Patents by Inventor Marco Milanese
Marco Milanese 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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Publication number: 20230348771Abstract: A heat transfer mixture is represented by the formula: 1=Vpg/Vnf+Vw/Vnf+Vpw/Vnf+Vsf/Vnf+Vbs/Vnf+Vac/Vnf+Vci/Vnf. Vnf is a volume of a nanofluid. Vpg is a volume of propylene glycol. Vw is a volume of water. Vpw is a volume of a nanopowder. Vsf is a volume of a surfactant. Vbs is a volume of a base additive. Vac is a volume of an acid additive. Vci is a volume of a corrosive inhibitor.Type: ApplicationFiled: July 11, 2023Publication date: November 2, 2023Applicant: HT MATERIALS SCIENCE (IP) LIMITEDInventors: Arturo De Risi, Francesco Micali, Marco Milanese
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Patent number: 11753570Abstract: A heat transfer mixture is represented by the formula: 1=Vpg/Vnf+Vw/Vnf+Vpw/Vnf+Vsf/Vnf+Vbs/Vnf+Vac/Vnf+Vci/Vnf. Vnf is a volume of a nanofluid. Vpg is a volume of propylene glycol. Vw is a volume of water. Vpw is a volume of a nanopowder. Vsf is a volume of a surfactant. Vbs is a volume of a base additive. Vac is a volume of an acid additive. Vci is a volume of a corrosive inhibitor.Type: GrantFiled: June 18, 2020Date of Patent: September 12, 2023Assignee: HT MATERIALS SCIENCE (IP) LIMITEDInventors: Arturo De Risi, Francesco Micali, Marco Milanese
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Patent number: 11746273Abstract: A heat transfer mixture is represented by the formula: 1=Vpg/Vnf+Vw/Vnf+Vpw/Vnf+Vsf/Vnf+Vbs/Vnf+Vac/Vnf+Vci/Vnf. Vnf is a volume of a nanofluid. Vpg is a volume of propylene glycol. Vw is a volume of water. Vpw is a volume of a nanopowder. Vsf is a volume of a surfactant. Vbs is a volume of a base additive. Vac is a volume of an acid additive. Vci is a volume of a corrosive inhibitor.Type: GrantFiled: June 18, 2020Date of Patent: September 5, 2023Assignee: HT MATERIALS SCIENCE (IP) LIMITEDInventors: Arturo De Risi, Francesco Micali, Marco Milanese
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Publication number: 20210246350Abstract: A heat transfer mixture is represented by the formula: 1=Vpg/Vnf+Vw/Vnf+Vpw/Vnf+Vsf/Vnf+Vbs/Vnf+Vac/Vnf+Vci/Vnf. Vnf is a volume of a nanofluid. Vpg is a volume of propylene glycol. Vw is a volume of water. Vpw is a volume of a nanopowder. Vsf is a volume of a surfactant. Vbs is a volume of a base additive. Vac is a volume of an acid additive. Vci is a volume of a corrosive inhibitor.Type: ApplicationFiled: March 18, 2021Publication date: August 12, 2021Applicant: HT MATERIALS SCIENCE (IP) LIMITEDInventors: Arturo DE RISI, Francesco MICALI, Marco MILANESE
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Publication number: 20210222041Abstract: A heat transfer mixture is represented by the formula: 1=Vpg/Vnf+Vw/Vnf+Vpw/Vnf+Vsf/Vnf+Vbs/Vnf+Vac/Vnf+Vci/Vnf. Vnf is a volume of a nanofluid. Vpg is a volume of propylene glycol. Vw is a volume of water. Vpw is a volume of a nanopowder. Vsf is a volume of a surfactant. Vbs is a volume of a base additive. Vac is a volume of an acid additive. Vci is a volume of a corrosive inhibitor.Type: ApplicationFiled: March 18, 2021Publication date: July 22, 2021Applicant: HT MATERIALS SCIENCE (IP) LIMITEDInventors: Arturo De Risi, Francesco Micali, Marco Milanese
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Publication number: 20210087449Abstract: A heat transfer mixture is represented by the formula: 1=Vpg/Vnf+Vw/Vnf+Vpw/Vnf+Vsf/Vnf+Vbs/Vnf+Vac/Vnf+Vci/Vnf. Vnf is a volume of a nanofluid. Vpg is a volume of propylene glycol. Vw is a volume of water. Vpw is a volume of a nanopowder. Vsf is a volume of a surfactant. Vbs is a volume of a base additive. Vac is a volume of an acid additive. Vci is a volume of a corrosive inhibitor.Type: ApplicationFiled: June 18, 2020Publication date: March 25, 2021Applicant: HT MATERIALS SCIENCE (IP) LIMITEDInventors: Arturo DE RISI, Francesco MICALI, Marco MILANESE
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Publication number: 20210087448Abstract: A heat transfer mixture is represented by the formula: 1=Vpg/Vnf+Vw/Vnf+Vpw/Vnf+Vsf/Vnf+Vbs/Vnf+Vac/Vnf+Vci/Vnf. Vnf is a volume of a nanofluid. Vpg is a volume of propylene glycol. Vw is a volume of water. Vpw is a volume of a nanopowder. Vsf is a volume of a surfactant. Vbs is a volume of a base additive. Vac is a volume of an acid additive. Vci is a volume of a corrosive inhibitor.Type: ApplicationFiled: June 18, 2020Publication date: March 25, 2021Applicant: HT MATERIAL SCIENCE (IP) LIMITEDInventors: Arturo DE RISI, Francesco Micali, Marco Milanese
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Patent number: 10723927Abstract: A heat transfer mixture is represented by the formula: 1=Vpg/Vnf+Vw/Vnf+Vpw/Vnf+Vsf/Vnf+Vbs/Vnf+Vac/Vnf+Vci/Vnf. Vnf is a volume of a nanofluid. Vpg is a volume of propylene glycol. Vw is a volume of water. Vpw is a volume of a nanopowder. Vsf is a volume of a surfactant. Vbs is a volume of a base additive. Vac is a volume of an acid additive. Vci is a volume of a corrosive inhibitor.Type: GrantFiled: September 20, 2019Date of Patent: July 28, 2020Assignee: HT MATERIALS SCIENCE (IP) LIMITEDInventors: Arturo De Risi, Francesco Micali, Marco Milanese
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Patent number: 10723928Abstract: A heat transfer mixture is represented by the formula: 1=Vpg/Vnf+Vw/Vnf+Vpw/Vnf+Vsf/Vnf+Vbs/Vnf+Vac/Vnf+Vci/Vnf. Vnf is a volume of a nanofluid. Vpg is a volume of propylene glycol. Vw is a volume of water. Vpw is a volume of a nanopowder. Vsf is a volume of a surfactant. Vbs is a volume of a base additive. Vac is a volume of an acid additive. Vci is a volume of a corrosive inhibitor.Type: GrantFiled: September 20, 2019Date of Patent: July 28, 2020Assignee: HT MATERIALS SCIENCE (IP) LIMITEDInventors: Arturo De Risi, Francesco Micali, Marco Milanese
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Publication number: 20140130791Abstract: Solar concentration system with thermo-vector fluid made up of gas-based nanofluids and with suitably shaped receiver element of the solar radiation.Type: ApplicationFiled: July 10, 2012Publication date: May 15, 2014Applicant: Universita' del Salento - Dipartimento di Ingegneria dell'InnovazioneInventors: Arturo De Risi, Marco Milanese, Gianpiero Colangelo, Domenico Laforgia