性 别

Male

职  称

Lecturer

邮 箱

hassan@whut.edu.cn

硕/博导

Muhammad Imran

联系电话

18361818212

研究领域

Thermal Energy Storage System, Phase Change Materials, Heat and Mass Transfer, Mathematical Modelling of Fluid Flow

个人简介

Dr. Hassan Waqas is a distinguished researcher and academician specializing in heat transfer, thermal energy storage, and nanofluid technologies. He earned his Ph.D. in 2021 from Government College University Faisalabad, Pakistan, and has since become a prominent figure in his field. Dr. Waqas has authored over 200 publications, which have garnered significant recognition, with more than 6,600 citations to date. Dr. Waqas contributions have been acknowledged globally, earning him a place in the prestigious list of the top 2% of scientists in the world for four consecutive years (2021, 2022, 2023, and 2024). With expertise in phase change materials, enhanced heat transfer mechanisms, and nanotechnology, Dr. Waqas continues to push the boundaries of innovation in thermal energy systems, aiming to address pressing global energy challenges.

教育经历

Ph.D.(Mathematics) from Govt College University Faisalabad, Pakistan session 2017-2021,

M.Sc.(Mathematics) from Govt College University Faisalabad, Pakistan session 2009-2011

B.S.CBahauddin Zakariya University Multan, Pakistan          session 2007-2009

2012-Sep-05 to 2016-Oct-16 worked as a lecturerGovernment College University Faisalabad, Layyah Campus, Pakistan

2016-Oct-17 to 2022-Aug-02 worked as Assistant Prof Government College University Faisalabad, Layyah Campus, Pakistan

2022-Aug-13 to 2024-Sep-03 worked as a postdoc research fellowship at the School of Energy and Power Engineering, Jiangsu University, Zhenjiang 212013, China

科研项目

National Research Funding Program for Universities by HEC Pakistan

Deanship of Scientific Research at King Khalid University, Saudi Arabia

International Exchange Postdoctoral Project 2022 (Second Batch) in China

代表性论文

及著作

• Waqas, H.,Hussain, M., Al-Mdallal, Q. M., Ahammad, N. A., & Elseesy, I. E. (2024). The impact of nano-infused phase change materials and blossom-shaped fins on thermal energy storage. Case Studies in Thermal Engineering, 105623.

• Waqas, H., Hasan, M. J., Ji, C., Liu, D., Kang, C., & Muhammad, T. (2024). Melting performance of PCM with MoS2 and Fe3O4 nanoparticles using leaf-based fins with different orientations in a shell and tube-based TES system. International Communications in Heat and Mass Transfer, 158, 107944.

• Waqas, H.,Hasan, M. J., Naqvi, S. M. R. S., Liu, D., Muhammad, T., Eldin, S. M., & Kang, C. (2024). Enhancing the performance of thermal energy storage by adding nano-particles with paraffin phase change materials. Nanotechnology Reviews, 13(1), 20230180.

• Waqas, H.,Hasan, M. J., Majeed, A. H., Liu, D., & Muhammad, T. (2023). Hydrothermal characteristics, entropy and kinetic energy investigation in a sinusoidal cavity for variable wavelengths and solid volume fraction using Cu-water nanofluid. Journal of Molecular Liquids, 389, 122911.

• Waqas, H.,Khan, S. A., Ali, B., Liu, D., Muhammad, T., & Hou, E. (2023). Numerical computation of Brownian motion and thermophoresis effects on rotational micropolar nanomaterials with activation energy. Propulsion and Power Research, 12(3), 397-409.

• Waqas, H.,Khan, S. A., Yasmin, S., Liu, D., Imran, M., Muhammad, T., ... & Farooq, U. (2022). Galerkin finite element analysis for buoyancy driven copper-water nanofluid flow and heat transfer through fins enclosed inside a horizontal annulus: Applications to thermal engineering. Case Studies in Thermal Engineering, 40, 102540.

• Waqas, H.,Fida, M., Liu, D., Manzoor, U., Alghamdi, M., & Muhammad, T. (2022). Heat transport of nanofluid flow through a porous channel with thermal radiation effects. International Communications in Heat and Mass Transfer, 138, 106376.

• Waqas, H.,Farooq, U., Liu, D., Alghamdi, M., Noreen, S., & Muhammad, T. (2022). Numerical investigation of nanofluid flow with gold and silver nanoparticles injected inside a stenotic artery. Materials & Design, 223, 111130.

• Waqas, H.,Farooq, U., Liu, D., Abid, M., Imran, M., & Muhammad, T. (2022). Heat transfer analysis of hybrid nanofluid flow with thermal radiation through a stretching sheet: A comparative study. International Communications in Heat and Mass Transfer, 138, 106303.

• Waqas, H.,Farooq, U., Liu, D., Imran, M., Muhammad, T., Alshomrani, A. S., & Umar, M. (2022). Comparative analysis of hybrid nanofluids with Cattaneo-Christov heat flux model: A thermal case study. Case Studies in Thermal Engineering, 36, 102212.

• Waqas, H.,Farooq, U., Alghamdi, M., & Muhammad, T. (2022). Significance of melting process in magnetized transport of hybrid nanofluids: A three-dimensional model. Alexandria Engineering Journal, 61(5), 3949-3957.

