FR2552068A1 - Process and device for the production of a gas complex containing oxions; gas complex obtained. - Google Patents

Abstract

Process for the production of a gas complex containing oxions, characterised in that it consists: - in a first step, in peroxidising terpene compounds; - then, in a second step, in passing the nascent gaseous peroxide obtained into the nascent water vapour; - finally, in a third step, in recovering the products of the action obtained. The invention also relates to a device for the use of this process and the gas complex obtained.

Description

PROCESS AND DEVICE FOR THE PRODUCTION OF A COMPLEX
GASEOUS LOADED WITH OXIONS; GAS COMPLEX OBTAINED.

 The invention relates to a method and a device for the production of a gaseous complex charged with oxions, in particular for aero-ionization and electronegative oxygenation; it also relates to a device for implementing this method.

 As is known, an "oxion" is a negatively charged oxygen atom. This compound is obtained by ionization of the oxygen atom, in particular atomic or nascent oxygen, contained in the air. These compounds are well known. They have been described, for example, in the work of Professor Jacques METADIER entitled "Les Oxions" published in 1983 by ECHG. There is therefore no need to describe them here in detail.

 It has already been proposed to use electronegative ions to negatively ionize the oxygen in the air. The oxions thus produced can be used for different purposes, in particular to improve the pulmonary and / or cellular oxygenation of living beings. As oxygen represents the component of air that is the most negatively ionizable, and practically the only one to be ionizable, most of the literature relates to aeroionization, and therefore to oxions.

 To date, to make such compounds, essentially three methods have been proposed.

 The first consists in using generators with radioactive bodies using isotopes, such as in particular tritium or polonium 210. Due to the radioactivity and the inherent precautions, this method is very limited in its use.

 The second method uses the Lenard effect which, by the shock of molecules, leads to water ions.

However, since the concentrations of negative aero-ions obtained are very low, the effects are practically negligible.

 The third method uses the so-called "peak" or "corona effect" electrical effect. But here, ozone is also produced, which for some applications can be harmful.

 Furthermore, in all of these processes, the existing oxygen in the air is ionized by projection of ions.

As a result, the yield is low and at the very least very limited.

 The invention overcomes these drawbacks. It relates to a process for the production of oxions which is economical, easy to implement and above all makes it possible to obtain high concentrations of oxions, but above all an ionic quality which only oxygen in the "nascent state" possesses.

This process is characterized in that it consists
- firstly, to peroxidize terpenic compounds
- then in a second step, passing the nascent peroxide gas into water vapor
- finally, in a third step, to recover the products obtained.

By "terpenic compounds" is meant a compound or compounds of the chemical family of terpenes in any form, in particular liquid, such as terpenes, diterpenes, triterpenes, sesquiterpenes or polyterpenes. By way of example, mention may be made of lapinene, pinene, camphene, 10 <or t-terpinene, terpinolene, limonene, non Fe, dipentene, sylvestrene, carvestrene,
Fenelève, a 3-Carene, Thuene, Cymene or paramethylisopropylbenzene, Colophene, Colophilene, Diterpilene, Metaterebenthene, Metaaustralene, Dicinene, Para-cajeputene, Bisabolene,
Cadinene, Caparrapene, Caryophyllene, Clovene, Cedren, Humulene, Lédène, patchoulzne,
Phellandrene or any other unsaturated chemical compound oxidizable in contact with air, etc.

 These terpenic compounds can be used alone or as a mixture between them. If advantageously, use is made of pure compounds, it is also possible to use compositions containing an essential part of such compounds, such as for example essential oils. By way of example of such essential oils, mention may be made of that of eucalyptus, amyqdalina, niaouli, pine which are well known for their richness in terpenic compounds.

