○○学科

アシュラフル アラム

アシュラフル アラム  (Ashraful Alam)

基本情報

所属
大阪産業大学 工学部 交通機械工学科 教授

J-GLOBAL ID
201701004368536802
researchmap会員ID
B000285493

論文

 45
  • K. Kanetsuki, M. Takao, Y. Ito, S. Okuhara, M. M. Ashraful Alam, Y. Kinoue, T. Setoguchi
    Trends in Renewable Energies Offshore - Proceedings of the 5th International Conference on Renewable Energies Offshore, RENEW 2022 737-742 2023年  
    An impulse turbine for bi-directional airflow has been proposed as an air turbine for wave energy conversion using an oscillating water column (OWC) system. In actual sea conditions, the asymmetric cascade is expected to be more advantageous in practice because the exhalation flow rate is smaller than the inhalation flow rate. In this study, the effect of asymmetric cascade on the performance of bi-directional flow impulse turbine for wave power generation was investigated by CFD analysis with steady flow, and the running and starting characteristics in periodic bi-directional flow were clarified by numerical simulation with quasi-steady analysis. It is concluded that the asymmetric cascade improves the performance of the turbine and is effective for wave energy generation in real sea conditions.
  • Miah Md Ashraful Alam, Taichi Hirano, Yasutaka Hayamizu, Takuya Masuda, Tatsuki Hamada, Shinichi Morita, Manabu Takao
    Open Journal of Fluid Dynamics 13(04) 206-215 2023年  
  • Takuya Masuda, Toshio Tagawa, M. M. A. Alam, Yasutaka Hayamizu
    Physics of Fluids 35(1) 014112-014112 2023年1月  査読有り
    Natural convection of a low-Prandtl-number conductive fluid driven by a horizontal temperature gradient in an annular enclosure with a square cross section was investigated. The surface temperatures of the inner and outer cylinders were differentially maintained. A static magnetic field was applied in the azimuthal direction. A three-dimensional (3D) numerical simulation was performed for a part of an annulus divided into 20 or 28 equal parts. The natural convection found changes on the order of a two-dimensional (2D) steady, a 3D steady, a 3D non-half-symmetric simply periodic oscillatory, a 3D indefinite oscillatory, a 3D half-symmetric simply periodic oscillatory, and a 3D aperiodic oscillatory flow as the Hartmann number decreases. This transition pattern is identical to that as the Rayleigh number increases in the same system without a magnetic field. In high Rayleigh numbers, the transition is accompanied by an axisymmetric oscillation. A disturbance causing the transition consists of three modes as a 3D steady, a 3D half-symmetric oscillatory, and a 2D axisymmetric oscillatory mode. The Nusselt numbers in most 3D flows are smaller at low Rayleigh numbers and larger at high Rayleigh numbers than that in 2D flows at a same condition, while the kinetic energy of a 3D flow is necessarily smaller than that of a 2D flow.
  • T. Ogawa, M. Takao, S. Okuhara, S. Sasaki, M.M. Ashraful Alam, Y. Kinoue
    Trends in Renewable Energies Offshore 743-747 2022年10月3日  
  • T Ogawa, M Takao, M M A Alam, S Okuhara, Y Kinoue
    Journal of Physics: Conference Series 2217(1) 012073-012073 2022年4月1日  
    Abstract In an oscillating water column (OWC) based wave energy device, a water column that oscillates due to the sea wave motion generates a bi-directional airflow in an air chamber, and finally, the bi-directional airflow driven air turbine converts the pneumatic energy into mechanical energy. The counter-rotating impulse turbine for bi-directional airflow has been proposed by M. E. McCormick of the United States Naval Academy in 1978. In a previous study, the authors investigated the effect of the turbine geometry on the performance of a counter-rotating impulse turbine for bi-directional airflow, and it was clarified that the efficiency of the turbine is higher than an impulse turbine with a single rotor for bi-directional airflow in a range of high flow coefficient. Moreover, this impulse turbine has a disadvantage that the efficiency in a range of low flow coefficient is remarkably low due to the deterioration of the flow between the two rotors. In this study, in order to make the counter-rotating impulse turbine practically compatible, the thickness of the middle vanes installed between the two rotors was changed, and the effect of the thickness on the turbine performance was investigated by the computational fluid dynamics (CFD) analysis. As a result, it was found that the efficiency of the counter-rotating impulse turbine with middle vanes increases as the thickness of the middle vanes decreased.

MISC

 39

講演・口頭発表等

 9

所属学協会

 3