ISSN 1991-2927
 

ACP № 2 (56) 2019

Author: "Anna Alekseevna Plekhanova"

Vladislav Nikolaevich Kovalnogov, Ulyanovsk State Technical University, Doctor of Engineering; Head of the Department of Heat Power Engineering of Ulyanovsk State Technical University; graduated from Kazan State University; an author of articles, monographs, and inventions in the field of simulation, research, and optimization of thermal and hydrogasdynamic processes in power installations and processing equipment. [e-mail: kvn@ulstu.ru]V. Kovalnogov,

Dmitrii Aleksandrovich Generalov, Ulyanovsk State Technical University, Senior Lecturer at the Department of Heat Power Engineering of Ulyanovsk State Technical University; an author of articles and inventions in the field of numerical modelling of hydrogasdynamic processes. [e-mail: dmgeneralov@mail.ru]D. Generalov,

Andrei Valentinovich Chukalin, Ulyanovsk State Technical University, Postgraduate Student at the Department of Heat Power Engineering of Ulyanovsk State Technical University; an author of articles and inventions in the field of numerical modelling of hydrogasdynamic processes. [e-mail: chukalin.andrej@mail.ru]A. Chukalin,

Ruslan Vladimirovich Fedorov, Ulyanovsk State Technical University, Candidate of Engineering, Associate Professor at the Department of Heat Power Engineering of Ulyanovsk State Technical University; an author of articles and inventions in the field of numerical modelling of hydrogasdynamic processes. [e-mail: r.fedorov@ulstu.ru]R. Fedorov,

Anna Alekseevna Plekhanova, Ulyanovsk State Technical University, Forth Year Student of the Thermal and Heat Engineering Course of the Power Faculty at Ulyanovsk State Technical University. [e-mail: nyutka73@mail.ru]A. Plekhanova

New Engineering Solutions Based on Mathematical Modelling of the Turbine Blade System 000_6.pdf

The article deals with a method for studying the thermal state of turbomachine blades and a numerical investigation method taking into account the phenomenon of gas-dynamic temperature stratification. The authors consider the possibility of increasing the efficiency of cooling turbine blades due to the phenomenon of gas-dynamic temperature stratification, the possibility of improving the accuracy of the calculated forecasting of the thermal state of the blades by obtaining reliable data by developing a mathematical model and a unique software and information complex for modelling.

Mathematical modelling, numerical methods, thermal protection, film cooling, software and information complex, dispersed flow.

2017_ 3

Sections: Mathematical modeling

Subjects: Mathematical modeling.


Vladislav Nikolaevich Kovalnogov, Ulyanovsk State Technical University, Doctor of Engineering, Head of the Department of Heat Power Engineering of Ulyanovsk State Technical University; graduated from Kazan State University; an author of articles, monographs, and inventions in the field of simulation, research, and optimization of thermal and hydrogas-dynamic processes in power installations and processing equipment. [e-mail: kvn@ulstu.ru]V. Kovalnogov,

Andrei Valentinovich Chukalin, Ulyanovsk State Technical University, Postgraduate Student at the Department of Heat Power Engineering of Ulyanovsk State Technical University; an author of articles and inventions in the field of numerical modelling of hydrogasdynamic processes. [e-mail: chukalin.andrej@mail.ru]A. Chukalin,

Larisa Valerevna Khakhaleva, Ulyanovsk State Technical University, Candidate of Engineering, Associate Professor at the Department of Heat Power Engineering of Ulyanovsk State Technical University; an author of articles and inventions in the field of numerical modelling of hydrogas-dynamic processes. [e-mail: larvall@mail.ru]L. Khakhaleva,

Ruslan Vladimirovich Fedorov, Ulyanovsk State Technical University, Candidate of Engineering, Associate Professor at the Department of Heat Power Engineering of Ulyanovsk State Technical University; an author of articles and inventions in the field of numerical modelling of hydrogas-dynamic processes. [e-mail: r.fedorov@ulstu.ru]R. Fedorov,

Anna Alekseevna Plekhanova, Ulyanovsk State Technical University, Third Year Student of the Thermal and Heat Engineering Course of the Power Department at Ulyanovsk State Technical University. [e-mail: nyutka73@mail.ru]A. Plekhanova

Researching the Influence of the Number of Damping Cavities on Frictional Resistance of Turbulent Flow 000_5.pdf

As a result of experimental and numerical research of turbulent flow with effects on the basis of the modified model of the Prandtl mixing length with the use of pressure pulsation analysis, the structure and resistance of turbulent flow frictional resistance were calculated. The developed model of turbulent exchange and the calculation method allow to take adequately into account the features of the metabolic processes in the presence of damping cavities and predict the frictional resistance with the help of preliminary calculation. The possibility of reduction of the frictional resistance coefficient of a turbulent flow to 35 % was experimentally set with the use of damping cavities. The generalization of the influence of the amount of damping cavities on the frictional resistance was carried out.

Damping cavities, mathematical modelling, frictional resistance, turbulent flow.

2017_ 1

Sections: Mathematical modeling

Subjects: Mathematical modeling.


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