EP4090386A1 - System und verfahren zum behandeln von mikroorganismen - Google Patents
System und verfahren zum behandeln von mikroorganismenInfo
- Publication number
- EP4090386A1 EP4090386A1 EP20851223.6A EP20851223A EP4090386A1 EP 4090386 A1 EP4090386 A1 EP 4090386A1 EP 20851223 A EP20851223 A EP 20851223A EP 4090386 A1 EP4090386 A1 EP 4090386A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- optical fibers
- textile web
- visible
- threads
- treatment system
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2255/00—Catalysts
- B01D2255/80—Type of catalytic reaction
- B01D2255/802—Photocatalytic
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2257/00—Components to be removed
- B01D2257/91—Bacteria; Microorganisms
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2259/00—Type of treatment
- B01D2259/80—Employing electric, magnetic, electromagnetic or wave energy, or particle radiation
- B01D2259/804—UV light
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2303/00—Specific treatment goals
- C02F2303/04—Disinfection
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2305/00—Use of specific compounds during water treatment
- C02F2305/10—Photocatalysts
-
- D—TEXTILES; PAPER
- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2101/00—Inorganic fibres
- D10B2101/20—Metallic fibres
-
- D—TEXTILES; PAPER
- D10—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B—INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
- D10B2401/00—Physical properties
- D10B2401/20—Physical properties optical
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/0001—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems
- G02B6/0005—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being of the fibre type
- G02B6/001—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings specially adapted for lighting devices or systems the light guides being of the fibre type the light being emitted along at least a portion of the lateral surface of the fibre
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B6/00—Light guides; Structural details of arrangements comprising light guides and other optical elements, e.g. couplings
- G02B6/24—Coupling light guides
- G02B6/36—Mechanical coupling means
- G02B6/3608—Fibre wiring boards, i.e. where fibres are embedded or attached in a pattern on or to a substrate, e.g. flexible sheets
Definitions
- TITLE SYSTEM AND METHOD FOR TREATMENT OF MICROORGANISMS
- the invention relates to the field of the treatment of contaminated media, and relates more particularly to a system and a method for treating microorganisms, for example to reduce the quantity of microorganisms in a liquid or gaseous medium.
- microorganism covers all microscopic living things such as bacteria, fungi, parasites and viruses. Different qualifications can be attributed to these microorganisms depending on their effect on humans, their mode of development, etc. We distinguish for example the so-called pathogenic microorganisms (referred to as microbes in everyday language) capable of causing organic disorders, so-called cultivable microorganisms, etc. Of course, the same microorganism can be attributed several qualifications. For example, the bacterium Escherichia Coli is particularly considered as a cultivable and pathogenic microorganism, while a virus is generally considered to be a non-cultivable pathogen.
- UV radiation causes molecular alterations in living cells to varying degrees depending on their wavelength. We distinguish in particular:
- UV-A - type A UV
- UV-B - type B UV
- UV-C - type C UV
- the aromatic rings of the bases (A, G, T, C) of the DNA molecule absorb the energy of photons associated with a wavelength between 230 and 290 nm (UV- C and low wavelength UV-B).
- the energy absorbed at the level of two adjacent pyrimidines (C or T) provides the energy necessary for the formation of a covalent bond between these two bases, essentially forming cyclobutane dimers of pyrimidines (cyclobutane pyrimidine dimer, CPD) and pyrimidines (6-4) pyrimidone (6-4 PP) which then lead to a distortion of the DNA double helix and in particular block the progression of replicative polymerases.
- cyclobutane pyrimidine dimer CPD
- 6-4 pyrimidines
- UVA ultraviolet-A
- photosensitizers which return to their fundamental energy state by dissipation of heat or emission of photons (this is the phenomenon of fluorescence) but can also undergo a transition to a more stable energy state called the triplet state.
- This triplet plays a key role in inducing UV-A damage by reacting directly with other molecules, such as DNA bases, (type I photosensitization) or by transferring its energy to oxygen molecules. (type II photosensitization), thus leading to the formation of reactive oxygen species (ROS): singlet oxygen 6 10 2) or the superoxide anion (O2 ' ).
- ROS reactive oxygen species
- hydroxyl radical can be formed in the presence of transition metals from hydrogen peroxide (H2O2) itself obtained by disproportionation of the superoxide anion.
