Abstract

Modelling heat transfer of carbon nanotubes is important for the thermal management of nanotube-based composites and nanoelectronic devices. By using a finite element method for three-dimensional anisotropic heat transfer, we have simulated the heat conduction and temperature variations of a single nanotube, a nanotube array and a part of a nanotube-based composite surface with heat generation. The thermal conductivity used is obtained from the upscaled value from the molecular simulations or experiments. Simulations show that nanotube arrays have unique cooling characteristics due to their anisotropic thermal conductivity.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Performance of combined spectral collocation method and artificial compressibility method for 3D incompressible fluid flow and heat transfer
Jing-Kui Zhang ... Ya-Song Sun
International Journal of Numerical Methods for Heat & Fluid Flow | VOL. 30
Jing-Kui Zhang, et. al.Jing-Kui Zhang ... Ya-Song Sun
01 Apr 2020
A three-dimensional analysis of the effect of anisotropic gas diffusion layer(GDL) thermal conductivity on the heat transfer and two-phase behavior in a proton exchange membrane fuel cell(PEMFC)
Guangli He ... Abuliti Abudula
Journal of Power Sources | VOL. 195
Guangli He, et. al.Guangli He ... Abuliti Abudula
08 Oct 2009
An experimental study on anisotropy of thermal conductivity in shale
Fang Xie ... Boning Tang
Energy Geoscience | VOL. 4
Fang Xie, et. al.Fang Xie ... Boning Tang
18 May 2023
Heat and mass transfer performance of proton exchange membrane fuel cells with electrode of anisotropic thermal conductivity
Chaoling Han ... Zhenqian Chen
International Journal of Heat and Mass Transfer | VOL. 182
Chaoling Han, et. al.Chaoling Han ... Zhenqian Chen
25 Sep 2021
View more papers

More From: Modelling and Simulation in Materials Science and Engineering

Paper Title
Journal
Date
Author
TCAD simulation of germanium-based heterostructure solar cell employing molybdenum oxide as a hole-selective layer
Haris Mehmood ... Hisham Nasser
Modelling and Simulation in Materials Science and Engineering | VOL. 32
Haris Mehmood, et. al.Haris Mehmood ... Hisham Nasser
15 Jul 2024
Benchmarking machine learning strategies for phase-field problems
Rémi Dingreville ... Qian Zhang
Modelling and Simulation in Materials Science and Engineering | VOL. 32
Rémi Dingreville, et. al.Rémi Dingreville ... Qian Zhang
15 Jul 2024
Mechanical performance simulation and optimal design of carbon fiber composite B-pillar
Jianhui Zhang ... Changcheng Yin
Modelling and Simulation in Materials Science and Engineering | VOL. -
Jianhui Zhang, et. al.Jianhui Zhang ... Changcheng Yin
11 Jul 2024
Atomic thermal fluctuation reduction method for robust local lattice structure identification in finite-temperature molecular dynamics
Atsuo Hirano ... Akiyuki Takahashi
Modelling and Simulation in Materials Science and Engineering | VOL. 32
Atsuo Hirano, et. al.Atsuo Hirano ... Akiyuki Takahashi
11 Jul 2024
View more papers