Advantageously, in practice
- the peroxidation of terpenic compounds takes place
preferably by bubbling a current
air, especially compressed air, if any
oxygen added, in such a com
posed,
either by passing air, in particular pulsed air,
on an element soaked in this compound, such as
for example a felt
either by micronization of terpe compounds-
nics in air (aerosol generated or not
continuously),
- terpenic compounds may contain as oxidants
oxidation catalysts such as by
example of abietate of cobalt, iron or
manganeze,
. aged terebentine essence grading
at least one percent peroxide,
. oxidants such as chlorine, iodine or
fluorine,
- one or more self-oxidizing aldehydes and advantageously an aldehyde with heavy molecules such as for example benzene aldehyde or benzaldehyde or substances containing these aldehydes, such as for example the essential oils of Lemongrass and verbena from India known to contain Citral
- the peroxidation chamber is heated, agitated, vibrated, ozonized, or even subjected to ultra-violet radiation
- the vapor is nascent water vapor;
- the nascent water vapor can be brought from a hot water tank or preferably prepared from a hydrogen flame or another gas, such as town gas, butane or le'propane,
The process according to the invention essentially uses two basic chemical reactions known separately, namely
- peroxidation of terpenic compounds
- the combustion of hydrogen in a flame.

 But here, these two reactions interact with each other to lead to water-soluble and water-soluble terpenic peroxides, mixed with ionized and ionizing hydrogen peroxide and with a mixture of oxions.

The products of this reaction have new and unpredictable properties.

As already said, in a first step, this process consists first of all in a known manner of peroxidizing terpenic compounds, in particular by the action of atmospheric air reinforced or not with oxygen7 in order to obtain one or more peroxides gaseous nascent terpenics. As this reaction is carried out by bubbling, the nascent peroxide produced has nascent oxygen. In the case of turpentine, the peroxidation leads to a terpenic peroxide called camphoric peroxide "which has nascent tetravalent oxygen having electro properties -negative of nascent oxygen, as well as that of an oxygen with several free valences 02 ~ 2, called tetra-oxion with nega-catalytic property according to the reaction

 At the same time, the combustion of hydrogen in a flame leads, as we know, to the formation of incipient ionizing and negatively ionized water vapor. To produce such nascent water vapor, use may also be made of other known means such as, for example, combustion in the town gas flame.

This nascent water vapor is charged with atomic oxions: O
Finally, we know that the action of oxygen on water vapor leads to the formation of oxygenated water. As this oxygenated water is also in the nascent state, it therefore takes the form of an atom d (o-
~ II electronegative divalent xygene called "di-oxion: 2
Thus, at the orifice of the torch, the products of these three reactions interact with each other, at least in part, to lead to a gaseous mixture highly charged with oxions which is thus easy to obtain and to implement safely and without precaution particular.

In other words, the gas mixture produced from the reaction obtained is a complex essentially formed:
- on the one hand, by nascent water-soluble and water-soluble terpenic peroxides, ionized and ionizing, with electro-negative tetravalent nascent oxygen (tetraoxion: 02-2),
- on the other hand, of nascent, ionized and ionizing water vapor, with nascent and electronegative atomic oxygen (atomic oxion
- finally nascent ionized and ionizing oxygenated water with divalent oxygen electro-negative (dioxion:
The mixture of these reaction products is highly charged with oxions and therefore therefore exhibits excellent properties. It can be used in all the processes where ion seeks an oxygenation or a strong negative catalytic or hydroxydasic activity.

The invention also relates to a device for implementing this method. This device is characterized in that it essentially comprises
- a reserve of terpenic compounds comprising a supply orifice for said terpenic compounds, a supply of compressed air, and a conduit intended to collect the terpenic peroxides produced
- an incipient source of water vapor connected to a chamber into which the said duct opens
- A member connected to said chamber to recover the mixture of products thus formed.

Advantageously, in practice
- the reserve of terpenic compounds is a bubbler and the supply is connected to an air compressor
- the incipient source of water vapor is constituted by the chamber of a flame torch connected on the one hand to the conduit of incipient terpenic peroxides and on the other hand, to a supply of combustible gas (hydrogen, town gas ) under pressure
- the organ connected to the torch is a conical diffuser
- the diffuser is extended by a nozzle intended to channel the mixture of the products obtained and according to its diameter and its length to obtain gaseous mixtures more or less rich in oxions, dioxions or tetraoxions, peroxides in water vapor or in hydrogen peroxide hydroxyd asic.

 The manner in which the invention can be implemented and the advantages which ensue therefrom will emerge more clearly from the following exemplary embodiments, given for information only and without limitation in support of the appended figures.