- H2O2 hydrogen peroxide
- the buildup of ROS in the cell can cause direct damage to all cellular components including protein oxidation and nucleic acid damage, especially DNA helix breaks. (single or double-stranded).
- T1O2 titanium dioxide
- UV radiation ultraviolet radiation
- a thin film based on T1O2 is deposited or formed on a substrate.
- Activation of the photocatalyst by irradiation for example, under ultraviolet (UV) radiation, produces an oxidation-reduction reaction generating "electron-hole” pairs.
- These "electron-hole” pairs react with oxygen and moisture in the medium, such as air or water, to give free radicals that are harmful to microorganisms.
- the Applicant's document FR2910341 describes the deposition of a layer of T1O2 on optical fibers configured to emit UV radiation.
- silver As a Among the metals exhibiting an antibacterial property, we can mention silver (Ag). Silver ions (Ag +) have the ability to penetrate the very heart of bacteria and inactivate their vital enzymes or generate hydrogen peroxide, which inevitably results in bacterial death. On the other hand, and unlike titanium dioxide, silver does not allow the elimination of the bacterial residues thus generated. Mention may also be made of copper (Cu) for its antimicrobial properties. In water, the ability of bacteria to reproduce can be greatly affected depending on the amount of copper ions present. In practice, it is observed that the copper ions attack the cell membrane of bacteria, suffocate the bacteria, then attack the genomic material (DNA) of the bacteria leading to its death.
- Cu copper
- metal such as silver or copper
- titanium dioxide in different formulations in the form of composite powders or thin composite films, with the aim of improving the photocatalytic activity of titanium dioxide T1O2, has been considered.
- silver by promoting charge separation, decreases the recombination of photo-generated "electron-hole" pairs.
- copper or silver particles can be incorporated in the form of a thin film combined with titanium dioxide particles T1O2, the whole deposited on a substrate.
- a solution consists in increasing the contact surface of the metal surface with the bacterial cells.
- one solution consists, for example, in creating roughness in the thin film in order to trap the bacteria in these roughness, thus increasing the contact surface.
- this thin film solution remains complex to implement since it requires controlling the various factors linked to the process for depositing the film on the substrate, such as the size of the metal particles to be incorporated to fill the interstices between the T1O 2 particles. , the supply of the quantity of gas, etc.
- a major problem encountered in solutions based on thin films is the peeling and premature depletion of copper particles.
- UV radiation is generally provided by an external light source, such as a lamp or several lamps placed at a certain distance from the substrate in order to be able to activate a larger area of the film. This solution induces a higher cost and a non-optimal efficiency.
- Another equally complex and costly solution consists in depositing the antimicrobial film on a glass substrate making it possible to capture the light emitted by the sun and to convey it to activate the photocatalytic particles.
- the present invention thus provides an alternative solution, easy to implement, compact, which does not require complex manufacturing steps and which nevertheless has an effect on the activity of microorganisms, which is much better compared to existing solutions.
- the present invention aims in particular to provide an alternative solution making it possible to prevent the growth of microorganisms, for example pathogenic or non-pathogenic cultivable microorganisms, present in a medium, by reducing or slowing down the activity of these microorganisms, by inactivation or inhibition. of these microorganisms, by elimination, or even by reducing the quantity of these microorganisms in the medium.
- microorganisms for example pathogenic or non-pathogenic cultivable microorganisms
- the invention therefore proposes a textile web comprising optical fibers in warp and / or weft woven with binding yarns in warp and / or weft.
- Each optical fiber presents invasive alterations along the fiber, and allows the emission, at these alterations, of light propagating in the fiber.
- the textile web further comprises metallic warp and / or weft threads also woven with binding threads, which may be identical or distinct from those associated with optical fibers.
- the metallic wires are based on a metal which adversely affects the growth of microorganisms, preferably based on a metal with antimicrobial properties.
- the negative effect on the growth of microorganisms can in particular result in the reduction of the activity of at least of the targeted microorganisms in the treated medium, or their inactivation (or inhibition), or the reduction in the quantity of these targeted microorganisms. present in the treated medium.
