Optimization of spatial arrangement of magnetic field sensors of closed loop system of overhead power lines magnetic field active silencing

Aim. Development of a method for optimization of spatial arrangement and angular position of magnetic field sensors of a closed system to ensure maximum efficiency of active silencing canceling of the magnetic field generated by overhead power lines. Methodology. Spatial arrangement and angular posi...

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Published in:Electronics and electromechanics Vol. 2023; no. 4; pp. 26 - 34
Main Authors: Kuznetsov, B. I., Nikitina, T. B., Bovdui, I. V., Voloshko, O. V., Kolomiets, V. V., Kobylianskyi, B. B.
Format: Journal Article
Language:English
Published: Kharkiv Department of Electrical Apparatus of National Technical University, Kharkiv Polytechnic Institute 01.01.2023
National Technical University, Ukraine
National Technical University "Kharkiv Polytechnic Institute"
Subjects:
Algorithms
Analysis
Angular position
Closed loop systems
Closed loops
computer simulation
Efficiency
experimental research
Feedback control
Laws, regulations and rules
magnetic field
Magnetic fields
Magnetic shielding
Mathematical analysis
Minimax technique
multi-objective parametric optimization
Multiagent systems
Multiple objective analysis
Optimization
overhead power transmission line
Power lines
Sensors
Simulation methods
spatial arrangement and angular position of magnetic field sensors
system of active silencing
Iran
Ukraine
ISSN:2074-272X, 2309-3404
Online Access:Get full text
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Summary:Aim. Development of a method for optimization of spatial arrangement and angular position of magnetic field sensors of a closed system to ensure maximum efficiency of active silencing canceling of the magnetic field generated by overhead power lines. Methodology. Spatial arrangement and angular position of magnetic field sensors of closed loop system of overhead power lines magnetic field active silencing determined based on binary preference relations of local objective for multi-objective minimax optimization problem, in whith the vector objective function calculated based on Biot–Savart law. The solution of this vector minimax optimization problem calculated based on nonlinear Archimedes algorithm of multi-swarm multi-agent optimization. Results. Results of simulation and experimental research of optimal spatial arrangement and angular position of magnetic field sensors of a closed system to ensure maximum efficiency of active silencing of the magnetic field generated by overhead power lines with a barrel-type arrangement of wires. Originality. The method for optimization of spatial arrangement and angular position of magnetic field sensors of a closed system to ensure maximum efficiency of active shielding of the magnetic field generated by overhead power lines is developed. Practical value. An important practical problem optimization of spatial arrangement and angular position of magnetic field sensors of a closed system to ensure maximum efficiency of active silencing of the magnetic field generated by overhead power lines has been solved.
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ISSN:2074-272X
2309-3404
DOI:10.20998/2074-272X.2023.4.04