Patents by Inventor Valeri Mourachko
Valeri Mourachko 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: 11238187Abstract: A method to model a complex system of pipes. The model takes into account the physical processes in a tree-type piping system and provides for an accurate modeling of a real world tree-type piping system. In a preferred embodiment, a computer program is provided for analyzing models of dry pipe systems. The computer program includes a user interface and a computational engine. The user interface allows a model of a dry pipe system to be defined and the computational engine determines a liquid flow time through the model of the dry pipe system. The computational engine provides a verification of the liquid flow time in a model of a referential dry pipe system within 20% of an actual liquid flow time in the referential dry pipe system.Type: GrantFiled: August 8, 2019Date of Patent: February 1, 2022Assignee: Tyco Fire Products LPInventors: Alexander Nikolayev, James E. Golinveaux, Michael Flax, Vitaly Kabashnikov, Michael Mahomet, Valeri Mourachko, Leonid Nikolaychik, Thomas Prymak, Valery Popov, Andrey Bril, Valery Babenko, Valery Sosinovich
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Publication number: 20190362030Abstract: A method to model a complex system of pipes. The model takes into account the physical processes in a tree-type piping system and provides for an accurate modeling of a real world tree-type piping system. In a preferred embodiment, a computer program is provided for analyzing models of dry pipe systems. The computer program includes a user interface and a computational engine. The user interface allows a model of a dry pipe system to be defined and the computational engine determines a liquid flow time through the model of the dry pipe system. The computational engine provides a verification of the liquid flow time in a model of a referential dry pipe system within 20% of an actual liquid flow time in the referential dry pipe system.Type: ApplicationFiled: August 8, 2019Publication date: November 28, 2019Applicant: Tyco Fire Products LPInventors: Alexander Nikolayev, James E. Golinveaux, Michael Flax, Vitaly Kabashnikov, Michael Mahomet, Valeri Mourachko, Leonid Nikolaychik, Thomas Prymak, Valery Popov, Andrey Bril, Valery Babenko, Valery Sosinovich
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Patent number: 8725457Abstract: A method to model a complex system of pipes. The model takes into account the physical processes in a tree-type piping system and provides for an accurate modeling of a real world tree-type piping system. In a preferred embodiment, a computer program is provided for analyzing models of dry pipe systems. The computer program includes a user interface and a computational engine. The user interface allows a model of a dry pipe system to be defined and the computational engine determines a liquid flow time through the model of the dry pipe system. The computational engine provides a verification of the liquid flow time in a model of a referential dry pipe system within 20% of an actual liquid flow time in the referential dry pipe system.Type: GrantFiled: October 2, 2009Date of Patent: May 13, 2014Assignee: Tyco Fire Products LPInventors: Alexander Nikolayev, James E. Golinveaux, Michael Flax, Vitaly Kabashnikov, Michael Mahomet, Valeri Mourachko, Leonid Nikolaychik, Thomas Prymak, Valery Popov, Andrey Bril, Valery Babenko, Wisdom Zoya-Sosinovich
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Patent number: 8612189Abstract: A method of and a computer program for analyzing models of dry pipe systems. The computer program includes a user interface and a model generator in communication with the user interface. The method and computer program provide for modeling a referential dry pipe system as a plurality of interconnected nodes, the nodes corresponding to a pipe connector, the interconnection between the nodes corresponding to a pipe device. The plurality of nodes can define a dry portion and a wet portion with the wet portion including a liquid source and the dry portion including a plurality of interconnected pipes to define a volume of gas. The nodes in the dry portion can define a set of nodal devices open to ambient. The method and computer program can provide for computing fluid time based parameters to simulate the liquid flowing from the wet portion to determine at least flow time of the liquid from the wet portion to the open devices.Type: GrantFiled: October 3, 2006Date of Patent: December 17, 2013Assignee: Tyco Fire Products LPInventors: James E. Golinveaux, Vitaly Kabashnikov, Michael Mahomet, Valeri Mourachko, Leonid Nikolaychik, Alexander Nikolayev, Thomas Prymak, Valery Popov, Andrey Bril, Valery Babenko
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Publication number: 20130246011Abstract: A method to model a complex system of pipes. The model takes into account the physical processes in a tree-type piping system and provides for an accurate modeling of a real world tree-type piping system. In a preferred embodiment, a computer program is provided for analyzing models of dry pipe systems. The computer program includes a user interface and a computational engine. The user interface allows a model of a dry pipe system to be defined and the computational engine determines a liquid flow time through the model of the dry pipe system. The computational engine provides a verification of the liquid flow time in a model of a referential dry pipe system within 20% of an actual liquid flow time in the referential dry pipe system.Type: ApplicationFiled: December 20, 2012Publication date: September 19, 2013Applicant: TYCO FIRE PRODUCTS LPInventors: Alexander NIKOLAYEV, James E. Golinveaux, Michael Flax, Vitaly Kabashnikov, Michael Mahomet, Valeri Mourachko, Leonid Nikolaychik, Thomas Prymak, Valery Popov, Andrey Bril, Valery Babenko, Valery Sosinovich