- This textile web is intended to be used in a microorganism treatment system, such as an antimicrobial system, therefore comprising at least one textile web as defined above, as well as a light source arranged opposite the 'one of the two free ends of the optical fibers and capable of generating a light beam also having a negative effect on the growth of microorganisms.
- the light beam can comprise at least one wavelength in the visible or ultraviolet spectrum.
- the negative effect of the textile web on microorganisms is obtained with a light beam preferably comprising at least one electromagnetic / light radiation of wavelengths between 100nm and 400nm.
- the light radiation can thus advantageously be ultraviolet radiation (ie in the 100nm-400nm spectral band) or visible-near ultraviolet radiation (ie in the 400nm-500nm spectral band).
- this textile web can equally well be produced in the form of a fabric, of a knit or of a braid.
- the luminous textile web is preferably a fabric which is composed of warp threads and weft threads arranged in predetermined patterns that those skilled in the art will be able to determine according to the applications.
- this fabric can be obtained by a Jacquard process during which the mode of distribution of the warp and / or weft yarns but also that of the optical fibers and the metal yarns is controlled with precision.
- the optical fibers and the metal threads are advantageously woven within a textile core in a contiguous and identifiable manner.
- the textile core serves in particular as a support for holding the optical fibers and the metal threads.
- the metal wires preferably extend parallel to the optical fibers.
- the textile web can thus comprise binding threads allowing the optical fibers and metallic threads to be held within the woven textile core. These binding threads are warp threads when the optical fibers and the metallic threads are inserted in the weft, and these binding threads are weft threads when the optical fibers and the metallic threads are inserted in the warp.
- the optical fibers and the metal threads are preferably inserted in the weft and in this case, the binding threads are warp threads.
- the textile web may advantageously have binding yarns distributed over the optical fibers in a satin-type weave so as to optimize the diffusion surface of the optical fibers.
- the light device can have different arrangements depending on the intended applications.
- the solution of the present invention therefore consists of a textile web based on side-emitting optical fibers and metallic threads, the whole maintained by weaving via binding threads.
- the light radiation such as ultraviolet
- the solution of the present invention therefore consists of a textile web based on side-emitting optical fibers and metallic threads, the whole maintained by weaving via binding threads.
- the light radiation such as ultraviolet
- the light radiation is therefore guided in a distributed manner inside the textile web by means of side-emitting optical fibers and is therefore conveyed to the very heart of the medium to be treated.
- the interstices of the textile web at the level of the intersections of the threads constituting it increase the contact surface of the textile web with the organisms present in the medium, and therefore optimize the action of light radiation combined with the action of metal wires on the targeted microorganisms.
- the antimicrobial source per unit area can be in greater quantity compared to solutions incorporating thin metallic films and therefore remains available for a longer time. As a result, the life of the textile web of the invention as a treatment system is longer. Furthermore, the integration of a metal source in the form of threads avoids peeling problems and therefore the premature depletion of the antimicrobial source.
- the textile web thus formed is also easily manipulated and modular.
- the thickness and flexibility of such a textile web is comparable to that of a fabric.
- it can in particular be used as it is or be secured to supports of different shapes.
- a simple cutting of the textile web to the desired dimensions makes it possible to produce decontamination devices of all sizes.
- the metal is preferably chosen from the group comprising silver (Ag) and copper (Cu).
- a metal wire can consist of a single filament (monofilament) in the form of a so-called pure metal wire (copper or silver), comprising for example 99.9% of metal (copper or silver), and for example having a diameter substantially of the order of 10 to 300mhi.
- a monofilament metal wire made of a mixture of two metals based on copper and silver for example a wire made of copper coated with silver or a silver wire coated with copper.
- the monofilament metallic thread can also be in the form of a textile thread coated with a metallic layer.
- a metal wire can be composed of several filaments (multifilament) combined with one another via different assembly techniques.
- a multifilament metallic yarn can be in the form of a wrapped yarn, of a twisted yarn.
- a multifilament metallic thread preferably comprises at least one textile thread assembled with at least one pure metal thread or a textile thread coated with a metallic layer.
- the metal wire may comprise one or more twisted wire (s) based on metal (silver and / or copper) with one or more textile wire (s), such as polyester , polyamide or any other fiber.
- the metal wire thus formed can have a titration of between 50 and 1000 decitex (Dtex).