 Figure 1 is a schematic representation of a device for implementing the method according to the invention.

 FIG. 2 is a summary perspective representation of a preferred device for implementing the invention.

 Figure 3 shows a rear view of the device according to Figure 21 while Figure 4 is a top view representation of this device.

 Figure 5 is a detailed schematic representation of the mixing chamber.

 Figure 6 is a summary representation of another device according to the invention.

 Referring to Figure 1, the device for implementing the method according to the invention essentially consists of an enclosure (1) on which is fixed an atmospheric air intake and a compressor (3). A compressed air supply pipe * (4) opens into an enclosure (5) containing a terpenic liquid compound (6) introduced through an orifice (7) provided for this purpose. In this way, the air supplied by the conduit (4) bubbles through the terpenic compounds and forms nascent gaseous peroxides which escape through a conduit (8). The production of peroxides can be increased by heating the enclosure (5) and / or by agitating the composition (6). A hydrogen source (9) 1 such as, for example, a bottle, is connected by a set of manometers to a conduit. (10) which opens coaxially at (11) in the duct (8). The end (12) where these two conduits meet (8) and (11) forms a torch opening into an enclosure (13) connected by an orifice (14) to the outside.

So
- firstly, peroxide is bubbled into (5) by means of air (4) terpenic compounds (6) to collect in (8) nascent peroxides
- then, by means of the torch (12), nascent water vapor is produced in (11) which reacts with the nascent peroxides brought in through the conduit (8) to give, in addition, oxygenated water charged with oxions ( di-oxion and oxions)
- Finally, in a third step, the mixture of products obtained is recovered in tri4).

Figures 2 to 5 show a preferred device for implementing the invention. This device comprises a casing (20), for example made of sheet metal, mounted on a foot (21). On the side, this device comprises a known glass bubbler (22) fixed to the frame (20) by plates respectively (23) through which it passes and rests. This bubbler has three openings respectively
- (24) to introduce terpenic compounds,
- (25) to supply compressed air,
- (26) to remove the terpenic peroxides produced.

 On its lateral faces, the device has grids (27) and (28) intended to allow air to access the compressor (29) mounted on silenblocks (30).

The front face (31) of this device essentially comprises
- a red indicator light (32) indicating the command, an adjustable flour mill (33) and a push button (34) for controlling the operating cycle
- an operating indicator (35) and an outlet orifice (36) (similar to (14)) where the mixture of the products obtained is collected;
- a safety fuse (37), an indicator light (38) for energizing the electrical connection
- and finally two buttons (39-40), respectively on and off.

The rear face of this device (41) (see FIG. 3) essentially comprises, in addition to the grid (28)
- a teat-shaped conduit (42) forming an outlet for air, connected to the conduit for supplying terpenic peroxides (26) and connected to the conduit (50), similar to the conduit (8), for supplying incipient peroxides
- a second nipple (43) similar to (42) connected by a flexible duct not shown to the fan compressor (29) and to the supplied duct (25) of the bubbler
- a solenoid valve (44)) connected on the one hand, to a pressurized hydrogen bottle (51) equipped with its manometer and on the other hand, by means of a flow adjustment wheel (52) by a conduit flexible to the conduit (53) opening into the chamber (54) of the torch coaxially to the conduit (50),
- (45) designates a male power supply plug connected to the mains and to the transformer (46).

References (47), (48), (49), (55), (56) respectively designate
- (47): a terminal stop,
- (48): a terminal,
- (49): relays,
- (55): a relay support,
- (56): the time delay.

 The torch (54) into which the two coaxial conduits (50) and (53) open comprises in known manner an electric spark (57) and a combustion chamber (58) connected to a conical diffuser (59) at the end ( 60) from which one can optionally adap a tip, in order to better channel the reaction products formed.

Under the effect of the spark produced by (57), the hydrogen ignites on contact with air and thus gives rise to water vapor. This reacts with terpenic peroxides and leads to a non-particulate complex hydroxydase gas mixture formed essentially
- of water-soluble and water-soluble terpenic peroxides emerging ionized and ionizing with incipient oxygen tetravalent (2 2: tetra-oxions)
2
- ionizing and ionizing nascent water vapor with nascent electro-negative oxygen (O: atomic oxion);
- nascent hydrogen peroxide ionized and ionizing hydroxydasic-with divalent oxygen (02: di-oxion).

