Nanofluids for Thermal Applications
Submission DeadlineJun. 10, 2020

Online submission system:

Lead Guest Editor
Amina Benabderrahmane
Department of Mechanical Engineering-Faculty of Technology, Djilali Liabes University, Sidi Bel abbes, Algeria
Guest Editors
  • Müslüm Arıcı
    Mechanical Engineering Department, Kocaeli University, Kocaeli, Turkey
  • Ahmed Kadhim Hussein
    Department of Mechanical Engineering, College of Engineering, University of Babylon, Babylon, Hilla, Iraq
  • Wang Fuqiang
    Department of Mechanical Engineering, Harbin Institute of Technology, Weihai, Shandong, China
  • Abdelylah Benazza
    Department of Mechanical Engineering, Djilali Liabes University, Sidi Bel abbes, Algeria
  • Esam Abed
    Department of Mechanical Engineering, University of Babylon, Al Hillah, Iraq
  • Samir Laouedj
    Department of Mechanical Engineering, Djilali Liabes University, Sidi bel Abbes, Algeria
The current growth of nanosciences originates from the demonstration of the specific properties of nanoscale material. This has given rise to new fields of study in a large number of laboratories and has allowed the development of fluids with original properties called “nanofluids” composed of nanoparticles whose diameter is typically less than 100 nanometers suspended in a fluid called base fluid. The first work dealing with heat transfer in the presence of nanofluids practically began in 1995 in the Argonne National Laboratory with the study of Choi, which later allowed determining experimentally and numerically their thermo-physical properties. Nanofluids are used in several applications, for example: the cooling of electronic components, the industrial cooling, the heating of buildings and the reduction of pollution, the nuclear cooling system, energy storage, solar absorption, reduction of friction, magnetic sealing, antibacterial activity, intensification of micro-reactor... etc. Recently the application of nanofluids in the improvement of heat transfer has been developed and popularized with an exponential growth of publications that show that nanofluids offer an unbeatable heat transfer coefficient.
Aims and Scope:
  1. Solar Thermal Applications
  2. Different Type of Heat Exchangers
  3. Heating, Ventilation, and Air Conditioning
  4. Radial Flow and Electronic Cooling Devices
  5. Thermal Storage Systems
  6. Extraction of Geothermal Power and Other Energy Sources
  7. Convection Heat Transfer Inside Cavities Filled with Nanofluids
Guidelines for Submission
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