- the light source preferably generates ultraviolet radiation of type A (UV-A) or with a wavelength of between 315 nm and 400 nm.
- UV-A type A
- the synergy of copper or silver wires and UV-A radiation on certain bacteria, such as Escherichia coli (E. coli) is considerably increased.
- Escherichia coli Escherichia coli
- the sufficient light intensity applied is 100 qW / cm 2 .
- the textile web has two opposite visible faces, and optical fibers and metal threads are visible on the two opposite faces of the web.
- the optical fibers and the metallic threads are woven with the binding threads so as to form a fabric.
- the metallic threads run parallel to the optical fibers and the fabric is made up of alternating optical fibers and metallic threads on each of its faces.
- the textile web has two opposite visible faces, the optical fibers and the metal threads being visible on only one of the two faces.
- a particular weaving technique of metallic threads with binding threads and optical fibers with these same binding threads makes it possible to position the optical fibers and the visible metallic threads on only one and the same side of the textile web.
- the textile web has two opposite visible faces, the optical fibers being visible on one side and the metal wires being visible on the other side.
- a particular technique of weaving metallic threads with binding threads and optical fibers with these same binding threads makes it possible to position the optical fibers visible on only one face of the textile web and to position the metallic threads. visible only on the other side of the textile web.
- the textile web has two opposite visible faces, the fibers optics being visible on only one side and metal wires being visible on both sides.
- a particular technique of weaving metallic threads with binding threads and optical fibers with these same binding threads makes it possible to position the optical fibers so as to make them visible on only one side of the textile web and position the metal wires so that they are visible on both sides of the tablecloth.
- a first visible face of the textile web comprises an alternation of optical fibers and metallic threads
- a second visible face of the textile web exclusively comprises metallic threads.
- optical fibers so as to make them visible on both sides of the web and to position the metal wires so as to make them visible only on one side of the web. layer.
- the textile web may be formed by a superposition of textile layers, each textile layer comprising optical fibers and metallic threads which are held together by binding threads, and which are visible on one or both sides. of the layer, for example according to at least one of the variants described above.
- the textile web thus has more interstices (and therefore contact surfaces) to capture / trap the target microorganisms.
- the textile web may comprise a superposition of textile layers in which a first textile layer is formed of optical fibers held by binding threads within a textile core and a second textile layer is formed of metallic threads held by binding threads within another textile core.
- the textile web can thus have an alternation of first and second textile layers.
- the photocatalytic particles can be attached in different ways to the textile web and can form a layer covering the entire textile web or only predefined areas.
- the photocatalytic particles can first be added to the various components of the textile web, before weaving.
- the textile web may further comprise a coating layer incorporating photocatalytic particles deposited on all or part of the optical fibers and / or all or part of the binding yarns (warp yarn and / or weft) before weaving.
- the coating layer incorporating the photocatalytic particles is deposited on the binding threads.
- the photocatalytic particles can also be added after weaving the optical fibers with the binding yarns.
- the photocatalytic particles can be deposited on all the fabric formed by the optical fibers associated with the binding threads or on predefined zones.
- the textile web may further comprise a coating layer incorporating photocatalytic particles deposited on all or part of at least one of the faces of the fabric formed by the optical fibers woven with the binding threads.
- the metal wires are mostly devoid of this coating layer.
- This coating layer can in particular be deposited in different ways, for example by bathing, padding, emulsion, spraying, printing, encapsulation, electrodeposition.
- the photocatalytic particles are formed from a material selected from the group comprising titanium dioxide, zinc oxide, zirconium dioxide, and cadmium sulfide.
- the photocatalyst is based on titanium dioxide (TiCL), for example anatase and / or rutile TiCL.
- TiCL titanium dioxide
- the sufficient light intensity applied is advantageously 1 OOpW / cm 2 in the wavelength range less than 400 nm, so as to activate the photocatalysts.
- the silica layer is deposited between the layer integrating the photocatalytic particles and the optical fibers and / or the binding threads.
- the protective layer and the coating layer incorporating the photocatalytic particles are deposited on the binding threads.
- the invention also provides a method of treating, for example reducing the activity, microorganisms in a liquid or gaseous medium, comprising:
- the textile web is not enclosed in a housing or case, even transparent, but placed in direct contact with the medium to be treated so that the microorganisms present in the medium to be treated can be in direct contact with the surfaces of the textile tablecloth.
