Patents by Inventor Yasuyuki Moriki
Yasuyuki Moriki 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: 8126105Abstract: A fast reactor having a reflector control system is provided which decreases the change in reactivity of the reactor core with time without performing control of a reflector lifting speed and that of a water flow rate. The above fast reactor has a liquid metal coolant, a reactor core immersed therein, and a neutron reflector which is provided outside the reactor core and which is moved in a vertical direction for adjusting leakage of neutrons therefrom for controlling the reactivity of the reactor core. The neutron reflector described above is gradually moved in an upward direction with the change in reactivity caused by fuel burn-up, and at least a part of a lower region of the neutron reflector is a high reflection region having a high neutron reflection ability as compared to that of the other region. The high reflection region is located from the bottom to a place between one fourth and one half of the height of the neutron reflector from the bottom end thereof.Type: GrantFiled: November 19, 2010Date of Patent: February 28, 2012Assignee: Kabushiki Kaisha ToshibaInventors: Tsugio Yokoyama, Mitsuaki Yamaoka, Yasuyuki Moriki, Ryoma Kato, Yasushi Tsuboi, Atsuko Matsuda
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Publication number: 20110103535Abstract: A fast reactor having a reflector control system is provided which decreases the change in reactivity of the reactor core with time without performing control of a reflector lifting speed and that of a water flow rate. The above fast reactor has a liquid metal coolant, a reactor core immersed therein, and a neutron reflector which is provided outside the reactor core and which is moved in a vertical direction for adjusting leakage of neutrons therefrom for controlling the reactivity of the reactor core. The neutron reflector described above is gradually moved in an upward direction with the change in reactivity caused by fuel burn-up, and at least a part of a lower region of the neutron reflector is a high reflection region having a high neutron reflection ability as compared to that of the other region. The high reflection region is located from the bottom to a place between one fourth and one half of the height of the neutron reflector from the bottom end thereof.Type: ApplicationFiled: November 19, 2010Publication date: May 5, 2011Applicant: KABUSHIKI KAISHA TOSHIBAInventors: Tsugio YOKOYAMA, Mitsuaki Yamaoka, Yasuyuki Moriki, Ryoma Kato, Yasushi Tsuboi, Atsuko Matsuda
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Patent number: 7864913Abstract: A fast reactor having a reflector control system is provided which decreases the change in reactivity of the reactor core with time without controlling a reflector lifting speed and a water flow rate. The fast reactor has a neutron reflector provided outside the reactor core and which is moved in a vertical direction for adjusting neutron leakage to control the reactivity of the reactor core. The neutron reflector is moved in an upward direction with the change in reactivity caused by fuel burn-up. At least a part of a lower region of the neutron reflector may be a region having a high neutron reflection ability as compared to that of the other region. The high reflection region is located at the bottom of the neutron reflector and extends from between one fourth and one half of the height of the neutron reflector.Type: GrantFiled: February 18, 2005Date of Patent: January 4, 2011Assignee: Kabushiki Kaisha ToshibaInventors: Tsugio Yokoyama, Mitsuaki Yamaoka, Yasuyuki Moriki, Ryoma Kato, Yasushi Tsuboi, Atsuko Matsuda
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Publication number: 20100239060Abstract: In a reflector-controlled fast reactor in which neutron reflectors disposed outside a rector core, immersed in a primary coolant, are moved vertically to thereby adjust leakage of neutrons from the reactor core and control reactivity of the rector core, a region, which is located around the reactor core and in which the neutron reflectors move, is surrounded by a material inferior to the primary coolant in terms of neutron reflection capability.Type: ApplicationFiled: September 19, 2008Publication date: September 23, 2010Applicant: Kabushiki Kaisha ToshibaInventors: Hideki Horie, Yasuyuki Moriki, Kenji Igarashi
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Patent number: 7773716Abstract: A fast reactor having a reflector control system is provided which decreases the change in reactivity of the reactor core with time without controlling reflector lifting speed and a water flow rate. The reactor has a liquid metal coolant, a reactor core immersed therein, and a neutron reflector provided outside the core and is moved in a vertical direction for adjusting leakage of neutrons therefrom for controlling the reactivity of the core. The reflector described above is gradually moved in an upward direction with the change in reactivity caused by fuel burn-up, and at least a part of a lower region of the reflector is a high reflection region having a high neutron reflection ability as compared to that of the other region. The high reflection region is located between the bottom and one fourth and one half of the height of the neutron reflector.Type: GrantFiled: July 2, 2008Date of Patent: August 10, 2010Assignee: Kabushiki Kaisha ToshibaInventors: Tsugio Yokoyama, Mitsuaki Yamaoka, Yasuyuki Moriki, Ryoma Kato, Yasushi Tsuboi, Atsuko Matsuda
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Publication number: 20080273650Abstract: A fast reactor having a reflector control system is provided which decreases the change in reactivity of the reactor core with time without performing control of a reflector lifting speed and that of a water flow rate. The above fast reactor has a liquid metal coolant, a reactor core immersed therein, and a neutron reflector which is provided outside the reactor core and which is moved in a vertical direction for adjusting leakage of neutrons therefrom for controlling the reactivity of the reactor core. The neutron reflector described above is gradually moved in an upward direction with the change in reactivity caused by fuel burn-up, and at least a part of a lower region of the neutron reflector is a high reflection region having a high neutron reflection ability as compared to that of the other region. The high reflection region is located from the bottom to a place between one fourth and one half of the height of the neutron reflector from the bottom end thereof.Type: ApplicationFiled: July 2, 2008Publication date: November 6, 2008Applicant: KABUSHIKI KAISHA TOSHIBAInventors: Tsugio Yokoyama, Mitsuaki Yamaoka, Yasuyuki Moriki, Ryoma Kato, Yasushi Tsuboi, Atsuko Matsuda
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Publication number: 20050220251Abstract: A fast reactor having a reflector control system is provided which decreases the change in reactivity of the reactor core with time without performing control of a reflector lifting speed and that of a water flow rate. The above fast reactor has a liquid metal coolant, a reactor core immersed therein, and a neutron reflector which is provided outside the reactor core and which is moved in a vertical direction for adjusting leakage of neutrons therefrom for controlling the reactivity of the reactor core. The neutron reflector described above is gradually moved in an upward direction with the change in reactivity caused by fuel burn-up, and at least a part of a lower region of the neutron reflector is a high reflection region having a high neutron reflection ability as compared to that of the other region. The high reflection region is located from the bottom to a place between one fourth and one half of the height of the neutron reflector from the bottom end thereof.Type: ApplicationFiled: February 18, 2005Publication date: October 6, 2005Applicant: KABUSHIKI KAISHA TOSHIBAInventors: Tsugio Yokoyama, Mitsuaki Yamaoka, Yasuyuki Moriki, Ryoma Kato, Yasushi Tsuboi, Atsuko Matsuda