IIUM Repository

Dr. Suazlan Mt Aznam

Asst. Prof.

Manufacturing and Materials Engineering Department

International Islamic University Malaysia

Suazlan Mt Aznam is an assistant professor at International Islamic University Malaysia (IIUM). He joined IIUM after completing his Ph.D. from the Yokohama National University, Japan, in 2017. During his Ph.D. study, he focused on pool boiling experiment with surface modification to enhance the critical heat flux using porous media and nanofluid. He studied mathematical science at University of Malaya, Malaysia, where he obtained his M.Sc.(Mathematics) degree in 2013. He worked on numerical analysis to solve hyperbolic heat conduction equation using Haar wavelet for his master’s thesis. His research interest includes numerical analysis, thermal analysis, renewable energy, thermal solar and heat transfer engineering.

1.Yokohama National University Japan, April 2014-March 2017 o Doctor of Engineering, Graduate School of Engineering, Chemical and Energy Engineering 2.Yokohama National University Japan, April 2013-March 2014 o Research student, Graduate School of Engineering, Chemical and Energy Engineering 3. University Malaya, Malaysia, July 2009-January 2013 o MSc. (Mathematics), Faculty of Science, Mathematical Science Institute 4. Yokohama National University Japan, April 2002-April 2005 o Bachelor of Engineering, Division of Materials Science and Chemical Engineering CGPA: 3.15/4.00

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Latest Additions

  1. Asmadi, M. Solleh and Md. Kasmani, Ruhaila and Siri, Zailan and Saleh, Habibis and Mt Aznam, Suazlan (2023) Relevance of various cavity aspect ratios to the thermal behavior of natural convection heat transfer for water-based hybrid nanofluid within a U-shaped enclosure. In: 14. International Conference on Computational Heat and Mass Transfer, 4-8 September 2023, Düsseldorf, Germany. (Unpublished)
  2. Abdehalim Ahmed Eid, Mohamed Moustafa and Mohd Nashrul, Mohd Zubir and Muhammad, Mohd Ridha and Md. Salim Newaz, Kazi and Mt Aznam, Suazlan and Md Mehedy, Hasan Rony and Ibrahim, F. A. and Alam, Md Shadab and Sadri, Rad (2023) Experimental and numerical investigations on the effect of a novel internal surface micro grooving towards improving convective heat transfer performance of tube heat exchangers. Physics of Fluids, 35 (7). pp. 1-21. ISSN 1070-6631 E-ISSN 1089-7666
  3. Sugumaran, Luvindran and Mohd Zubir, Mohd Nashrul and Kazi, Salim Newaz and Tuan Zahari, Tuan Zaharinie and Mt Aznam, Suazlan and Mohd Halil, Aiman (2023) Experimental investigation of nucleate pool boiling heat transfer characteristics on modified copper surface via laser-structured microstructures. In: 6th International Conference on Clean Energy and Technology 2023, 7-8 June 2023, Bayview Hotel Penang, Malaysia. (Unpublished)
  4. Ghosh, Indranil and Chowdhury, Md Sazzad Hossien and Mt Aznam, Suazlan (2022) Numerical treatment on a chaos model of fluid flow using new iterative method. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 96 (1). pp. 25-35. ISSN 2289-7879
  5. Mt Aznam, Suazlan and Maruoka, Naru and Imai, Ryosuke and Mori, Shoji (2021) Process of liquid supply to heated surface by a honeycomb porous plate for critical heat flux enhancement. Journal of Thermal Science and Technology, 16 (3). pp. 1-17. ISSN 1880-5566 E-ISSN 1880-5566
  6. Che Ghani, Nor Artisham and Mt Aznam, Suazlan (2020) A numerical solution for heat transfer past a stretching sheet with ohmic dissipation and suction or injection problem using Haar wavelet quasilinearization method. Journal of Physics: Conference Series, 1489 (1). ISSN 17426588
  7. Che Ghani, Nor Artisham and Mt Aznam, Suazlan (2019) A numerical solution for heat transfer past a stretching sheet with ohmic dissipation and suction or injection problem using Haar wavelet quasilinearization method. In: 5th International Conference on Mathematical Applications in Engineering (ICMAE’19), 30th-31st October 2019, Putrajaya. (Unpublished)
  8. Mori, Shoji and Mt Aznam, Suazlan and Yanagisawa, Ryuta and Yokomatsu, Fumihisa and Okuyama, Kunito (2019) Measurement of a heated surface temperature using a high-speed infrared camera during critical heat flux enhancement by a honeycomb porous plate in a saturated pool boiling of a nanofluid. Heat Transfer Engineering. ISSN 0145-7632 E-ISSN 1521-0537 (In Press)
  9. Mori, Shoji and Mt Aznam, Suazlan (2019) Pool boiling CHF enhancement using a honeycomb porous plate and nanofluid. In: 1ˢᵗ International Conference on Nanofluids and the 2nd European Symposium on Nanofluids, 26th -28th June 2019, Castello, Spain. (Unpublished)
  10. Mt Aznam, Suazlan and Che Ghani, Nor Artisham and Chowdhury, Md. Sazzad Hossien (2019) A numerical solution for nonlinear heat transfer of fin problems using the Haar wavelet quasilinearization method. Results in Physics, 14. pp. 1-8. ISSN 2211-3797
  11. Megat Mohamed Noor, Megat Norulazmi and Mohamad, Zahari and Mohd Serah, Aludin and Mt Aznam, Suazlan and Sabli, Nordin and Mobel, Khamsiah Hamidah (2011) Karada De Oboeru: a philosophical approach in instilling multi-skills and ethical work habits for engineering students in Japan. In: The role of universities in promoting dialogue through philosophy. Centre for Civilisational Dialogue, pp. 79-100. ISBN 978-983-3070-35-0
  12. Mt Aznam, Suazlan (2015) Report on the 9th Korea-Japan Symposium on Nuclear Thermal Hydraulics and Safety. Japanese Journal Multiphase Flow, 29 (1). pp. 74-76.
  13. Mt Aznam, Suazlan and Shoji, Mori and Ryuta, Yanagisawa and Kunito, Okuyama (2015) Critical heat flux enhancement in saturated pool boiling using water-based nanofluid with honeycomb porous plate. In: The 23rd International Conference on Nuclear Engineering, 17th-21st May 2015, Chiba, Japan.
  14. Mt Aznam, Suazlan and Chowdhury, Md. Sazzad Hossien (2018) Generalized Haar wavelet operational matrix method for solving hyperbolic heat conduction in thin surface layers. Results in Physics, 11. pp. 243-252. ISSN 2211-3797
  15. Suazlan, Mt Aznam and Shoji, Mori and Kunito, Okuyama (2016) Critical heat flux enhancement in water-based nanofluid with honeycomb porous plate on large heated surface. In: 24th International Conference on Nuclear Engineering, 26th–30th June 2016, Charlotte, North Carolina, USA,.
  16. Shoji, Mori and Mt Aznam, Suazlan and Kunito, Okuyama (2014) The CHF enhancement combining nano-fluid and honeycomb porous plate in a saturated pool boiling. In: 22nd International Conference on Nuclear Engineering (ICONE22), 7th–11th, July 2014, Prague, Czech Republic.
  17. Mt Aznam, Suazlan and Hussin, Amran (2012) Numerical method for inverse laplace transform with Haar wavelet operational matrix. Malaysian Journal of Fundamental and Applied Sciences, 8 (4 (October-December)). pp. 204-210. ISSN 2289-5981 E-ISSN 2289-599X
  18. Mori, Shoji and Mt Aznam, Suazlan and Yanagisawa, Ryuta and Okuyama, Kunito (2016) CHF enhancement by honeycomb porous plate in saturated pool boiling of nanofluid. Journal of Nuclear Science and Technology, 53 (7). pp. 1028-1035. ISSN 0022-3131 E-ISSN 1881-1248
  19. Mt Aznam, Suazlan and Mori, Shoji and Sakakibara, Fumiki and Okuyama, Kunito (2016) Effects of heater orientation on critical heat flux for nanoparticle deposited surface with honeycomb porous plate attachment in saturated pool boiling of water. International Journal of Heat and Mass Transfer, 102. pp. 1345-1355. ISSN 0017-9310
  20. Mori, Shoji and Mt Aznam, Suazlan and Okuyama, Kunito (2015) Enhancement of the critical heat flux in saturated pool boiling of water by nanoparticle-coating and a honeycomb porous plate. International Journal of Heat and Mass Transfer, 80. pp. 1-6. ISSN 0017-9310