- the adjustment parameters such as the wavelength of the light radiation, the light intensity, the time or the frequency of exposure, depend on the type of target microorganisms and on the medium.
- the textile web is immersed in the liquid medium and UV-A radiation, preferably of wavelength between 315 and 400nm, and an intensity of 1 OOpW / cm 2 is applied.
- the application of radiation in the visible spectrum can also be envisaged when the textile web is devoid of T1O2.
- An effect on the inactivation of E.Coli microorganisms has in particular been observed with light radiation generated by a white LED making it possible to obtain a light intensity at the surface of the textile of the order of 500 Cd / m 2 .
- the time observed for total inactivation is longer compared to the application of UV-A radiation.
- Figure 1 is a perspective view of a textile web according to one embodiment of the invention.
- FIGS. 2A-2G are sectional views of the textile web according to different variants in the arrangement of the optical fibers and of the metallic threads;
- FIG. 2A is a sectional view of the textile web according to a variant in which the optical fibers and the metallic threads are woven so as to be visible on both sides of the textile web;
- FIG. 2B is a sectional view of the textile web according to another variant in which the optical fibers and the metallic threads are woven so as to be visible on both sides of the textile web.
- FIG. 2C is a sectional view of the textile web according to a variant in which the optical fibers and the metallic threads are woven so as to be visible on the same face of the textile web;
- FIG. 2D is a sectional view of the textile web according to another variant in which the optical fibers and the metallic threads are woven so as to be visible on different faces of the textile web;
- Figure 2E is a sectional view of the textile web according to another variant in which the metal fibers are visible on both sides and the optical fibers are visible only on one side of the textile web;
- FIG. 2F is a sectional view of the textile web according to another variant in which the optical fibers are visible on both sides and the metal threads are visible only on one side of the textile web;
- FIG. 2G is a sectional view according to another variant in which a textile web based on optical fibers is combined with another textile based on metallic threads;
- FIG 3 Figure 3 is a schematic representation of the textile web in use;
- Figure 4 is a graphical representation showing the antimicrobial effect of the textile web provided with copper and / or silver metallic threads;
- FIG 5 is a graphical representation showing the antimicrobial effect of copper whether or not combined with T1O2;
- Figure 6 is a graphical representation showing the antimicrobial effect of the textile web in a gaseous medium.
- the treatment solution of the invention is described below, by way of non-limiting example, in the particular case of an antimicrobial treatment.
- the treatment solution therefore comprises a textile web obtained by weaving optical fibers, metallic threads and binding threads.
- the end of the optical fibers is coupled to a light source configured to generate UV radiation.
- the textile web 1 according to one embodiment is illustrated in FIG. 1 and therefore incorporates optical fibers 2 with lateral emission and metallic threads 4 having in particular antibacterial and / or antimicrobial properties.
- the optical fibers 2 and the metal wires 4 run parallel to each other.
- optical fibers 2 and these metallic threads are arranged in a warp and / or weft, and are woven with binding threads 3 arranged in a warp and / or weft.
- the ends 6 of the optical fibers 2 are intended to be arranged facing a light source 7 configured to generate ultraviolet radiation, in particular of the UV-A type.
- the binding yarns can be woven in a plain weave type which provides optimum mechanical strength and surface uniformity. Other types of weaving can be envisaged, such as satin, twill or the like.
- the binding yarns can be formed from a material chosen from the group comprising polyamide, polyester, polyethylene and polypropylene or any other textile fiber.
- the optical fibers can comprise a core formed from a material chosen from the group comprising polymethyl methacrylate (PMMA), polycarbonate (PC) and cycloolefins (COP).
- PMMA polymethyl methacrylate
- PC polycarbonate
- COP cycloolefins
- the optical fibers are made of two materials and have a core covered with a sheath which may be of different nature.
- Optical fibers can also be formed from a material selected from the group comprising glass, quartz and silica.
- a polymer sheath can come to cover the optical fibers to protect them.
- These optical fibers also exhibit either a modification of the material of the optical cladding, or invasive alterations on their outer surface, so that the light propagating in the fiber escapes from the fiber through the modified cladding or these alterations.
