Qadeer Raza，中文名赛迪，来自巴基斯坦。目前在西北工业大学数学与统计学院攻读博士学位，师从王晓东教授，他的研究聚焦于纳米流体在复杂物理条件下的热质传递数学建模与仿真。截止目前，他以第一作者身份已经累计发表了19篇SCI期刊论文，先后共发表27篇研究论文，他的研究论文在2023-2024年间累计获得305次引用。

赛迪论文发表的部分期刊

赛迪的文章引用情况

近期发表的研究成果

该生近期在国际知名期刊《Case Studies in Thermal Engineering》（SCIE：Q1，影响因子6.4）发表题为Numerically analyzed of ternary hybrid nanofluids flow of heat and mass transfer subject to various shapes and size factors in two-dimensional rotating porous channel的研究文章，该研究探讨了(Cu–Al₂O₃–TiO₂)纳米粒子在不同形状和尺寸下的流动与热性能行为。

论文摘要

向上滑动阅览

This article examines the behavior of (Cu–Al2O3–TiO2) nanoparticles with varying shapes and sizes regarding their flow and thermal performance. A ternary hybrid MHD model is developed to study rotating porous walls associated with permeable Reynolds numbers and NPs for a specific range of the volume friction φ1, φ2 and φ3 (2%–10%). Considering morphology effects, the expanding/contracting phenomenon for heat and mass transfer enhancement is presented. Nonlinear differential equations are derived from governing PDES and solved using the shooting procedure. The study aims to analyze the improvement in parameters such as stretching ratio parameter (α), nanoparticles volumetric fractions (φ1, φ2, φ3), magnetic parameter (M), Prandtl number (Pr) permeable Reynold number (Re), (Kcr) chemical reaction parameter, Schmidt number (Sc), and rotational parameter (R0) with ternary hybrid nanofluid (Cu–Al2O3–TiO2/ water). The impacts of these parameters on the temperature profiles of different shapes of nanoparticles, such as spherical, brick, cylinders, and platelets, are also analyzed. The influences of these parameters (α), (φ1, φ2, φ3), (M), (Pr), (Re), (Kcr) (Sc) and (R0) impacts on skin friction coefficient, Nusselt number, and Sherwood number for different shapes and sizes of nanoparticles are discussed. The study suggests that platelet-shaped nanoparticles are more appropriate for nondimensional physical parameters. Boosting Re, M, and R enlarges momentum boundary layers and enhances the radial velocity profile. Expanding the expansion ratio and volume of friction parameters influences heat transfer rates oppositely on the temperature profile. Elevating the Schmidt number diminishes the mass transfer rate in the upper boundary layer thickness but amplifies it in the lower boundary one in the concentration profile.

导师评价

王晓东教授评价赛迪是他团队中一名勤奋且优秀的学生。他专注于复杂物理条件下纳米流体流动中热质传递的数学建模与仿真研究。在西北工业大学攻读博士期间，他学习了多种纳米流体仿真的数值方法，并利用这些方法发现并解释了纳米流体的多种物理特性。目前，他已在该领域发表了十余篇论文，其研究质量在过去一年中不断提升，令人期待他在未来取得更大的突破。

未来规划

赛迪计划在完成博士学位后从事博士后研究工作，进一步深化专业知识，拓展研究领域，与本领域的顶尖学者合作。未来，他希望加入政府或私立学术研究机构，从事教学与科研指导工作，为培养下一代学者和推动领域前沿发展作出贡献。

撰稿 | 吕桐桐

供图 | Qadeer Raza

编辑 | 李富财

审核 | 李自伟