Patents by Inventor Jérôme Anquetil
Jérôme Anquetil has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 12053744Abstract: The present invention relates to a tangential flow separator element for separating a fluid medium for treatment into a filtrate and a retentate, said separator element comprising a monolithic rigid porous support (2) of rectilinear structure with a plurality of channels (3) formed therein for passing a flow of the fluid medium for treatment between an inlet (6) and an outlet (7) for the retentate, in order to recover a filtrate from the outside surface (5) of the support. According to the invention, the monolithic rigid porous support (2) defines obstacles (9) to the flow of the fluid for treatment, which obstacles extend from the inside walls (31) of said channels, are identical in material and porous texture to the support, and present continuity of material and of porous texture with the support, the obstacles (9) generating variations in the flow sections of the channels.Type: GrantFiled: July 21, 2015Date of Patent: August 6, 2024Assignee: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventor: Jérôme Anquetil
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Patent number: 11969913Abstract: The present invention relates to a method for manufacturing at least one monolithic inorganic porous support (1) having a porosity comprised between 10% and 60% and an average pore diameter ranging from 0.5 ?m to 50 ?m, using a 3D printer type machine (I) to build, in accordance with a 3D digital model, a manipulable three-dimensional green structure (2) intended to form, after sintering, the monolithic inorganic porous support(s) (1).Type: GrantFiled: November 26, 2019Date of Patent: April 30, 2024Assignee: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe Lescoche, Jérôme Anquetil
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Publication number: 20230405529Abstract: The subject of the invention relates to a separating element comprising: an inorganic one-piece rigid porous support (2) having, on one side, a first outer planar surface (3) and, on an opposite side, a second outer planar surface (4); at least two circulation ducts (6) for the liquid medium that are formed in the porous support so as to each have a rectangular cross section; at least one internal connection system for the distribution (10) of the liquid medium in a series of circulation ducts, and at least one internal connection system for the collection (12) of the retentate coming from the series of circulation ducts, the internal connection system for the distribution (10), the circulation ducts (6) and the internal connection system for the collection (12) being provided with at least one separating layer continuously deposited between the inlet (11) and the outlet (13) of the porous support; and a collection system (7) for the permeate that has passed through the separating layer or layers.Type: ApplicationFiled: November 19, 2021Publication date: December 21, 2023Applicant: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe LESCOCHE, Jérôme ANQUETIL
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Patent number: 11806893Abstract: The present invention relates to a method for manufacturing at least one monolithic inorganic porous support (1) having a porosity comprised between 10% and 60% and an average pore diameter ranging from 0.5 ?m to 50 ?m, using a 3D printer type machine (I) to build, in accordance with a 3D digital model, a manipulable three-dimensional raw structure (2) intended to form, after sintering, the monolithic inorganic porous support(s) (1).Type: GrantFiled: November 26, 2019Date of Patent: November 7, 2023Assignee: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe Lescoche, Jérôme Anquetil
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Patent number: 11697095Abstract: The invention provides a cross-flow separation element comprising a single-piece rigid porous support (2) having within its volume at least one channel (41) for passing a flow of the fluid medium for treatment, which channel presents a flexuous flow volume (V1) defined by sweeping a generator section along a curvilinear path around a reference axis, and in that the reference axis does not intersect said generator section and is contained within the volume of the porous support.Type: GrantFiled: December 13, 2017Date of Patent: July 11, 2023Assignee: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe Lescoche, Jérôme Anquetil
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Publication number: 20220305443Abstract: A method of manufacturing a separator element for obtaining molecular and/or particulate separation by tangential flow of a fluid medium for treatment into a filtrate and a retentate, the element having a structure (2) of at least two porous rigid columns (3) made of the same material, positioned side by side to define, outside their outside walls, a volume (4) for recovering the filtrate, each column (3) presenting, internally, at least one open structure (5) for passing a flow of the fluid medium, opening out in one of the ends of the porous column for inlet of the fluid medium for treatment, and in the other end for outlet of the retentate. The element is a single-piece rigid structure (2) made as a single piece that is uniform and continuous throughout, without any bonds or exogenous additions.Type: ApplicationFiled: June 16, 2022Publication date: September 29, 2022Applicant: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe LESCOCHE, Jérôme ANQUETIL
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Patent number: 11413562Abstract: A separator element comprising a porous rigid single-piece substrate (2) presenting firstly, at its periphery, a perimeter wall (21) that is continuous between an inlet (4) for the fluid medium for treatment at one end of the porous substrate and an outlet (5) for the retentate at the other end of the porous substrate, and secondly, internally, a surface covered by a separator layer (6) and defining an open structure made up of empty spaces (3) for passing a flow of the fluid medium for treatment. The empty spaces (3) are arranged in the porous substrate so as to create within the porous substrate a first flow network (R1) for the fluid medium for treatment, having at least two interconnected flow circuits (R11, R12) for the fluid medium between the inlet (4) and the outlet (5) of the porous substrate.Type: GrantFiled: May 25, 2016Date of Patent: August 16, 2022Assignee: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe Lescoche, Jérôme Anquetil