- These alterations can be carried out in various ways, including by methods of abrasion, chemical etching or by laser treatment.
- these alterations can be distributed progressively over the surface of the optical fibers so as to ensure uniform illumination.
- the surface density or the dimension of the alterations can thus vary from one zone to another of the water table. In general, near the light source, the surface density of the alterations is low, while it increases the further one moves away from the source.
- the light source 7 intended to illuminate the free ends 6 of the optical fibers 2 can be of different types, and is chosen from that capable of generating radiation including little harmful UV-A ultraviolet.
- the light source 7 can, for example, be in the form of light-emitting diodes, or even comprise a collector capable of focusing natural sunlight, which comprises approximately 4-5% of UVA, in the direction of the free ends of the optical fibers.
- the metal wires can be silver or copper based metal wires.
- the metal wires can thus be pure silver wires or pure copper wires comprising, for example, 99.9% silver or copper respectively.
- the metallic threads can also be textile threads coated with metal. The diameter of the metallic threads is irrelevant and depends on the weaving technique or on the desired flexibility of the textile web. For example, it is possible to use textile threads coated with silver having a count of around 100 Dtex, or pure copper threads with a diameter of around 0.1mm.
- the photocatalytic particles can first be deposited on the optical fibers and / or the binding yarns before weaving, in the form of a coating layer so as to form a sheath around each optical fiber and / or around each binding thread.
- the optical fibers and metal wires are then held together by weaving with the binding threads.
- a silica-based protective layer prior to deposition of the photocatalytic layer.
- the deposition of the photocatalytic layer after weaving of the optical fibers and of the metal threads with the binding threads.
- a coating layer incorporating photocatalytic particles is deposited, as well as the intermediate silica layer.
- optical fibers 2 and the metal wires 4 can be positioned so as to be visible on the two opposite faces 10, 11 of the textile web 1 (FIG. 2A and 2B).
- each of the faces can include an alternation of optical groups and metal groups, each optical group consisting of one or more optical fibers and each metal group consisting of one or more metal wires.
- the optical fibers 2 and the metallic threads 4 may also be visible only on one and the same single face 10 (FIG. 2C) of the textile web 1.
- the textile web only comprises one luminous face provided of metal wires.
- optical fibers 2 and the metal wires 4 can also be visible on opposite faces 10, 11 (FIG. 2D) of the textile web 1. Thus, the optical fibers are not visible. only on one side of the web and the metal wires are visible only on the other side of the web.
- Another variant consists in making the metal threads 4 visible on the two faces 10, 11 of the web while the optical fibers 2 are visible only on one face of the textile web 1 (FIG. 2E), or else in making the fibers optics 2 visible on both sides 10, 11 and the metal wires 4 visible on only one side of the web (FIG. 2F).
- the textile web may be formed by a superposition of textile layers, each textile layer comprising optical fibers and metallic threads which are held together by binding threads, and which are visible on one or both sides. of the layer, for example according to at least one of the variants described above.
- the textile web thus has more interstices (and therefore contact surfaces) to capture / trap the target microorganisms.
- a textile web based on optical fibers is superimposed on another textile web based on metallic threads.
- the textile web can thus comprise a superposition of textile layers, a first textile layer 1b formed of optical fibers 2 held by binding threads and a second textile layer 1a being formed of metal threads 4 held by binding threads.
- FIG. 3 The use of such a textile web formed of optical fibers and metal threads, in particular of copper, provided or not with a photocatalytic layer is illustrated in FIG. 3.
- the textile web 1 is shown in a simplified manner.
- a light source 7 is positioned opposite the free ends 6 of the optical fibers 2, whether or not grouped together in bundles.
- the light emitted laterally by the optical fibers 2 can be transmitted on either side of the textile web 1 perpendicularly to each of these faces, but also inside the textile web.
- the combination of copper wires and UV-A radiation emitted by the optical fibers placed near the copper wires makes it possible to significantly reduce or destroy the bacteria, in particular E. coli, contained in a medium. aqueous.
- the textile web may therefore have, on the surface, deposits of metal ions released by the metal threads during use.
- the result of the invention is not the simple combination of the effects of the metal copper or silver and the UV.
