S. Mori, S. Mt Aznam, R. Yanagisawa, F. Yokomatsu, K. Okuyama, 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 0 (2019) 1–17.
www.tandfonline.com/doi/abs/10.1080/01457632.2019.1628487?journalCode=uhte20
S. Mt Aznam, N.A. Che Ghani, M.S.H. Chowdhury, A numerical solution for nonlinear heat transfer of fin problems using the Haar wavelet quasilinearization method, Results Phys. 14 (2019) 102393.
S. Mt Aznam, Md. Sazzad Hossien Chowdhury (2018). Generalized Haar wavelet operational matrix method for solving hyperbolic heat conduction in thin surface layers. Results in Physics, Vol.11 (2018) pp. 243-252.
https://www.sciencedirect.com/science/article/pii/S2211379718314682
S. Mt Aznam, S. Mori, A. Ogoshi and K. Okuyama, CHF enhancement of a large heated surface by a honeycomb porous plate and a gridded metal structure in a saturated pool boiling of nanofluid, International Journal of Heat and Mass Transfer, Vol.115 (2017), pp.969–980.
S. Mt Aznam, S. Mori, F. Sakakibara, and K. Okuyama, Effects of Heater Orientation on CHF for Nanoparticle-Deposited Surface with Honeycomb Porous Plate Attachment in Saturated Pool Boiling of Water, International Journal of Heat and Mass Transfer, Vol.102 (2016), pp.1345–1355.
S. Mori, S. Mt Aznam, R. Yanagisawa and K. Okuyama, CHF Enhancement by Honeycomb Porous Plate in Saturated Pool Boiling of Nanofluid, Journal of Nuclear Science and Technology, Vol. (53), Issue 7 (2016), pp.1028–1035.
S. Mori, S. Mt Aznam, and K. Okuyama, 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, Vol.80 (2015), pp.1–6.
S. Mt Aznam and A. Hussin, Numerical Method for Inverse Laplace Transform with Haar Wavelet Operational Matrix, Malaysian Journal of Fundamental & Applied Sciences, Vol.8, No.4 (2012) 204-210.
S. Mori, S. Mt Aznam, R. Yanagisawa, F. Yokomatsu and K. Okuyama, Measurement of a Heated Surface Temperature using a High-Speed IR Camera during CHF Enhancement by a Honeycomb Porous Plate in a Saturated Pool Boiling of a Nanofluid,” To be published in: Heat Transfer Engineering.
S. Mt Aznam, S. Mori, and K. Okuyama, Critical Heat Flux Enhancement in Water-Based Nanofluid with Honeycomb Porous Plate on Large Heated Surface, 24th International Conference on Nuclear Engineering, Charlotte, USA, June 26-30, 2016, ICONE24-60560.
S. Mt Aznam, S. Mori, R. Yanagisawa and K. Okuyama, Critical heat flux enhancement in saturated pool boiling using water-based Nano-fluid with honeycomb porous plate, 23th International Conference on Nuclear Engineering, Chiba, Japan, May 17-21, 2015, ICONE23-1059.
S. Mt Aznam, S. Mori, and K. Okuyama, The Effect of Heater Orientation on the Critical Heat Flux in a Saturated Pool Boiling with Honeycomb Porous Plate on Nanoparticle Deposited Surface, 10th International Topical Meeting on Nuclear Thermal Hydraulics, Operation and Safety (NUTHOS-10), Okinawa, Japan, December 14-18, 2014, NUTHOS10- 1140.
S. Mt Aznam, S. Mori, and K. Okuyama, The effect of nanoparticle deposited surface, a honeycomb solid structure and a honeycomb porous plate on the critical heat flux in a saturated pool boiling, The Ninth Korea- Japan Symposium on Nuclear Thermal Hydraulics and Safety, Buyeo, Korea, November 16-19, 2014, N9P0041.
S. Mori, S. Mt Aznam, K. Okuyama, The CHF enhancement combining nano-fluid and honeycomb porous plate in a saturate pool boiling, 22nd International Conference of Nuclear Engineering, ICONE22, Prague, Czech Republic, July 7-11 2014, ICONE22-30199.