Open Science Research Excellence

ICTT 2020 : International Conference on Thermophysics and Thermodynamics

Melbourne, Australia
February 3 - 4, 2020

Conference Code: 20AU02ICTT

Conference Proceedings

All submitted conference papers will be blind peer reviewed by three competent reviewers. The peer-reviewed conference proceedings are indexed in the Open Science Index, Google Scholar, Semantic Scholar, Zenedo, OpenAIRE, BASE, WorldCAT, Sherpa/RoMEO, and other index databases. Impact Factor Indicators.

Special Journal Issues

ICTT 2020 has teamed up with the Special Journal Issue on Thermophysics and Thermodynamics. A number of selected high-impact full text papers will also be considered for the special journal issues. All submitted papers will have the opportunity to be considered for this Special Journal Issue. The paper selection will be carried out during the peer review process as well as at the conference presentation stage. Submitted papers must not be under consideration by any other journal or publication. The final decision for paper selection will be made based on peer review reports by the Guest Editors and the Editor-in-Chief jointly. Selected full-text papers will be published online free of charge.

Conference Sponsor and Exhibitor Opportunities

The Conference offers the opportunity to become a conference sponsor or exhibitor. To participate as a sponsor or exhibitor, please download and complete the Conference Sponsorship Request Form.

Important Dates

Abstracts/Full-Text Paper Submission Deadline   August 29, 2019
Notification of Acceptance/Rejection   September 10, 2019
Final Paper (Camera Ready) Submission & Early Bird Registration Deadline   January 4, 2020
Conference Dates   February 3 - 4, 2020

Important Notes

Please ensure your submission meets the conference's strict guidelines for accepting scholarly papers. Downloadable versions of the check list for Full-Text Papers and Abstract Papers.

Please refer to the Paper Submission GUIDE before submitting your paper.

Selected Conference Papers

1) Mixed Convection Heat Transfer of Copper Oxide-Heat Transfer Oil Nanofluid in Vertical Tube
Farhad Hekmatipour, M. A. Akhavan-Behabadi, Farzad Hekmatipour
2) Experimental Investigation of Heat Pipe with Annular Fins under Natural Convection at Different Inclinations
Gangacharyulu Dasaroju, Sumeet Sharma, Sanjay Singh
3) Three-Dimensional Generalized Thermoelasticity with Variable Thermal Conductivity
Hamdy M. Youssef, Mowffaq Oreijah, Hunaydi S. Alsharif
4) Hydrodynamic Analysis with Heat Transfer in Solid Gas Fluidized Bed Reactor for Solar Thermal Applications
Sam Rasoulzadeh, Atefeh Mousavi
5) Determination of the Thermophysical Characteristics of the Composite Material Clay Cement Paper
A. Ouargui, N. Belouaggadia, M. Ezzine
6) A Note on MHD Flow and Heat Transfer over a Curved Stretching Sheet by Considering Variable Thermal Conductivity
M. G. Murtaza, E. E. Tzirtzilakis, M. Ferdows
7) Compressible Flow Modeling in Pipes and Porous Media during Blowdown Experiment
Thomas Paris, Vincent Bruyere, Patrick Namy
8) Mixed Convection Enhancement in a 3D Lid-Driven Cavity Containing a Rotating Cylinder by Applying an Artificial Roughness
Ali Khaleel Kareem, Shian Gao, Ahmed Qasim Ahmed
9) Multi-Modal Film Boiling Simulations on Adaptive Octree Grids
M. Wasy Akhtar
10) Experimental on Free and Forced Heat Transfer and Pressure Drop of Copper Oxide-Heat Transfer Oil Nanofluid in Horizontal and Inclined Microfin Tube
F. Hekmatipour, M. A. Akhavan-Behabadi, B. Sajadi
11) Heat Transfer from a Cylinder in Cross-Flow of Single and Multiphase Flows
F. A. Hamad, S. He
12) CFD-Parametric Study in Stator Heat Transfer of an Axial Flux Permanent Magnet Machine
Alireza Rasekh, Peter Sergeant, Jan Vierendeels
13) An Inverse Heat Transfer Algorithm for Predicting the Thermal Properties of Tumors during Cryosurgery
Mohamed Hafid, Marcel Lacroix
14) Hydrodynamic Simulation of Co-Current and Counter Current of Column Distillation Using Euler Lagrange Approach
H. Troudi, M. Ghiss, Z. Tourki, M. Ellejmi
15) Degradation of Irradiated UO2 Fuel Thermal Conductivity Calculated by FRAPCON Model Due to Porosity Evolution at High Burn-Up
B. Roostaii, H. Kazeminejad, S. Khakshournia

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