Patents by Inventor Gérard Bienvenu
Gérard Bienvenu 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: 8636834Abstract: The invention relates to a safe hydrogen-storing tank that is easy to manufacture and enables the quick kinetic absorption of hydrogen, which reduces the variations in volume and has a low cost in terms of material and energy. The invention has the aim of providing a tank for storing hydrogen, including a hydrogen inlet (21) and a hydrogen outlet (22) in fluid communication with at least one solid body (10-11) capable of the exothermal absorption and endothermal desorption of hydrogen, wherein said at least one solid body (10-11) is made of a compacted material containing light metal hydride and a heat-conducting matrix, and wherein said at least one solid body (10-11) is in heat-transfer relation with at least one heat recovery material (42) free from salt or molten-salt compounds and capable of absorbing the heat generated by the hydrogen absorption and of releasing said absorbed heat so as to provide heat for hydrogen desorption.Type: GrantFiled: December 16, 2009Date of Patent: January 28, 2014Assignees: Centre National de la Recherche Scientifique, McPhy EnergyInventors: Daniel Fruchart, Michel Jehan, Patricia De Rango, Salvatore Miraglia, Philippe Marty, Albin Chaise, Sylvain Garrier, Gérard Bienvenu
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Patent number: 8617766Abstract: A method for simultaneous co-generation of electric energy and hydrogen by totally electrochemical means which includes an electricity storage phase by electrolysis of an electrolysable metal solution and formation of a hydrogen-electrolysable metal battery cell and, an electricity recovery and hydrogen generation phase by operation of said battery cell. The electrolysable metal is chosen from zinc, nickel and manganese.Type: GrantFiled: July 27, 2010Date of Patent: December 31, 2013Assignee: ErgosupInventor: Gerard Bienvenu
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Publication number: 20120201719Abstract: The present invention relates to a tank for storing and withdrawing hydrogen by means of a reversible hydriding/dehydriding reaction, said tank consisting of a thermally insulated chamber that includes a plurality of elements (2) for storing hydrogen in the form of hydrides, each element having at least one surface for exchange with the gaseous hydrogen and at least one heat exchange surface, characterized in that it further comprises a plurality of heat storage elements (3) for preserving and releasing the heat that is associated with the reversible hydriding/dehydriding reaction.Type: ApplicationFiled: September 15, 2010Publication date: August 9, 2012Applicants: CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE- CNRS--, MCPHY ENERGYInventors: Michel Jehan, Laurent Pereaud, Patricia De Rango, Philippe Marty, Gérard Bienvenu
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Publication number: 20120121998Abstract: A method for simultaneous co-generation of electric energy and hydrogen by totally electrochemical means which includes an electricity storage phase by electrolysis of an electrolysable metal solution and formation of a hydrogen-electrolysable metal battery cell and, an electricity recovery and hydrogen generation phase by operation of said battery cell. The electrolysable metal is chosen from zinc, nickel and manganese.Type: ApplicationFiled: July 28, 2010Publication date: May 17, 2012Applicant: ERGOSUPInventor: Gerard Bienvenu
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Publication number: 20120061397Abstract: The invention relates to a safe hydrogen-storing tank that is easy to manufacture and enables the quick kinetic absorption of hydrogen, which reduces the variations in volume and has a low cost in terms of material and energy. The invention has the aim of providing a tank for storing hydrogen, including a hydrogen inlet (21) and a hydrogen outlet (22) in fluid communication with at least one solid body (10-11) capable of the exothermal absorption and endothermal desorption of hydrogen, wherein said at least one solid body (10-11) is made of a compacted material containing light metal hydride and a heat-conducting matrix, and wherein said at least one solid body (10-11) is in heat-transfer relation with at least one heat recovery material (42) free from salt or molten-salt compounds and capable of absorbing the heat generated by the hydrogen absorption and of releasing said absorbed heat so as to provide heat for hydrogen desorption.Type: ApplicationFiled: December 16, 2009Publication date: March 15, 2012Inventors: Daniel Fruchart, Michel Jehan, Patricia De Rango, Salvatore Miraglia, Philippe Marty, Albin Chaise, Sylvain Garrier, Gérard Bienvenu
