​Hello, I'm Fatimah                       

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          WELCOME
            
                                       to my personal webpage....  
Fatimah Al Zahrah Mohd Saat is a senior lecturer at Faculty of Mechanical Engineering (FKM) Universiti Teknikal Malaysia Melaka (UTeM).  She is a graduate member of Board of Engineers, Malaysia (Reg. No. 52355R ). In 2013, she graduated with a PhD in Mechanical Engineering from the University of Leicester. She teaches subjects related to thermal-fluid field (CFD, Fluid Dynamics, Thermodynamics, Heat transfer). She is also actively involved in research and collaborations/consultation works. Her current research interest is related to experimental thermal-fluid measurements, CFD, thermoacoustics and waste to wealth related technologies.. 
Fatimah A. Z. Mohd Saat, PhD.
Email: fatimah@utem.edu.my
Tel: +6062704391
Fax: +6062701046

Understand some of my works by reading these articles: (click here for list of publications)

  1. Mohd Saat, F.A.Z. Mattokit E, Mustaffa S.H.A and Mohd Ghazali N., 2019. Numerical study of turbulence related to vortex shedding structures of an oscillatory flow in thermoacoustic energy system. Energy Procedia, Vol. 156, pp 239-243. https://doi.org/10.1016/j.egypro.2018.11.135
  2. Mohd Saat F.A.Z., Mustaffa S.H.A., Anuar F. S., 2019. Numerical and experimental investigations of the oscillatory flow inside standing wave thermoacoustic system at two different flow frequencies. CFD Letters, 11, Issue 8, pp 1-15. (open access)
  3. Mohd Saat, F.A.Z. and Jaworski, A.J., 2017. Numerical predictions of early stage turbulence in oscillatory flow across parallel-plate heat exchangers of a thermoacoustic system. Applied Sciences. 7, 673; doi:10.3390/app7070673
  4. Mohd Saat, F.A.Z. and Jaworski, A.J., 2017. The effect of temperature field on low amplitude oscillatory flow within a parallel-plate heat exchanger in a standing wave thermoacoustic system. Applied Sciences. 7, 417; doi:10.3390/app7040417
  5. Mohd Saat, F.A.Z. and Jaworski, A.J., 2017. Friction factor correlation for regenerator working in a travelling-wave thermoacoustic system. Applied Sciences. 7, 253; doi:10.3390/app7030253
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