Кафедра "Загальна електротехніка"
Постійне посилання колекціїhttps://repository.kpi.kharkov.ua/handle/KhPI-Press/2838
Офіційний сайт кафедри http://web.kpi.kharkov.ua/ze
Кафедра "Загальна електротехніка" заснована в 1931 році на базі електротехнічного факультету.
Курс електротехніки як самостійної дисципліни першим почав читати Клобуков Микола Петрович ще в 1892 році. Першим завідувачем кафедри був професор Копняєв Павло Петрович.
Кафедра входить до складу Навчально-наукового інституту енергетики, електроніки та електромеханіки Національного технічного університету "Харківський політехнічний інститут" .
У складі науково-педагогічного колективу кафедри працюють: 2 доктора технічних наук, 5 кандидатів технічних наук; 2 співробітника мають звання професора, 3 – доцента.
Переглянути
Документ Axial coil accelerator of plasma ring in the atmospheric pressure air(National Science Center "Kharkov Institute of Physics and Technology", 2019) Korytchenko, K. V.; Bolyukh, V. F.; Rezinkin, O. L.; Burjakovskij, S. G.; Mesenko, O. P.An axial coil accelerator for acceleration of plasma formation having intrinsic magnetic field in the atmosphere is designed. A problem of a round plasma formation in the atmospheric pressure air is solved by electrical wire explosion where an initial form of an exploding wire corresponded to a ring. A vortex current into the created plasma ring is inducted by the coil accelerator to generate intrinsic magnetic field of the plasma formation. This process is synchronized with reduction in the magnetic coupling between the plasma formation and the accelerator coil during the acceleration.Документ A ballistic laser gravimeter for a symmetrical measurement method with the inductive-dynamic catapult and auto-seismic vibration preventing(State Research Center of the Russian Federation, 2016) Bolyukh, V. F.; Omelchenko, A.; Vinnichenko, A. I.A ballistic laser gravimeter (BLG) with a symmetrical measurement method of the gravity acceleration (GA) is considered. Special treatment is given to the problem of eliminating the measurement error due throw of the catapult when it speeds up the test body (TB). It is possible to decrease the indicated errors thanks to the use of the induction and dynamic catapult. However, a short-term boost catapult generates vibrations of the basement (i.e. a pillar) and the mechanical elements of the gravimeter, what causes auto-seismic (i.e. recoil-related) component of the measurement error. To reduce them it is proposed to launch the TB with the help of a massive platform, installed on a light spring. It is shown, that the considered BLG can provide auto-seismic component of the measurement error of less than 1 μGal. With the reduction of the light spring constant the auto-seismic component of GA measurement uncertainty is reduced. The value of this measurement error can be reduced by the use of damping in the system of BG protection from auto-seismic fluctuations. A concept of BLG with induction-dynamic catapult for symmetric method of gravitational acceleration measuring is presented. The concept is based on using electromagnetic compensator of stiffness.Документ Comparative analysis of constructive types of combined linear pulmonary electromechanical converters(Симфонія форте, 2018) Bolyukh, V. F.; Kocherga, O. I.Документ Concept of an induction-dynamic catapult for a ballistic laser gravimeter(Springer Science+Business Media New York, 2014) Bolyukh, V. F.; Vinnichenko, A. I.A design is proposed for an inductive-dynamic catapult in a ballistic laser gravimeter with a fixed inductor and an electrically conducting armature that moves together with the test object along a vertical axis. The catapult ensures improved accuracy of the gravimeter through direct conversion of electrical into kinetic energy. The electrical circuit of the catapult provides two successive current pulses to the inductor for launching and braking of the armature during the operating cycle.Документ Effect of electric conducting element on indicators of linear pulse electromechanical converter induction type(Інститут електродинаміки НАН України, 2020) Bolyukh, V. F.The purpose of the article is to study the influence of geometric parameters and the location of a coaxially located electrically conductive element (ECE), made in the form of a thin-walled disk, ring or hollow cylinder, on the characteristics and performance of an induction-type linear pulse electromechanical converter (LPEC). A mathematical model has been developed that describes the electromechanical and thermal processes in an induction-type LPEC using the concentrated parameters of active elements. It is shown that the ECE, coaxially mounted near the inductor winding, has a negative effect on the performance of the LPEC. The smallest value of the converter efficiency of 6.1% occurs when ECE is used in the form of a thin copper disk 0.5 mm high, in which the radial dimensions are similar to the sizes of the windings of the inductor and the armature installed at a minimum distance from the inductor. Moreover, the temperature rise of the electrically conductive element is maximum and equal to 51°С. With an increase in the thickness of the ECE and with its removal from the inductor, the efficiency of the LPEC increases, and the excess of the temperature of the ECE decreases. When removing a disk ECE with a height of 1.0 mm at a distance of 10 mm from the inductor, the efficiency of the LPEC is 12.6%, and the excess of the ECE temperature is 6 °C.