Patents by Inventor Katsuya OGIHARA
Katsuya OGIHARA 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: 11612869Abstract: To prevent solidified aluminum chloride from adhering to and accumulating on a pipe and also prevent stress-corrosion cracking in the pipe, a method for producing trichlorosilane includes a cooling step of cooling a discharge gas that is discharged from a fluidized-bed reactor and that contains the trichlorosilane, the cooling step involving causing a fluid to flow through a space (4) inside a side wall (3) of a pipe (10), the pipe being a pipe for discharging the discharge gas from the fluidized-bed reactor, in such a manner that the side wall (3) has a surface (1a) having a temperature of not lower than 110° C.Type: GrantFiled: November 16, 2018Date of Patent: March 28, 2023Assignee: TOKUYAMA CORPORATIONInventors: Kenji Hirota, Katsuya Ogihara
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Publication number: 20220162079Abstract: Provided is a method for stably conducting a process for producing chlorosilanes by a chlorination reaction of metallic silicon. When producing chlorosilanes by the chlorination reaction of the metallic silicon, metallic silicon having a sodium content of 1 ppm or more and 90 ppm or less in terms of element and an aluminum content of 1000 ppm or more and 4000 ppm or less in terms of element is used as the metallic silicon. An average particle diameter of the metallic silicon is preferably about 150 ?m to 400 ?m.Type: ApplicationFiled: February 26, 2020Publication date: May 26, 2022Applicant: Tokuyama CorporationInventors: Katsuya Ogihara, Shoji Iiyama, Kunihiko Matsumura
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Publication number: 20220064009Abstract: When producing chlorosilanes by a reaction between metallic silicon and hydrogen chloride, as the above metallic silicon, a metallic silicon powder having an oil adhering amount of 5 ppmw or less is subjected to the reaction as the metallic silicon.Type: ApplicationFiled: December 20, 2019Publication date: March 3, 2022Applicant: Tokuyama CorporationInventors: Katsuya Ogihara, Shoji Iiyama, Kunihiko Matsumura
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Patent number: 11241666Abstract: An object of the present invention is to prevent stress-corrosion cracking of a header (40) of a reactor. A reactor for producing trichlorosilane by causing metal silicon powder and a hydrogen chloride gas to react with each other includes a cooler (70), the cooler including a plurality of heat transfer medium pipes (30) and a header (40), the plurality of heat transfer medium pipes being provided in a fluid bed (60) inside the reactor, the header being provided in a freeboard section (50) inside the reactor, the header being comprised of a corrosion-resistant material.Type: GrantFiled: November 16, 2018Date of Patent: February 8, 2022Assignee: TOKUYAMA CORPORATIONInventors: Kenji Hirota, Katsuya Ogihara
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Patent number: 11071961Abstract: To provide a fluidized-bed reaction vessel and a trichlorosilane production method each of which can reduce corrosion and wear of a reaction container inner wall, a fluidized-bed reaction vessel causes metallurgical grade silicon powder and hydrogen chloride gas to react with each other for production of trichlorosilane. The fluidized-bed reaction vessel includes a plurality of ejection nozzles (20) standing on a distributor plate (11) as a bottom surface of a container body. The ejection nozzles (20) each have a gas ejection opening (22a) configured to allow hydrogen chloride gas to be ejected sideways. The plurality of ejection nozzles (20) include a first ejection nozzle (20a) adjacent to an outer wall (10a) of the container body, the first ejection nozzle (20a) having a gas ejection opening (22a) in such a pattern as to prevent hydrogen chloride gas from being ejected toward the outer wall (10a).Type: GrantFiled: November 16, 2018Date of Patent: July 27, 2021Assignee: TOKUYAMA CORPORATIONInventors: Kenji Hirota, Katsuya Ogihara
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Patent number: 11007499Abstract: A fluidized-bed reactor (1A) includes a reaction vessel (10A) configured to contain metallurgical grade silicon powder and a hydrogen chloride gas, and a portion of a side wall (w) which portion extends along at least 80% of a height extending from a gas feed opening (21), which is provided in a lower part of the reaction vessel (10A), to a top face of a fluid bed (40) has such a tapered shape that a cross section of the reaction vessel (10A) which cross section is taken perpendicular to a height direction of the reaction vessel (10A) increases in area in an upward direction.Type: GrantFiled: November 16, 2018Date of Patent: May 18, 2021Assignee: TOKUYAMA CORPORATIONInventors: Kenji Hirota, Katsuya Ogihara
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Patent number: 10933396Abstract: Provided is a fluidized bed reactor (1) that makes it possible to stably measure a temperature distribution in the fluidized bed reactor (1) while no damage is caused to a temperature measuring section. Provided is a fluidized bed reactor (1) configured to generate trichlorosilane by reacting metallurgical grade silicon powder and hydrogen chloride gas, the fluidized bed reactor (1) including: a reaction vessel (10); and a plurality of temperature measuring sections (50), provided on an outer surface of the reaction vessel (10), each for measuring a temperature inside the reaction vessel (10).Type: GrantFiled: November 16, 2018Date of Patent: March 2, 2021Assignee: TOKUYAMA CORPORATIONInventors: Kenji Hirota, Katsuya Ogihara
