Publication result detail

COMPARISON OF METHODS FOR SOLVING THE HEAT TRANSFER IN ELECTRICAL MACHINES

MAKKI, Z.; JANDA, M.; DEEB, R.

Original Title

COMPARISON OF METHODS FOR SOLVING THE HEAT TRANSFER IN ELECTRICAL MACHINES

English Title

COMPARISON OF METHODS FOR SOLVING THE HEAT TRANSFER IN ELECTRICAL MACHINES

Type

Peer-reviewed article not indexed in WoS or Scopus

Original Abstract

This paper describes the use of modern computational methods for the verification of mathematical equations, to determine the total heat flow transmitted across a certain surface. ANSYS WORKBENCH is choosen as the computational software for this purpose . Calculations are presented for four models. There is a surface, which the total heat flow is transmitted through is considered as: a simple flat plate, comprising with other flat plate, and thin-walled and thick-walled tube. For each case, the total heat flow is calculated using numerical methods and modern computer methods (ANSYS WORBENCH). Performed results of numerical methods are compared with the results of ANSYS software. The numerical methods are considered as a referent. The error of ANSYS calculations in comparison with the the numerical is calculated. The heat transfer by conduction is described for all presented models. Finally, the results of temperature distribution and heat flux distribution for each simulated case are presented.

English abstract

This paper describes the use of modern computational methods for the verification of mathematical equations, to determine the total heat flow transmitted across a certain surface. ANSYS WORKBENCH is choosen as the computational software for this purpose . Calculations are presented for four models. There is a surface, which the total heat flow is transmitted through is considered as: a simple flat plate, comprising with other flat plate, and thin-walled and thick-walled tube. For each case, the total heat flow is calculated using numerical methods and modern computer methods (ANSYS WORBENCH). Performed results of numerical methods are compared with the results of ANSYS software. The numerical methods are considered as a referent. The error of ANSYS calculations in comparison with the the numerical is calculated. The heat transfer by conduction is described for all presented models. Finally, the results of temperature distribution and heat flux distribution for each simulated case are presented.

Keywords

Ansys, Workbench, Heat flow, First Fouriers law

Key words in English

Ansys, Workbench, Heat flow, First Fouriers law

Authors

MAKKI, Z.; JANDA, M.; DEEB, R.

RIV year

2014

Released

15.04.2013

Publisher

Poznan University of Technology

ISBN

1897-0737

Periodical

Academic Journals

Volume

18

Number

75

State

Republic of Poland

Pages from

25

Pages to

30

Pages count

5

BibTex

@article{BUT102865,
  author="Zbyněk {Makki} and Marcel {Janda} and Ramia {Deeb}",
  title="COMPARISON OF METHODS FOR SOLVING THE HEAT TRANSFER IN ELECTRICAL MACHINES",
  journal="Academic Journals",
  year="2013",
  volume="18",
  number="75",
  pages="25--30",
  issn="1897-0737"
}