Документ Effect of self-seismic oscillations of the foundation on the readout of a ballistic gravimeter with an induction-dynamic catapult(Springer Science+Business Media New York, 2015) Bolyukh, V. F.; Omel’chenko, A. V.; Vinnichenko, A. I.A mathematical model is developed for the vertical oscillations produced in the base–foundation system of a laser ballistic gravimeter with an induction-dynamic catapult and a symmetric configuration for measuring the acceleration of gravity. Analytic expressions are obtained for the force pulse acting on the foundation during acceleration of the test body that describe the oscillations in the mechanical system of the ballistic laser gravimeter. The effects of the measurement duration and the damping coefficient of the foundation on the results of measurements of the acceleration of gravity are studied.Документ Excitation of a pulse electromechanical converter of electrodynamic type from a two-section capacitor energy storage(Інститут електродинаміки НАН України, 2021) Bolyukh, V. F.A mathematical model of a pulsed electromechanical converter (PEC) of electrodynamic type has been developed, in which the solutions of the equations are presented in a recurrent form, which, when numerically implemented, allows taking into account the interrelated electrical, magnetic, mechanical and thermal processes and their nonlinear parameters. While maintaining the total energy of the pulsed source, the influence of the distribution of energy between the two sections of the capacitive energy storage (CES) and the voltage at which the additional section of the CES is connected was established. When operating in an accelerating mode, the largest amplitude of electrodynamic forces (EDF) and maximum speed occur in the basic version of the PEC, which is excited only from the main section of the CES, and the most effective is the PEC with the smallest capacity of the main section of the CES, and its maximum value is 2.61 higher than for the basic version of the PEC. When operating in the shock-power mode, compared with the basic version of the PEC, the amplitude of the EDF decreases. The most effective is the PEC with the smallest capacity of the main section of the CES, and its maximum value is 5.17 higher than that of the basic version of the PEC. Experimental studies of the PEC in the shock-power mode established that the oscillograms of the voltage of the CES and the current of the PEC correspond to the calculated characteristics, and their main indicators are consistent with each other with an accuracy of 5-7%.Документ High-Efficiency Impact Electromechanical Converter(Всероссийский электротехнический институт им. В. И. Ленина, 2011) Bolyukh, V. F.; Luchuk, V. F.; Rassokha, M. A.; Shchukin, I. S.An algorithm for choosing the parameters of the impact electromechanical converter based on the genetic algorithms and the flexible polyhedron method joint use is developed. The spatial temporal distribu tion of integral and local electrodynamics forces that act on the accelerated anchor is found.Документ Increasing the efficiency of the surface-mounted ultrasonic electromagnetic-acoustic transducer on account of the magnetic field source(Інститут електродинаміки НАН України, 2023) Suchkov, G. M.; Bolyukh, V. F.; Kocherga, A. I.; Mygushchenko, R. P.; Kropachek, O. Yu.Model studies were carried out using the COMSOL Multiphysics package, aimed at ensuring the forming of a permanent magnet magnetic field at a considerable distance to a ferromagnetic product from its pole, which is necessary to create efficient portable ultrasonic electromagnetic-acoustic transducers of thickness gauges and testing and diagnostic devices. It is theoretically shown and experimentally confirmed that for portable measuring ultrasonic devices it is expedient to set the height of the permanent magnet at about 60 mm and the cross section of the magnet pole 50x50 mm2. At the same time, with a gap between the magnet pole and the product of about 30 mm, the value of the normal component of the magnetic field induction near the surface of the object is about 0.3...0.4 T, which is sufficient for thickness gauging or diagnostics of ferromagnetic products using the ultrasonic pitch-and catch method.Документ Influence of an excitation source on the power indicators of a linear pulse electromechanical converter of induction type(Інститут електродинаміки НАН України, 2021) Bolyukh, V. F.; Shchukin, I. S.The purpose of the article is to evaluate the efficiency of an induction-type linear pulse electromechanical converter (LPEC) when operating in shock-power mode and excitation from an alternating voltage source (AVS) in comparison with excitation from a capacitive energy storage (CES). A mathematical model of an induction-type LPEC has been developed both when excited by a unipolar pulse from a CES and from an AVS using lumped parameters of the windings, which takes into account the interrelated electromagnetic, mechanical and thermal processes. It has been found that when the LPEC is excited from the AVS with a voltage frequency of 50 Hz, the electrodynamic force takes on a periodic decaying character with a significant prevalence of positive components of forces over negative ones. The maximum value of the force is much less, and the value of its impulse is much greater than in the LPEC, excited from the CES. With an increase in the frequency of the AVS voltage from 50 to 150 Hz, the highest value of the current density of the inductor winding decreases, and in the armature winding it increases. The greatest values of force and impulse of force are realized at a voltage frequency of 150 Hz. With an increase in the AVS frequency, the relative indicator of the efficiency of the LPEC increases.