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Publication number: 20200368705Abstract: To prevent solidified aluminum chloride from adhering to and accumulating on a pipe and also prevent stress-corrosion cracking in the pipe, a method for producing trichlorosilane includes a cooling step of cooling a discharge gas that is discharged from a fluidized-bed reactor and that contains the trichlorosilane, the cooling step involving causing a fluid to flow through a space (4) inside a side wall (3) of a pipe (10), the pipe being a pipe for discharging the discharge gas from the fluidized-bed reactor, in such a manner that the side wall (3) has a surface (1a) having a temperature of not lower than 110° C.Type: ApplicationFiled: November 16, 2018Publication date: November 26, 2020Inventors: Kenji HIROTA, Katsuya OGIHARA
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Publication number: 20200353435Abstract: To provide a fluidized-bed reaction vessel and a trichlorosilane production method each of which can reduce corrosion and wear of a reaction container inner wall, a fluidized-bed reaction vessel causes metallurgical grade silicon powder and hydrogen chloride gas to react with each other for production of trichlorosilane. The fluidized-bed reaction vessel includes a plurality of ejection nozzles (20) standing on a distributor plate (11) as a bottom surface of a container body. The ejection nozzles (20) each have a gas ejection opening (22a) configured to allow hydrogen chloride gas to be ejected sideways. The plurality of ejection nozzles (20) include a first ejection nozzle (20a) adjacent to an outer wall (10a) of the container body, the first ejection nozzle (20a) having a gas ejection opening (22a) in such a pattern as to prevent hydrogen chloride gas from being ejected toward the outer wall (10a).Type: ApplicationFiled: November 16, 2018Publication date: November 12, 2020Inventors: Kenji HIROTA, Katsuya OGIHARA
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Publication number: 20200339427Abstract: A production method is a method for producing trichlorosilane, the method including opening and closing, with use of a non-sliding valve (b1 to b4), an entry channel (f1), an exit channel (f2), a discharge channel (f31), and a discharge channel (f32) through each of which metallurgical grade silicon powder flows in a system for producing the trichlorosilane, the non-sliding valve including a valve body capable of being rotated without coming into contact with a valve seat.Type: ApplicationFiled: November 16, 2018Publication date: October 29, 2020Inventors: Kenji HIROTA, Katsuya OGIHARA
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Publication number: 20200306713Abstract: Provided is a fluidized bed reactor (1) that makes it possible to stably measure a temperature distribution in the fluidized bed reactor (1) while no damage is caused to a temperature measuring section. Provided is a fluidized bed reactor (1) configured to generate trichlorosilane by reacting metallurgical grade silicon powder and hydrogen chloride gas, the fluidized bed reactor (1) including: a reaction vessel (10); and a plurality of temperature measuring sections (50), provided on an outer surface of the reaction vessel (10), each for measuring a temperature inside the reaction vessel (10).Type: ApplicationFiled: November 16, 2018Publication date: October 1, 2020Inventors: Kenji HIROTA, Katsuya OGIHARA
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Publication number: 20200306714Abstract: An object of the present invention is to prevent stress-corrosion cracking of a header (40) of a reactor. A reactor for producing trichlorosilane by causing metal silicon powder and a hydrogen chloride gas to react with each other includes a cooler (70), the cooler including a plurality of heat transfer medium pipes (30) and a header (40), the plurality of heat transfer medium pipes being provided in a fluid bed (60) inside the reactor, the header being provided in a freeboard section (50) inside the reactor, the header being comprised of a corrosion-resistant material.Type: ApplicationFiled: November 16, 2018Publication date: October 1, 2020Inventors: Kenji HIROTA, Katsuya OGIHARA
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Publication number: 20200276552Abstract: A fluidized-bed reactor (1A) includes a reaction vessel (10A) configured to contain metallurgical grade silicon powder and a hydrogen chloride gas, and a portion of a side wall (w) which portion extends along at least 80% of a height extending from a gas feed opening (21), which is provided in a lower part of the reaction vessel (10A), to a top face of a fluid bed (40) has such a tapered shape that a cross section of the reaction vessel (10A) which cross section is taken perpendicular to a height direction of the reaction vessel (10A) increases in area in an upward direction.Type: ApplicationFiled: November 16, 2018Publication date: September 3, 2020Inventors: Kenji HIROTA, Katsuya OGIHARA
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Publication number: 20200277197Abstract: An object is to prevent corrosion and stress-corrosion cracking that would be caused by hydrochloric acid which would be formed at or near a filter element (80). A trichlorosilane production apparatus (1) includes: a reactor (2) configured to produce trichlorosilane; and a filter device (3) configured to remove a reaction residue, the filter device (3) including a filter element that is comprised of a corrosion-resistant material.Type: ApplicationFiled: November 16, 2018Publication date: September 3, 2020Inventors: Kenji HIROTA, Katsuya OGIHARA