- the test protocol for obtaining the C1-C7 curves is as follows: a standardized bacterial suspension of E. coli in aqueous medium is carried out. 180 mL of this solution are placed in a reactor and temporal measurements of the concentration of E. coli in the medium are carried out in the following cases:
- a textile web (dimensions 100 * 100mm) based on optical fibers held by binding threads is immersed in the aqueous medium.
- the textile web is devoid of metallic threads and photocatalyst, and is not connected to any light source. The aqueous medium is therefore not illuminated;
- curve C2 a textile web (dimensions 100 * 100mm) according to one embodiment of the invention, integrating metallic threads but devoid of photocatalyst T1O2, is immersed in the aqueous medium.
- the textile web is not connected to any light source, and the assembly is placed in the dark so as to avoid any light radiation.
- Each metal wire is in particular formed of a wire consisting of copper and silver twisted to a polyester textile wire;
- curve C3 a textile web (dimensions 100 * 100mm) according to one embodiment of the invention, integrating metal threads also devoid of T1O2 layer, is immersed in the aqueous medium. The whole is also put in the dark so as to avoid any light radiation.
- the textile web is not connected to any light source, and the assembly is also placed in the dark so as to avoid any light radiation.
- Each metal wire is a pure copper monofilament with a diameter of 0.1 mm;
- curve C4 The textile web used for curve C4 is similar to that used for curve C2 except that each metallic thread is obtained by assembling a polyamide thread impregnated with silver and a polyester thread. The textile web is immersed in the aqueous medium and the whole is also placed in the dark so as to avoid any light radiation;
- curve C5 the textile web used to obtain curve C2 is now connected to a light source, an LED, generating UV-A radiation with a wavelength of around 365nm;
- curve C7 the textile web used to obtain curve C4 is now connected to the light source generating UV-A radiation with a wavelength of around 365nm.
- the medium is in recirculation.
- the measurements are taken every hour for 8 hours.
- the quantity of viable cultivable bacteria remaining in the medium is determined by counting the bacteria on a rich medium.
- FIG. 5 also shows the notorious effect of the textile web of the invention based on copper threads and optical fibers diffusing UV-A radiation.
- the test protocol is identical to that described above.
- a standardized bacterial suspension of E. coli in aqueous medium is carried out. 180 mL of this solution are placed in a reactor and temporal measurements of the concentration of E. coli in the medium are carried out in the following cases:
- a textile web (dimensions 100 * 100mm) based on optical fibers held by binding threads is immersed in the aqueous medium.
- the textile web is devoid of metal wire and T1O2 particle and is connected to a light source generating UV-A radiation with a wavelength of the order of 365nm;
- a textile web (dimensions 100 * 100mm) according to an embodiment of the invention incorporating pure copper wires and without a T1O2 layer, is immersed in the aqueous medium.
- the textile tablecloth is not connected to a light source and the whole is placed in the dark so as to avoid any light radiation;
- the web used to obtain the C9 curve is this time connected to a light source generating UV-A radiation with a wavelength of around 365nm;
- - curve Cl 1 a textile web (dimensions 100 * 100mm) according to one embodiment of the invention integrating TiCL particles and pure copper wires, is immersed in the aqueous medium and is connected to the light source generating radiation UV-A wavelength of the order of 365nm.
- the bacteria may be temporarily suspended in the air and the protocol used therefore aims to mimic this type of aerial bacterial contamination.
- An aerosol of a standardized bacterial solution of E.coli is generated for 5 hours in continuous flow through a sealed device (chamber) containing the textile web of the invention incorporating copper threads and a photocatalyst.
- the air flow containing the bacterial aerosol is bubbled into a flask containing an aqueous solution, making it possible to collect the bacteria still in suspension in the air.
- curve 02 represents the quantity of viable cultivable bacteria present initially, determined by counting bacteria on a rich medium
- curve 03 represents the quantity of bacteria counted at the end of the test after 5 hours.
- the present invention thus finds various applications such as the treatment of air in hospitals, the treatment of liquid or the surface treatment.
- the very structure of the textile web allows in particular easy installation in places where the supply of light radiation is not always easy, for example in a shoe for a disinfection phase via the connection of the textile web. to an LED generating UV radiation.
