Publication detail
Coupled Model of Solenoid
MUSIL, F. VLACH, R.
English title
Coupled Model of Solenoid
Type
conference paper
Language
en
Original abstract
Coupled modeling, within the meaning of including various physical aspects into one complex model, is desirable and unavoidable in many cases in technical practice these days. This attitude can be advantageously used in the design of technical devices. The more complex model is created, the more precise simulation of the reality is possible to obtain. But the complexity of a computational model must always correspond with what we expect from it. Electricity and magnetism are strongly related to the thermal aspect. This is one of the reasons why neglecting this complexity can lead to misleading results. The intention of this paper is to show such a relationship with an illustrative example. The main result is a complex computational model of a solenoid that connects the mechanical and the thermal part of the system.
English abstract
Coupled modeling, within the meaning of including various physical aspects into one complex model, is desirable and unavoidable in many cases in technical practice these days. This attitude can be advantageously used in the design of technical devices. The more complex model is created, the more precise simulation of the reality is possible to obtain. But the complexity of a computational model must always correspond with what we expect from it. Electricity and magnetism are strongly related to the thermal aspect. This is one of the reasons why neglecting this complexity can lead to misleading results. The intention of this paper is to show such a relationship with an illustrative example. The main result is a complex computational model of a solenoid that connects the mechanical and the thermal part of the system.
Keywords in English
Coupled model; FEM; Finite difference method; FEMM; Simulink; Thermal calculation; Electromagnetism
Released
28.08.2019
Publisher
Springer Verlag
Location
Warsaw, Poland
ISBN
978-3-030-29992-7
Book
Mechatronics 2019: Recent Advances Towards Industry 4.0
Pages from–to
45–53
Pages count
9
BIBTEX
@inproceedings{BUT158987,
author="Filip {Musil} and Radek {Vlach},
title="Coupled Model of Solenoid",
booktitle="Mechatronics 2019: Recent Advances Towards Industry 4.0",
year="2019",
month="August",
pages="45--53",
publisher="Springer Verlag",
address="Warsaw, Poland",
isbn="978-3-030-29992-7"
}