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Patent number: 6616730Abstract: It is possible to activate a physical reaction and/or a chemical reaction in a medium, comprising a solution and solid matter that is freely dispersed in said solution, by placing the mixture in a reactor that has two walls which are located opposite close to each other, whereby the mixture fills the space in between the two walls and forms therein a thin long layer in a direction that is defined by a geometrical axis parallel to the walls, by activating an agitating means that are disposed outside the reactor and capable of acting through said walls on an area of agitation covering part of the layer and having a small dimension in the direction of the geometrical axis, and by simultaneously displacing said agitating means in such a way that the area of agitation substantially spans the entire area located between the two walls.Type: GrantFiled: July 12, 2001Date of Patent: September 9, 2003Inventor: Gérard Bienvenu
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Patent number: 5665807Abstract: The subject composite materials comprise an association of an organic elastic matrix with a network of non-oxidized quasi spherical particles, of submicronic dimension and of a diameter ranging between 0.1 .mu.m and 10 .mu.m, distributed uniformly in the matrix.The materials are intended to coat pieces subjected to the phenomena of wear, erosion, cavitation and abrasion notably in a corrosive medium.According to a method of manufacture of these composite materials, the nonoxidized submicronic particles are, immediately before their introduction in the organic matrix, plunged into an organic macromolecular dispersant chosen of such type that the macromolecular chains of the dispersant are fixed on the surface of the particles by noncovalent bonds.Type: GrantFiled: December 11, 1995Date of Patent: September 9, 1997Assignee: GEC Alsthom NeyrpicInventors: Jean-Marie Roman, Gerard Bienvenu, Jurgen Gauger
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Patent number: 5527849Abstract: The subject composite materials comprise an association of an organic elastic matrix with a network of non-oxidized quasi spherical particles, of submicronic dimension and of a diameter ranging between 0.1 .mu.m and 10 .mu.m distributed uniformly in the matrix.The materials are intended to coat pieces subjected to the phenomena of wear, erosion, cavitation and abrasion notably in a corrosive medium.According to a method of manufacture of these composite materials, the nonoxidized submicronic particles are, immediately before their introduction in the organic matrix, plunged into an organic macromolecular dispersant chosen of such type that the macromolecular chains of the dispersant are fixed on the surface of the particles by noncovalent bonds.Type: GrantFiled: November 23, 1992Date of Patent: June 18, 1996Assignee: GEC Alsthom NeyrpicInventors: Jean-Marie Roman, Gerard Bienvenu, Jurgen Gauger
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Patent number: 5102646Abstract: The invention relates to a method of fabrication in the powdered state of ceramic compounds formed between a metalloid and a refractory metal, characterized in that it involves the following steps:a) said metalloid is caused to react with a reducing metal within a liquid bath constituted at least partly by a fused salt of said reducing metal in order to obtain a saltlike intermediate compound which combines said reducing metal and the metalloid, in solution in said bath,b) a reducible salt of said refractory metal is then injected into said bath in a divided form which is directly distributed throughout the bath in order to produce said powder by reaction of the reducible salt with said intermediate compound of the reducing metal.Type: GrantFiled: April 20, 1990Date of Patent: April 7, 1992Assignee: CerexInventor: Gerard Bienvenu
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Patent number: 4738759Abstract: The method causes the deposition of calcium or calcium alloy to a cathode by electrolysis of a calcium derivative in a bath of molten salts based on calcium halides. The calcium derivative is in solution into the molten salt bath in ionic form. For producing calcium alloy, calcium is caused to deposit on a liquid metal cathode and the calcium is alloyed in situ with the metal of the cathode to form the alloy. The method enables the production at the anode of high purity metals such as graphite carbon or silicon from calcium carbide, respectively calcium silide or calcium silicon. It is also possible to obtain high purity calcium by decomposition of the alloy obtained by vacuum distillation.Type: GrantFiled: May 29, 1986Date of Patent: April 19, 1988Assignee: Extramet S.A. Zone IndustrielleInventors: Gerard Bienvenu, Dominique Dubruque