Документ Influence of External Electromagnetic Screen on Efficiency of Impact Electromechanical Converter of Disk Configuration(Всероссийский электротехнический институт им. В. И. Ленина, 2010) Bolyukh, V. F.; Rassokha, M. A.Based on a mathematical model, the influence of the disk and cylindrical parts of the outside of the electromagnetic screen on the efficiency of a given electromechanical converter taking into consideration the electrodynamics that acts on them is revealed. The basic theoretical concepts and reliability of the math ematical model are confirmed by experimental research.Документ Influence of geometrical parameters of the inductor and armature on the indicators of a linear pulse electromechanical converter of an electrodynamic type(National Technical University "Kharkiv Polytechnic Institute", 2019) Bolyukh, V. F.; Kashanskij, Yu. V.; Schukin, I. S.Purpose. The aim of the paper is to study the influence of geometrical parameters, namely, the number of layers and the cross section of the copper tire of the inductor and the armature coils on the power and speed indicators of a linear pulse electromechanical converter (LPEC) of an electrodynamic type. Methodology. On the basis of the developed chain mathematical model, recurrent relations are obtained for the calculation of interconnected electromagnetic, mechanical and thermal processes of LPEC of an electrodynamic type. The effect of the thickness of a square copper tire and the number of its layers in the inductor and armature coils on the characteristics and characteristics of electrodynamic LPEC is investigated. It is these parameters that determine the number of turns and the axial height of the coils with limited radial dimensions. Results. The influence of the geometrical parameters of the inductor and the armature coils with limited radial dimensions on the electrical and mechanical characteristics of LPEC of an electrodynamic type is established. It has been established that with an increase in the thickness of a rectangular cross-section of copper tire from 1 to 2.5 mm, an increase in the amplitude and pulse of electrodynamic forces (EF) occurs. However, the maximum speed of the armature is the highest at LPEC wound with a 1.5 mm thick tire. The highest efficiency value is demonstrated by LPEC, in which the inductor and armature coils are wound with a 2 mm thick tire. With an increase in the number of layers of the inductor coil tire, the amplitude of the EF decreases significantly, and the magnitude of the EF pulse decreases slightly. As a result, the maximum armature speed, efficiency and temperature rise of the coils are reduced. Originality. It is established that the largest amplitude of the EF is realized in LPEC with the minimum number of layers of tires of the inductor and armature coils. The largest value of the pulse EF occurs when the maximum number of layers of the inductor and the armature. In this case, the largest values of the amplitude and pulse of the EF occur under the condition that the number of tire layers of the inductor and the armature coils are the same. Practical value. It has been established that the greatest efficiency 21.82 % is realized in LPEC, in which the number of tire layers is 2 mm thick with inductor and armature coils are 4. A catapult model for launching an unmanned aerial vehicle was made and tested on the basis of LPEC of an electrodynamic type.Документ Influence of parameters of active elements on indicators of electromechanical converter of electrodynamic type(Національний технічний університет "Харківський політехнічний інститут", 2019) Bolyukh, V. F.; Kashanskiy, Yu. V.; Shchukin, I. S.Публікація Influence of pulse excitation on electromechanical indicators of a linear pulse converter of electrodynamic type(Національний гірничий університет, 2020) Bolyukh, V. F.; Kashanskyi, Yu. V.; Shchukin, I. S.Purpose. Investigation of the effect of pulsed excitation of the electronic circuit-controlled inductor and armature windings, powered with the capacitive energy storage (CES) source, on the speed and power indicators of a linear pulse electrodynamic converter (LPEC). Methodology. On the basis of the developed numerical model, the influence of pulsed excitation — vibrationally damped, halfwave, aperiodic, and aperiodic with recharge, on the characteristics and performance of LPEC is studied. The mathematical model of the LPEC, using the lumped parameters of the stationary winding of the inductor and the movable winding of the armature, takes into account the interconnected electromagnetic, mechanical and thermal