Coupled electrothermal two-dimensional model for lightning strike prediction and thermal modeling using the TLM method

Coupled electrothermal two-dimensional model for lightning strike prediction and thermal modeling using the TLM method

This paper presents a fully coupled two-dimensional (2-D) multiphysics model for predicting the location of the arc discharge and lightning channel, and modeling its thermal and electrical behavior as a highly conductive plasma channel. The model makes no assumptions on the physical location of the...

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Bibliographic Details
Main Authors: Elkalsh, Ahmed, Sewell, Phillip, Benson, Trevor M., Vukovic, Ana
Format: Article
Published: Institute of Electrical and Electronics Engineers 2017
Subjects:
Plasmas
Atmospheric modeling
Time-domain analysis
Lightning
Numerical models
Time-varying systems
Computational modeling
Arc discharge
Electromagnetics (EMs)
Multiphysics modelling
Plasma
Thermal model
Thermally dependent electrical conductivity
Transmission-line matrix (TLM) method
Online Access:https://eprints.nottingham.ac.uk/42755/
Description
Summary:This paper presents a fully coupled two-dimensional (2-D) multiphysics model for predicting the location of the arc discharge and lightning channel, and modeling its thermal and electrical behavior as a highly conductive plasma channel. The model makes no assumptions on the physical location of the lightning channel but predicts its appearance purely from the electromagnetic (EM) field conditions. A heat diffusion model is combined with the time-varying nature of the EM problem where material properties switch from linear air material to a dispersive and nonlinear plasma channel. This multiphysics model is checked for self-consistency, stability, accuracy, and convergence on a canonical case where an arc channel is established between two metal electrodes upon exposure to an intensive electric field. The model is then applied to the 2-D study of a diverter strip for aircraft lightning protection.

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