operation between the action of various fields used in the installation such as: hydrodynamic, electromagnetic, ultrasonic, gravitational and that of the proper electrical di poles of water molecules a concentration of the polymolecular structures around the electrodes 7 takes place. The action of these fields is amplified by the synergetic and conjugated action of the field generated by the electrodes 9 and 10 as well as by the gravitational field inducing a stratification and a pumping effect on the polymolecular fractions into the lower compartments 6.
As a result of the supplementary pressure produced in compartment 6, with the help of the membrane 8, an osmotic effect is produced by which an additional fractional enrichment of the same type in each of the lower compartments, 6, is obtained. After reaching the first equilibrium of the polymolecular fraction concentrations in the compartments 6, outlets 16 and 17 are opened, releasing their content to the upper compartment of the next level, 2b, in which the process is repeated at the modified parameters of the fields depending on the enrichment level attained in the previous separator.
The modified ordinary water is collected through inlet 15 into the corresponding collector 3a.
After the first water fractions are collected from the separator of the first level 2a, the process continues up to the reaching of the desired concentration and amount of polymolecular structures.
Three water fractions are collected as a result of the separation process:
- a fraction of modified ordinary water, whose properties and chemical structure are similar to those of ordinary water, symbolically called neutral water (N-water) :
- a polymolecular fraction whose pH ranges between 1-5.5,and having the property to inhibit the vital processes within the living biological structures, called antagonistic water (A-water):
- a polymolecular fraction whose pH ranges between 7-9.5,biologically
active, called biological water (B-water); and which has the property of stimulating the vital processes within the living biological structures as well as the property of naturally pulsing, without any apparently external energy supply, also producing chemical oscillators in adequate solutions, these bei ng alternative electrical energy producers (showing alternative plus, minus oscillations).
This last-ment ioned fraction when placed into a magnetic field axially generated by a ring electromagnet shows a modification of its oscillating energy emission and absorption. The cellular bioenergetic cycles as well as the biorhythms of the living structures are deeply influenced by the ratio and concentration of the two fractions of polymolecular water with acid, respectively alkaline pH , which permanently coexist and the enzymatic reactions in the metabolic cycles are in their turn conditioned and determined by the concentration and ratio between the same two polymolecular fractions, on the one side, as well as by the ratio and concentration of these two versus the amount of neutral water contained in a living structure, on the other side.
The main advantage of the present invention consists in evidencing and enabling the separation of certain new polymolecular fractions of water having direct application in the research-of the physical and chemical, biomedical processes, in the synthesis of various biostimul ators, in the pharmaceutical industry for the production of optically active compounds with, similar properties to the natural ones, in the foodstuff industry for producing synthetic foods with features similar to the natural ones, as well as in electrochemistry for producing new combustion cells.