• Waqas, H.,Khan, S. A., & Muhammad, T. (2022). Thermal analysis of magnetized flow of AA7072-AA7075/blood-based hybrid nanofluids in a rotating channel. Alexandria Engineering Journal, 61(4), 3059-3068.

• Waqas, H.,Kafait, A., Alghamdi, M., Muhammad, T., & Alshomrani, A. S. (2022). Thermo-bioconvectional transport of magneto-Casson nanofluid over a wedge containing motile microorganisms and variable thermal conductivity. Alexandria Engineering Journal, 61(3), 2444-2454.

• Waqas, H.,Farooq, U., Alqarni, M. S., & Muhammad, T. (2022). Numerical investigation for 3D bioconvection flow of Carreau nanofluid with heat source/sink and motile microorganisms. Alexandria Engineering Journal, 61(3), 2366-2375.

• Waqas, H.,Kafait, A., Muhammad, T., & Farooq, U. (2022). Numerical study for bio-convection flow of tangent hyperbolic nanofluid over a Riga plate with activation energy. Alexandria Engineering Journal, 61(2), 1803-1814.

• Waqas, H.,Khan, S. U., Khan, M. I., Alzahrani, F., & Qayyum, S. (2021). Study of homogeneous–heterogeneous reactions in bioconvection stagnation pointslip flow of Walter's-B nanofluid with nonlinear thermal radiation and activation energy. International Communications in Heat and Mass Transfer, 129, 105729.

• Waqas, H.,Khan, S. A., Muhammad, T., & Naqvi, S. M. R. S. (2021). Heat transfer enhancement in stagnation point flow of ferro-copper oxide/water hybrid nanofluid: A special case study. Case Studies in Thermal Engineering, 28, 101615.

• Waqas, H.,Muhammad, T., Noreen, S., Farooq, U., & Alghamdi, M. (2021). Cattaneo-Christov heat flux and entropy generation on hybrid nanofluid flow in a nozzle of rocket engine with melting heat transfer. Case Studies in Thermal Engineering, 28, 101504.

• Waqas, H.,Farooq, U., Bukhari, F. F., Alghamdi, M., & Muhammad, T. (2021). Chemically reactive transport of magnetized hybrid nanofluids through Darcian porous medium. Case Studies in Thermal Engineering, 28, 101431.

• Waqas, H.,Bukhari, F. F., Farooq, U., Alqarni, M. S., & Muhammad, T. (2021). Numerical computation of melting heat transfer in nonlinear radiative flow of hybrid nanofluids due to permeable stretching curved surface. Case Studies in Thermal Engineering, 27, 101348.

• Waqas, H.,Farooq, U., Alghamdi, M., & Muhammad, T. (2021). Significance of surface-catalyzed reactions in SiO2-H2O nanofluid flow through porous media. Case Studies in Thermal Engineering, 27, 101228.

• Waqas, H.,Naqvi, S. M. R. S., Alqarni, M. S., & Muhammad, T. (2021). Thermal transport in magnetized flow of hybrid nanofluids over a vertical stretching cylinder.

•  Waqas, H.,Yasmin, S., Muhammad, T., & Imran, M. (2021). Flow and heat transfer of nanofluid over a permeable cylinder with nonlinear thermal radiation. Journal of Materials Research and Technology, 14, 2579-2585.

• Waqas, H.,Alqarni, M. S., Muhammad, T., & Khan, M. A. (2021). Numerical study for bioconvection transport of micropolar nanofluid over a thin needle with thermal and exponential space-based heat source. Case Studies in Thermal Engineering, 26, 101158.

• Waqas, H.,Alghamdi, M., Muhammad, T., & Khan, M. A. (2021). Bioconvection transport of magnetized Walter's B nanofluid across a cylindrical disk with nonlinear radiative heat transfer. Case Studies in Thermal Engineering, 26, 101097.

• Waqas, H.,Khan, S. A., Farooq, U., Khan, I., Alotaibi, H., & Khan, A. (2021). Melting phenomenon of non-linear radiative generalized second grade nanoliquid. Case Studies in Thermal Engineering, 26, 101011.

• Waqas, H.,Imran, M., Muhammad, T., Sait, S. M., & Ellahi, R. (2021). On bio-convection thermal radiation in Darcy–Forchheimer flow of nanofluid with gyrotactic motile microorganism under Wu’s slip over stretching cylinder/plate. International Journal of Numerical Methods for Heat & Fluid Flow, 31(5), 1520-1546.

• Waqas, H.,Khan, S. A., Khan, S. U., Khan, M. I., Kadry, S., & Chu, Y. M. (2021). Falkner-Skan time-dependent bioconvrction flow of cross nanofluid with nonlinear thermal radiation, activation energy and melting process. International Communications in Heat and Mass Transfer, 120, 105028.

• Waqas, H.,Imran, M., & Bhatti, M. M. (2020). Influence of bioconvection on Maxwell nanofluid flow with the swimming of motile microorganisms over a vertical rotating cylinder. Chinese Journal of Physics, 68, 558-577.

所获奖励

国际交流

与合作

招生专业

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