Igor Kobzar scite author profile

Igor Kobzar

5Publications

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Energostal (Ukraine)

Publications

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Dynamics and Strength of Housings and Supporting Elements of Hydrogenerator Design

Kobzar¹,

Poliienko²,

Gnytko³

et al. 2021

NTU "KhPI" Bulletin

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The basic designs of Hydrogenerators are considered in the presented scientific work. It is shown that one of the most loaded units of Hydrogenerator is the thrust bearing. The analysis of the causes of emergencies in the thrust bearing unit of the high power Hydrogenerator is performed based on the experience of operation. Cause-and-effect relations of origin and development of defects are determined. Existing methods of calculation of the stressed state of the chambers of the thrust bearing unit in the classical formulation for the stationary mode of operation are considered. The main features of the thrust bearing unit operation with respect to the features of the sliding supports were studied. An updated Diagram of the sliding supports loading is presented. For the first time, the calculation of the elastic chambers of the thrust bearing was performed in three-dimensional formulation taking into account the physical properties of the oil, the material of the chambers and the unevenness of the existing loads. It is shown that the applied designs of SE “Рlant “Electrotyazhmash” can be used in high power Hydrogenerators in the entire range of operational loads without restrictions.

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Studying and Analysis of the Thermally Stressed State of the Hydrogenerator Stator Casings by Methods of Mathematical Modeling

Kobzar¹,

Poliienko

Gnytko

et al. 2021

EJT

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Modeling of the Stress–Strain of the Suspensions of the Stators of High-Power Turbogenerators

et al. 2022

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In the submitted scientific work, the existing types of stator fastening design of turbogenerators and the main causes of the stressed state of the stator suspensions are considered. A detailed calculation of the complex stressed state of the turbogenerator stator suspension was carried out for a number of electrical sheet steels, taking into consideration the unevenness of the heat distribution along the horizontal axis of the unit. It is proposed that the calculation of the mechanical stress is carried out by means of the mechanical and thermal calculation, coordinated with the electrical one. The possibility of replacing steel 38Х2Н2ВА with steel 34CrNiMo6 and 40NiCrMo7 is indicated, subject to compliance with GOST 8479-70 for the same strength group.

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Methodology for calculating hydrogenerators in strength problemsMethodology for Calculating Hydrogenerators in Strength Problems

Kobzar¹

2023

NTU "KhPI" Bulletin

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In the presented scientific work, the basic design versions of the thrust bearings of Hydrogenerators are considered. The main causes of emergencies in the thrust bearing unit of a high-power Hydrogenerator are considered. The main requirements for the operation of thrust bearings are submitted. Cause-and-effect relationships of emerging and development of defects are established. Existing methods for calculating the stressed state of a thrust bearing in the classical formulation for a stationary mode of operation are considered. The main features of the operation of the thrust bearing unit are investigated in relation to the features of the sliding bearings. The calculation of the elastic chambers of the hydraulic thrust bearing in a three-dimensional formulation is carried out, taking into account the physical properties of the oil, the material of the chambers and distribution of the acting loads. It is shown that the applied designs of Join Stock Company “Ukrainian Energy Machines” can be used in high-power Hydrogenerators.

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Finite Element Analysis of High Load Thrust Bearings

Kobzar¹,

Gakal

Poliienko

et al. 2021

EJT

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Igor Kobzar

Dynamics and Strength of Housings and Supporting Elements of Hydrogenerator Design

Studying and Analysis of the Thermally Stressed State of the Hydrogenerator Stator Casings by Methods of Mathematical Modeling

Modeling of the Stress–Strain of the Suspensions of the Stators of High-Power Turbogenerators

Methodology for calculating hydrogenerators in strength problemsMethodology for Calculating Hydrogenerators in Strength Problems

Finite Element Analysis of High Load Thrust Bearings

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