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Publication number: 20220032499Abstract: The present invention relates to a method for manufacturing at least one monolithic inorganic porous support (1) having a porosity comprised between 10% and 60% and an average pore diameter ranging from 0.5 ?m to 50 ?m, using a 3D printer type machine (I) to build, in accordance with a 3D digital model, a manipulable three-dimensional raw structure (2) intended to form, after sintering, the monolithic inorganic porous support(s) (1).Type: ApplicationFiled: November 26, 2019Publication date: February 3, 2022Applicant: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe LESCOCHE, Jérôme ANQUETIL
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Publication number: 20220016800Abstract: The present invention relates to a method for manufacturing at least one monolithic inorganic porous support (1) having a porosity comprised between 10% and 60% and an average pore diameter ranging from 0.5 ?m to 50 ?m, using a 3D printer type machine (I) to build, in accordance with a 3D digital model, a manipulable three-dimensional raw structure (2) intended to form, after sintering, the monolithic inorganic porous support(s) (1).Type: ApplicationFiled: November 26, 2019Publication date: January 20, 2022Applicant: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe LESCOCHE, Jérôme ANQUETIL
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Patent number: 10814281Abstract: A separator element comprising a porous rigid single-piece substrate (2) made of a single porous material, and including internally at least one channel (3) for passing a flow of the fluid medium, which channel opens out in one end of the porous substrate for inlet of the fluid medium for treatment and in another end of the porous substrate for outlet of the retentate. At least one empty space (10) is arranged in the porous substrate so as to be surrounded by a portion of the material constituting the single-piece substrate (2) either completely so as to form a closed cavity or partially so as to form a cavity (101) that opens out locally through the peripheral envelope (22) of the substrate via a passage (102) of section smaller than the section of the cavity (101).Type: GrantFiled: May 25, 2016Date of Patent: October 27, 2020Assignee: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe Lescoche, Jérôme Anquetil
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Patent number: 10478781Abstract: The present invention relates to a tangential flow separator element for separating a fluid medium for treatment into a filtrate and a retentate, said separator element having a monolithic rigid porous support (2) of rectilinear structure and having a single channel (3) arranged therein for passing the flow of the fluid medium for treatment, the outside surface (5) of the support presenting a profile that is constant. According to the invention, the monolithic rigid porous support (2) defines obstacles (9) to the flow of the fluid for filtering, which obstacles extend from the inside wall (31) of said channel (3), are identical in material and porous texture to the support, and present continuity of material and of porous texture with the support, said obstacles (9) generating variations in the flow section of the channel.Type: GrantFiled: July 21, 2015Date of Patent: November 19, 2019Assignee: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventor: Jérôme Anquetil
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Publication number: 20190321890Abstract: The invention provides a cross-flow separation element comprising a single-piece rigid porous support (2) having within its volume at least one channel (41) for passing a flow of the fluid medium for treatment, which channel presents a flexuous flow volume (V1) defined by sweeping a generator section along a curvilinear path around a reference axis, and in that the reference axis does not intersect said generator section and is contained within the volume of the porous support.Type: ApplicationFiled: December 13, 2017Publication date: October 24, 2019Applicant: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe LESCOCHE, Jérôme ANQUETIL
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Patent number: 10369745Abstract: The present invention relates to a membrane and a method for manufacturing a membrane for filtering a fluid, said membrane comprising: a substrate having a three-dimensional structure and consisting of an one-piece ceramic porous body; and at least one separating filtering layer having a porosity that is lower than that of the substrate, in which the three-dimensional structure of the substrate is produced by forming elemental layers that are stacked and connected in series with one another, by repeating steps: a) depositing a continuous bed of powder at least partially consisting of a powder intended for forming the ceramic porous body; b) locally consolidating, part of the deposited material such as to create the elemental layer, and simultaneously linking the elemental layer thus formed with the preceding layer such as to gradually grow the desired three-dimensional shape.Type: GrantFiled: June 10, 2014Date of Patent: August 6, 2019Assignee: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe Lescoche, Jerome Anquetil
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Patent number: 10293307Abstract: The invention relates to a monolithic tangential flow separator element for separating a fluid medium for treatment, the element comprising a rectilinear rigid porous support (2) of three-dimensional structure having formed therein at least one channel (3) for passing a flow of the fluid medium for treatment in order to recover a filtrate at the peripheral surface of the support. The monolithic rigid porous support (2) includes obstacles (9) to the flow of the fluid for filtering on or in the inside wall(s)) of the channel(s), the obstacles presenting identity of material and of porous texture with the support, and also presenting continuity of material and of porous texture with the support.Type: GrantFiled: July 21, 2015Date of Patent: May 21, 2019Assignee: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventor: Jérôme Anquetil
