Home Physical Sciences HEAT TRANSFER IN THIN POROUS FIBROUS MATERIAL: MATHEMATICAL MODELLING AND EXPERIMENTAL VALIDATION USING ACTIVE THERMOGRAPHY
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HEAT TRANSFER IN THIN POROUS FIBROUS MATERIAL: MATHEMATICAL MODELLING AND EXPERIMENTAL VALIDATION USING ACTIVE THERMOGRAPHY

  • Debasish Banerjee , Shulei Zhao and Samuel Schabel
Published/Copyright: September 20, 2023
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AUTEX Research Journal
From the journal AUTEX Research Journal Volume 10 Issue 4

Published Online: 2023-09-20
Published in Print: 2010-12-01

© 2023 by Association of Universities for Textiles (AUTEX)

Articles in the same Issue

  1. FIBRE STRAIGHTENING DURING THE FORMATION OF DISC SPUN YARN
  2. EVALUATION OF A TENSILE TEST FOR THE DETERMINATION OF THE MATERIAL BEHAVIOUR OF FILAMENT YARNS UNDER HIGH STRAIN RATES
  3. HEAT TRANSFER IN THIN POROUS FIBROUS MATERIAL: MATHEMATICAL MODELLING AND EXPERIMENTAL VALIDATION USING ACTIVE THERMOGRAPHY
  4. THERMAL RESISTANCE OF ORGANIC NANOPARTICLE COATINGS FOR HYDROPHOBICITY AND WATER REPELLENCE OF PAPER SUBSTRATES
  5. PREDICTING RESIDUAL BAGGING BEND HEIGHT OF KNITTED FABRIC USING FUZZY MODELLING AND NEURAL NETWORKS
https://doi.org/10.1515/aut-2010-100403
Keywords for this article
Heat transfer model; infrared thermography; control volume; convection coefficient; drying

Articles in the same Issue

  1. FIBRE STRAIGHTENING DURING THE FORMATION OF DISC SPUN YARN
  2. EVALUATION OF A TENSILE TEST FOR THE DETERMINATION OF THE MATERIAL BEHAVIOUR OF FILAMENT YARNS UNDER HIGH STRAIN RATES
  3. HEAT TRANSFER IN THIN POROUS FIBROUS MATERIAL: MATHEMATICAL MODELLING AND EXPERIMENTAL VALIDATION USING ACTIVE THERMOGRAPHY
  4. THERMAL RESISTANCE OF ORGANIC NANOPARTICLE COATINGS FOR HYDROPHOBICITY AND WATER REPELLENCE OF PAPER SUBSTRATES
  5. PREDICTING RESIDUAL BAGGING BEND HEIGHT OF KNITTED FABRIC USING FUZZY MODELLING AND NEURAL NETWORKS
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