processes, presenting their solutions in a recursive form. Findings. It was found that the pulse excitation of the LPEC insignificantly affects the maximum speed, the pulse of electrodynamic forces (EDF) and the temperature rise of the inductor winding. The highest values of the maximum speed and impulse of an EDF arise upon excitation by a vibrationally damped current pulse, while the smallest ones – upon excitation by an aperiodic pulse. The LPEC excitation by an aperiodic current pulse with recharge allows the use of a reduced charge voltage for rechargeable CES. With a decrease in this voltage and with conservation of the energy of the CES, the amplitude of the EDF decreases by 31.5 %, but due to the delay of electromagnetic processes, the pulse of the EDF increases by 3 %, and the efficiency – by 8.2 %. Originality. A comprehensive criterion for the LPEC efficiency was introduced, which takes into account the amplitude of the excitation current, the mass of the windings, the temperature of the inductor winding, the magnitude of the EDF pulse, the efficiency, and the maximum speed for a given reliability coefficient. Using this criterion, we found that in terms of power and speed indicators, the most efficient is a converter excited by an aperiodic current pulse with recharge, and the quality of work is a converter excited by an aperiodic pulse. Practical value. The influence of the width of the copper bus and the corresponding axial heights of the windings of the inductor and the armature on the speed and power performance of the LPEC using vibration-damping, half-wave, aperiodic and aperiodic with recharge current pulses is established.Публікація Influence of the form of pulse of excitation on the speed and power indicators of the linear pulse-induction electromechanical converter(Симфонія форте, 2019) Bolyukh, V. F.; Kashanskyi, Yu. V.Документ The Influence of the Parameters of a Ferromagnetic Shield on the Efficiency of a Linear Induction-Dynamic Converter(Всероссийский электротехнический институт им. В. И. Ленина, 2015) Bolyukh, V. F.; Oleksenko, S. V.The influence of the geometrical parameters of a ferromagnetic shield on the operation of a linear induction-dynamic converter was investigated with the help of the integral efficiency parameter. Values of geometrical parameters of the shield with the best converter performance for different means of determining key indicators were obtained by the local optimization method. Experiments have proven that, depending on the geometrical parameters, the ferromagnetic shield increases the armature speed up to 47%, decreases the maximum current in the inductor down to 35%, and increases the time to peak current up to 21% as com pared with the converter without the ferromagnetic shield. Satisfactory concurrence was obtained between experimentally measured and calculated parameters of the linear induction-dynamic converter.Документ Investigation of linear impulse electromechanical converter(NTU "KhPI", 2017) Bolyukh, V. F.; Kocherga, O. I.; Shchukin, I. S.Документ Krioblast™, a systemfor kinetic vitrification byhyperfast cooling: applications for reproductive & stem cells(Elsevier Inc., 2013) Katkov, I. I.; Bolyukh, V. F.; Liu, Y.; Wu, D.; Snyder, E. Y.; Agarwal, S.Документ The project analysis of induction thruster parameters for the field mortaring(Національний університет оборони України ім. Івана Черняховського, 2010) Chemerys, V. T.; Bolyukh, V. F.; Mashtalir, V. V.Документ Reduction of the auto seismic component of error of a ballistic laser gravimeter by excitation of an inductiondynamic catapult from an AC voltage source(Національний науковий центр "Інститут метрології", 2021) Bolyukh, V. F.; Vinnichenko, A. I.; Omelchenko, A.The purpose of the study is to analyse the influence of the excitation of an induction-dynamic catapult of a ballistic laser gravimeter from an AC voltage source at different frequencies on electromechanical indicators that provide a reduced value of the auto seismic component of error in measuring the gravitational acceleration g due to a decrease in the recoil force. A mathematical model of the gravimeter catapult when excited from an AC voltage source is proposed, taking into account the interrelated electrical, magnetic and mechanical processes. The nature of the electromechanical processes in the catapult of the gravimeter with such excitation has been established. It is shown that a phase shift occurs between the currents in active elements, as a result of which positive (repulsive) pulses of the electrodynamic force alternate with negative (attractive) pulses of force. A criterion for the efficiency of the gravimeter catapult has been introduced, taking into account the maximum value of push of the test body at the smallest values of the electrodynamic force and current of the inductor winding. It was found that the highest efficiency of the gravimeter catapult is provided at a frequency of 250 Hz, at which the catapult efficiency is 3.5 times higher than at a frequency of 50 Hz. It is shown that the transition from the method of excitation of an induction-dynamic catapult with one short pulse to excitation from an AC voltage source makes it possible to reduce the uncertainty in measuring the gravitational acceleration.