Depending on the nature of the terpenic compounds used, if the air is more or less charged with oxygen, if the peroxidation takes place at ambient temperature or not, if the nascent water vapor is more or less charged with oxygenated water, one obtains complex gas mixtures more or less rich in oxions, di-oxions or tetraoxions
By acting on the different factors, a technician can easily increase the proportion of one of the constituents compared to the others.

 If most advantageously, it is preferable to use a flame to obtain incipient water vapor, one can also use any known source to give water vapor, in particular incipient water vapor. In this case (see FIG. 6), it suffices that the supply pipe for terpenic peroxides (60) similar to the pipes (8) and (26) is connected to a contact chamber (61) into which a pipe leads. supply (62) of nascent water vapor. The reaction products are thus collected in (62).

The method and the device in accordance with the invention have numerous advantages over those known to date and referred to in the preamble. We can cite
- ease and economy of use
- production of nascent oxygen therefore with strong ionizing activity
- marked various effects;
- absence of harmful effects
- high qualifying yield of oxions.

In this way, this method and this device can be successfully used in all applications where gaseous complexes loaded with oxions are used, such as aero-ionization or electro-negative oxygenation. As an example, we can cite
- hygienic and / or aesthetic therapeutic applications for the treatment of humans or animals, in particular by inhalation, respiration, direct application or by bath, for various treatments
- by diffusion in air, water or other liquids, in particular to neutralize pollution
. chemical,
. atmospheric, especially that caused by
sulfides, ammonia or nitrites,
. physical and electrical,
. biological by destruction of viruses,
bacteria, fungi and yeasts.

Claims (10)

 - finally, thirdly, to recover the products of the action obtained.  - then in a second step, passing the gaseous peroxide obtained in nascent water vapor  - firstly, to peroxidize terpenic compounds  Process for the production of a gaseous complex charged with oxions, characterized in that it consists  2 / A method according to claim 1, characterized in that the peroxidation is carried out by bubbling in a terpenic compound of a stream of air and / or oxygen.  3 / A method according to claim 1, characterized in that the peroxidation is carried out by passage over a terpenic compound of air and / or oxygen.  4 / A method according to claim 1, characterized in that the peroxidation is carried out by micronization of the terpenic compounds in air from an aerosol generated or not continuously.  5 / A method according to one of claims 1 to 4, characterized in that the terpenic compounds contain oxidation catalysts.  6 / A method according to claim 1, characterized in that the nascent water vapor is prepared from a hydrogen flame or town gas.  7 / Device for implementing the method according to one of claims 1 to 6, characterized in that it comprises  - a reserve (5 - 22) of terpenic compounds (6) comprising a supply orifice (7-24) for the terpenic compounds, a supply (4-251 of compressed air and a conduit (8) - (26) - (50) intended to collect the terpenic peroxides produced  - a source (12) - (54) of nascent water vapor connected to a chamber (54) where said conduit opens (8) - (26) - (50)  - an organ (14 -) - (36) - (60) connected to the chamber (13-58-61) to recover the mixture of oxions thus formed.  8 / Device according to claim 7, characterized in that the reserve (5) - (22) of terpenic compounds (6) is a bubbler and the supply (25) is connected to an air compressor (29).  9 / Apparatus according to claim 7, characterized in that the nascent source of steam consists of the chamber- (54) of a flame torch (57-58) connected on the one hand to the conduit (50) of terpenic peroxides incipient and on the other hand, - at an inlet (53) of combustible gas under pressure co-axial to the conduit (50) and finally to a conical diffuser member (59).  10 / Gaseous complex obtained by the implementation of the method according to one of claims 1 to 6, or of the device according to one of claims 6 to 8, characterized in that it essentially comprises  - water-soluble and water-soluble terpenic peroxides emerging ionized and ionizing with incipient tetravalent oxygen (02 2)  - nascent ionizing and ionizing water vapor with nascent electro-negative oxygen (On);  - nascent hydrogen peroxide ionized and ionizing hydroxydasic with divalent oxygen being electronegative (2).