- the treatment solution of the invention is essentially described in relation to the E.Coli bacterium but it can also be implemented for the inactivation or elimination of other microorganisms such as those identified for copper and silver. .
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- Engineering & Computer Science (AREA)
- Veterinary Medicine (AREA)
- Public Health (AREA)
- General Health & Medical Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- Epidemiology (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Environmental & Geological Engineering (AREA)
- Water Supply & Treatment (AREA)
- Organic Chemistry (AREA)
- Hydrology & Water Resources (AREA)
- General Chemical & Material Sciences (AREA)
- Textile Engineering (AREA)
- Toxicology (AREA)
- Analytical Chemistry (AREA)
- Oil, Petroleum & Natural Gas (AREA)
- Medicinal Chemistry (AREA)
- Biomedical Technology (AREA)
- Inorganic Chemistry (AREA)
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Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
FR2000384A FR3106062A1 (fr) | 2020-01-15 | 2020-01-15 | Systeme et procede de traitement de microorganismes |
PCT/FR2020/052611 WO2021144517A1 (fr) | 2020-01-15 | 2020-12-22 | Système et procédé de traitement de microorganismes |
Publications (1)
Publication Number | Publication Date |
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EP4090386A1 true EP4090386A1 (de) | 2022-11-23 |
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EP20851223.6A Pending EP4090386A1 (de) | 2020-01-15 | 2020-12-22 | System und verfahren zum behandeln von mikroorganismen |
Country Status (5)
Country | Link |
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US (1) | US20230045428A1 (de) |
EP (1) | EP4090386A1 (de) |
CN (1) | CN114980935A (de) |
FR (1) | FR3106062A1 (de) |
WO (1) | WO2021144517A1 (de) |
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US20210393841A1 (en) * | 2020-06-19 | 2021-12-23 | The Boeing Company | Apparatus and method for irradiating air in an air circulation system of a vehicle |
EP4212329A1 (de) * | 2022-01-13 | 2023-07-19 | Airxôm | Mehrschichtige zusammensetzung für atemschutzmaske |
CN116119808B (zh) * | 2023-04-18 | 2023-06-09 | 中侨启迪(山东)新材料科技有限公司 | 一种光催化污水处理装置及方法 |
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JPH10274713A (ja) * | 1997-01-31 | 1998-10-13 | Hoya Corp | 光照射方法及びその装置 |
US7172802B2 (en) * | 2001-12-27 | 2007-02-06 | Sutherland Ann M | Casement fabrics |
ITMI20061230A1 (it) * | 2006-06-26 | 2007-12-27 | Milano Politecnico | Tessuti metallici o metallizzati rivestiti con biossido di titanio nanostrutturato |
FR2910341B1 (fr) | 2006-12-20 | 2009-02-06 | Cedric Brochier Soieries Soc R | Nappe textile presentant des proprietes depolluantes par photocatalyse |
FR3037123A1 (fr) * | 2015-06-08 | 2016-12-09 | Brochier Tech | Procede de fabrication d'un dispositif lumineux, et dispositif ainsi obtenu |
JP6678939B2 (ja) * | 2016-03-14 | 2020-04-15 | 学校法人 創価大学 | 光ファイバを組み込んだ変形感受性生地、及びこれを用いた検出装置 |
FR3059334B1 (fr) * | 2016-11-25 | 2019-01-25 | Brochier Technologies | Panneau pour photobioreacteur et procede de fabrication |
CN107638247A (zh) * | 2017-02-28 | 2018-01-30 | 银X技术公司 | 抗微生物弹性支撑绷带 |
-
2020
- 2020-01-15 FR FR2000384A patent/FR3106062A1/fr active Pending
- 2020-12-20 US US17/790,588 patent/US20230045428A1/en active Pending
- 2020-12-22 WO PCT/FR2020/052611 patent/WO2021144517A1/fr unknown
- 2020-12-22 CN CN202080093320.XA patent/CN114980935A/zh active Pending
- 2020-12-22 EP EP20851223.6A patent/EP4090386A1/de active Pending
Also Published As
Publication number | Publication date |
---|---|
WO2021144517A1 (fr) | 2021-07-22 |
US20230045428A1 (en) | 2023-02-09 |
FR3106062A1 (fr) | 2021-07-16 |
CN114980935A (zh) | 2022-08-30 |
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