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Patent number: 4652299Abstract: The refining additive is an alloy in the form of granules of a metal selected from the group of alkaline earth metals and zinc with a small quantity of a metallic element capable of giving the alloy a substantially lower melting point. The alloy can be a eutectic alloy.This alloy, which is in the form of granules, allows the treatment of steels, cast iron and non-ferrous metals at lower temperatures and with a substantial reduction in bubble formation.The alloy may be introduced in the form of a core wire.Type: GrantFiled: November 5, 1985Date of Patent: March 24, 1987Assignee: Extramet Industrie S.A.Inventors: Gerard Bienvenu, Michel Jehan
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Patent number: 4428894Abstract: Metal in the form of granules is solidified from the molten state by forming a jet of molten metal which is caused to pass through a vibrating orifice in order to divide the jet into individual drops and causing solidification of the drops by cooling so as to form the granules. The drops of the jet are caused to fall from the vibrating orifice under the action of gravity through an inert gas atmosphere which is maintained at a temperature below the solidification temperature of the molten metal. In the case of reactive metals, the jet is formed by withdrawal from a mass of molten metal maintained in contact with a bath which is not miscible with the molten mass and selectively dissolves the derivatives produced in the event of oxidation.Type: GrantFiled: August 21, 1981Date of Patent: January 31, 1984Assignee: ExtrametInventor: Gerard Bienvenu
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Patent number: 4338169Abstract: The process comprises subjecting a magnetic material dispersed in the fluid to the action of a variable magnetic field. It is thus possible to provide efficient stirring of this fluid and to facilitate reactions taking place, between a constituent of the fluid medium, and particles dispersed in this fluid, including a substance at least partly active at the surface. They may be, in particular, a ferromagnetic solid substance and a compound in solution in the fluid and non-magnetic.Type: GrantFiled: January 16, 1980Date of Patent: July 6, 1982Assignee: ExtrametInventor: Gerard Bienvenu
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Patent number: 4105440Abstract: A metal halide is reduced by reacting it with calcium carbide in a bath in which the calcium carbide is dissolved in a mixture of a halide of at least one alkali metal, specifically sodium, potassium, rubidium and/or cesium, with a halide of at least one alkaline-earth metal, specifically calcium, strontium and/or barium. The desired metal may be one of the aforementioned alkali or alkaline-earth metals, e.g. sodium or magnesium, in which case its halide is one of the constituents of the mixture. Otherwise, a vapor of a halide of the desired metal (e.g. titanium tetrachloride) is bubbled through the bath in order to react with the calcium carbide.Type: GrantFiled: January 2, 1974Date of Patent: August 8, 1978Assignee: Battelle Memorial InstituteInventors: Claude Gentaz, Gerard Bienvenu
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Patent number: 4042377Abstract: A process for the desulfurization or nodularization of a ferrous melt which comprises introducing into the melt at least one reducing composition formed between an element of one of the groups I, II and III of the Periodic Table of elements (except for hydrogen and boron) and at least one element selected from the group which consists of hydrogen, boron, carbon, silicon, nitrogen and phosphate or a combination of one of them with sulfur, and at least one composition reducible by the reducing composition of at least one metal selected from the group which consists of the alkaline metals and the metals of groups II and III of the Periodic Table. The mixture is of a composition within the portion of the phase diagram of the mixture corresponding to a single homogeneous liquid phase in the region of temperatures above the melting point of the alloy to be treated. The treating composition is used in the form of a homogeneous liquid or a substantially homogeneous solid which melts at contact with the alloy.Type: GrantFiled: December 16, 1974Date of Patent: August 16, 1977Assignee: Battelle Memorial InstituteInventors: Gerard Bienvenu, Claude Gentaz
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Patent number: 3994721Abstract: Zinc bearing solutions are subjected to cementation in at least one fluidized bed of zinc particles which are simultaneously subjected to transverse agitation to remove impurities precipitated on the particles.Type: GrantFiled: September 30, 1975Date of Patent: November 30, 1976Assignee: Societa Mineraria e Metallurgica di PertusolaInventors: Gerard Bienvenu, Aaron Boussiba, Gustve Fache, Luigi Donadio