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Patent number: 8065110Abstract: A method to model a complex system of pipes. The model takes into account the physical processes in a tree-type piping system and provides for an accurate modeling of a real world tree-type piping system. In a preferred embodiment, a computer program is provided for analyzing models of dry pipe systems. The computer program includes a user interface and a computational engine. The user interface allows a model of a dry pipe system to be defined and the computational engine determines a liquid flow time through the model of the dry pipe system. The computational engine provides a verification of the liquid flow time in a model of a referential dry pipe system within 20% of an actual liquid flow time in the referential dry pipe system.Type: GrantFiled: September 17, 2004Date of Patent: November 22, 2011Assignee: Tyco Fire Products LPInventors: James E. Golinveaux, Alexander Nikolayev, Michael Flax, Vitaly Kabashnikov, Michael Mahomet, Valeri Mourachko, Leonid Nikolaychik, Thomas Prymak, Valery Popov, Andrey Bril, Valery Babenko, Valery Sosinovich, Wisdom Zoya-Sosinovich, legal representative
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Publication number: 20100299122Abstract: A method of and a computer program for analyzing models of dry pipe systems. The computer program includes a user interface and a model generator in communication with the user interface. The method and computer program provide for modeling a referential dry pipe system as a plurality of interconnected nodes, the nodes corresponding to a pipe connector, the interconnection between the nodes corresponding to a pipe device. The plurality of nodes can define a dry portion and a wet portion with the wet portion including a liquid source and the dry portion including a plurality of interconnected pipes to define a volume of gas. The nodes in the dry portion can define a set of nodal devices open to ambient. The method and computer program can provide for computing fluid time based parameters to simulate the liquid flowing from the wet portion to determine at least flow time of the liquid from the wet portion to the open devices.Type: ApplicationFiled: October 3, 2006Publication date: November 25, 2010Applicant: Tyco Fire Products LPInventors: James E. Golinveaux, Vitaly Kabashnikov, Michael Mahomet, Valeri Mourachko, Leonid Nikolaychik, Alexander Nikolayev, Thomas Prymak, Valery Popov, Andrey Bril, Valery Babenko
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Publication number: 20100174516Abstract: A method to model a complex system of pipes. The model takes into account the physical processes in a tree-type piping system and provides for an accurate modeling of a real world tree-type piping system. In a preferred embodiment, a computer program is provided for analyzing models of dry pipe systems. The computer program includes a user interface and a computational engine. The user interface allows a model of a dry pipe system to be defined and the computational engine determines a liquid flow time through the model of the dry pipe system. The computational engine provides a verification of the liquid flow time in a model of a referential dry pipe system within 20% of an actual liquid flow time in the referential dry pipe system.Type: ApplicationFiled: October 2, 2009Publication date: July 8, 2010Applicant: TYCO FIRE PRODUCTS LPInventors: Alexander NIKOLAYEV, James E. Golinveaux, Michael Flax, Vitaly Kabashnikov, Michael Mahomet, Valeri Mourachko, Leonid Nikolaychik, Thomas Prymak, Valery Popov, Andrey Bril, Valery Babenko, Valery Sosinovich, Wisdom Zoya-Sosinovich
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Publication number: 20050216242Abstract: A method to model a complex system of pipes. The model takes into account the physical processes in a tree-type piping system and provides for an accurate modeling of a real world tree-type piping system. In a preferred embodiment, a computer program is provided for analyzing models of dry pipe systems. The computer program includes a user interface and a computational engine. The user interface allows a model of a dry pipe system to be defined and the computational engine determines a liquid flow time through the model of the dry pipe system. The computational engine provides a verification of the liquid flow time in a model of a referential dry pipe system within 20% of an actual liquid flow time in the referential dry pipe system.Type: ApplicationFiled: September 17, 2004Publication date: September 29, 2005Inventors: Michael Flax, James Golinveaux, Vitaly Kabashnikov, Michael Mahomet, Valeri Mourachko, Leonid Nikolaychik, Alexander Nikolayev, Thomas Prymak, Valery Popov, Andrey Bril, Valery Babenko, Valery Sosinovich