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Publication number: 20180147534Abstract: A separator element for obtaining molecular and/or particulate separation by tangential flow of a fluid medium for treatment into a filtrate and a retentate, the element comprising a structure (2) of at least two porous rigid columns (3) made of the same material, positioned side by side to define outside their outside walls a volume (4) for recovering the filtrate, each column (3) presenting internally at least one open structure (5) for passing a flow of the fluid medium, opening out in one of the ends of the porous column for inlet of the fluid medium for treatment and in the other end for outlet of the retentate. The element is a single-piece rigid structure (2) made as a single piece that is uniform and continuous throughout, without any bonds or exogenous additions.Type: ApplicationFiled: May 25, 2016Publication date: May 31, 2018Applicant: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe LESCOCHE, Jérôme ANQUETIL
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Publication number: 20180147535Abstract: A separator element comprising a porous rigid single-piece substrate (2) made of a single porous material, and including internally at least one channel (3) for passing a flow of the fluid medium, which channel opens out in one end of the porous substrate for inlet of the fluid medium for treatment and in another end of the porous substrate for outlet of the retentate. At least one empty space (10) is arranged in the porous substrate so as to be surrounded by a portion of the material constituting the single-piece substrate (2) either completely so as to form a closed cavity or partially so as to form a cavity (101) that opens out locally through the peripheral envelope (22) of the substrate via a passage (102) of section smaller than the section of the cavity (101).Type: ApplicationFiled: May 25, 2016Publication date: May 31, 2018Applicant: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe LESCOCHE, Jérôme ANQUETIL
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Publication number: 20180140990Abstract: A separator element comprising a porous rigid single-piece substrate (2) presenting firstly, at its periphery, a perimeter wall (21) that is continuous between an inlet (4) for the fluid medium for treatment at one end of the porous substrate and an outlet (5) for the retentate at the other end of the porous substrate, and secondly, internally, a surface covered by a separator layer (6) and defining an open structure made up of empty spaces (3) for passing a flow of the fluid medium for treatment. The empty spaces (3) are arranged in the porous substrate so as to create within the porous substrate a first flow network (R1) for the fluid medium for treatment, having at least two interconnected flow circuits (R11, R12) for the fluid medium between the inlet (4) and the outlet (5) of the porous substrate.Type: ApplicationFiled: May 25, 2016Publication date: May 24, 2018Applicant: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventors: Philippe LESCOCHE, Jérôme ANQUETIL
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Publication number: 20170246593Abstract: The present invention relates to a tangential flow separator element for separating a fluid medium for treatment into a filtrate and a retentate, said separator element having a monolithic rigid porous support (2) of rectilinear structure and having a single channel (3) arranged therein for passing the flow of the fluid medium for treatment, the outside surface (5) of the support presenting a profile that is constant. According to the invention, the monolithic rigid porous support (2) defines obstacles (9) to the flow of the fluid for filtering, which obstacles extend from the inside wall (31) of said channel (3), are identical in material and porous texture to the support, and present continuity of material and of porous texture with the support, said obstacles (9) generating variations in the flow section of the channel.Type: ApplicationFiled: July 21, 2015Publication date: August 31, 2017Applicant: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventor: Jérôme ANQUETIL
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Publication number: 20170239622Abstract: The invention relates to a monolithic tangential flow separator element for separating a fluid medium for treatment, the element comprising a rectilinear rigid porous support (2) of three-dimensional structure having formed therein at least one channel (3) for passing a flow of the fluid medium for treatment in order to recover a filtrate at the peripheral surface of the support. The monolithic rigid porous support (2) includes obstacles (9) to the flow of the fluid for filtering on or in the inside wall(s)) of the channel(s), the obstacles presenting identity of material and of porous texture with the support, and also presenting continuity of material and of porous texture with the support.Type: ApplicationFiled: July 21, 2015Publication date: August 24, 2017Applicant: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventor: Jérôme ANQUETIL
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Publication number: 20170232393Abstract: The present invention relates to a tangential flow separator element for separating a fluid medium for treatment into a filtrate and a retentate, said separator element comprising a monolithic rigid porous support (2) of rectilinear structure with a plurality of channels (3) formed therein for passing a flow of the fluid medium for treatment between an inlet (6) and an outlet (7) for the retentate, in order to recover a filtrate from the outside surface (5) of the support. According to the invention, the monolithic rigid porous support (2) defines obstacles (9) to the flow of the fluid for treatment, which obstacles extend from the inside walls (31) of said channels, are identical in material and porous texture to the support, and present continuity of material and of porous texture with the support, the obstacles (9) generating variations in the flow sections of the channels.Type: ApplicationFiled: July 21, 2015Publication date: August 17, 2017Applicant: TECHNOLOGIES AVANCEES ET MEMBRANES INDUSTRIELLESInventor: Jérôme ANQUETIL