Most Viewed Items

Item titleViews
1Karada De Oboeru: a philosophical approach in instilling multi-skills and ethical work habits for engineering students in Japan839
2Enhancement of the critical heat flux in saturated pool boiling of water by nanoparticle-coating and a honeycomb porous plate820
3Measurement of a heated surface temperature using a high-speed infrared camera during critical heat flux enhancement by a honeycomb porous plate in a saturated pool boiling of a nanofluid758
4A numerical solution for nonlinear heat transfer of fin problems using the Haar wavelet quasilinearization method748
5CHF enhancement of a large heated surface by a honeycomb porous plate and a gridded metal structure in a saturated pool boiling of nanofluid729
6Generalized Haar wavelet operational matrix method for solving hyperbolic heat conduction in thin surface layers720
7CHF enhancement by honeycomb porous plate in saturated pool boiling of nanofluid707
8A numerical solution for heat transfer past a stretching sheet with ohmic dissipation and suction or injection problem using Haar wavelet quasilinearization method695
9Pool boiling CHF enhancement using a honeycomb porous plate and nanofluid690
10Effects of heater orientation on critical heat flux for nanoparticle deposited surface with honeycomb porous plate attachment in saturated pool boiling of water688
11Critical heat flux enhancement in saturated pool boiling using water-based nanofluid with honeycomb porous plate676
12Process of liquid supply to heated surface by a honeycomb porous plate for critical heat flux enhancement659
13A numerical solution for heat transfer past a stretching sheet with ohmic dissipation and suction or injection problem using Haar wavelet quasilinearization method648
14Numerical method for inverse laplace transform with Haar wavelet operational matrix636
15The CHF enhancement combining nano-fluid and honeycomb porous plate in a saturated pool boiling635
16Report on the 9th Korea-Japan Symposium on Nuclear Thermal Hydraulics and Safety616
17Critical heat flux enhancement in water-based nanofluid with honeycomb porous plate on large heated surface595
18Numerical treatment on a chaos model of fluid flow using new iterative method411
19Experimental and numerical investigations on the effect of a novel internal surface micro grooving towards improving convective heat transfer performance of tube heat exchangers328
20Experimental investigation of nucleate pool boiling heat transfer characteristics on modified copper surface via laser-structured microstructures305
21Relevance of various cavity aspect ratios to the thermal behavior of natural convection heat transfer for water-based hybrid nanofluid within a U-shaped enclosure275