Dr. Mohsan Hassan
Associate Professor, Mathematics
Area of Interest: Heat and Mass Transfer, Bio-Heat Transfer, Non-Newtonian Fluids
Tel # (Off): 111-001-007   (115)
HEC approved PhD Supervisor

Mohsan Hassan has completed his doctoral degree in fluid mechanics, specializing in transport modeling for Nanofluids and non-Newtonian fluids. He has established himself as an expert researcher in this field, as evidenced by his impressive publication record of +50 research papers, which have received approximately 3400 citations with an h-index of 24. Moreover, Dr. Hassan has contributed to the research community by leading three research projects as the principal investigator (PI) and co-principal investigator (Co-PI). His research findings have contributed to the scientific knowledge and understanding of fluid mechanics, with potential applications in various industries and sectors.


Scopus ID: https://www.scopus.com/authid/detail.uri?authorId=55865066300

Google Scholar ID: https://scholar.google.com.pk/citations?user=aUuGuw0AAAAJ&hl=en

PhD Research Thesis Supervision

1. Muhammad Rizwan, Mathematical Modeling of Non-Newtonian Nanofluids Flow Based on Experimental Data, 2023


MS Research Thesis Supervision

1. Imran Latif Bhatti, Interaction of Multi Nanoparticles in Flow of Hybrid Nanofluid over Disk, 2018 

2. Ifrah Tehreem, Coupled Parallel Fluid Flow in Porous Medium Adjacent to Free Flow Domain, 2019 

3. Umer Zahid, Off-centered Stagnation Point Flow of Viscous Fluid towards a Rotating Disk, 2019 

4. Dillawar Ali, Analytical Study of Bio-Heat Transfer in Blood and Tissue by LTNE Model, 2019 

5. Muhammad Fakhar Hayat, Study on the Flow Field in the Gap between a Rotating and a Stationary Disk, 2019 

6. Attiq Tahir, Sami Analytical soloution of non-linear equations for viscous flow by Akbari-Ganji's Method, 2020

7. Arooj Khizar, Rheological Modeling of Viscoelastic Material through Different Methods, 2020

8. Dalmir Hussain, Measurement of Rheological Properties for Viscoelastic Nanofluid through Oscillatory Strain and Stress Relations, 2020

9. Muhammad Shafiq, Combine Effects of Viscoelastic and Shear Thinning Properties on the Heat and Mass Transport of Fluid, 2021

10. Abdul Ghafar, Non-Newtonian Fluid Flow over Variable Thicker Surface: A Five Parameters Contained Carreau Model, 2021

11. Sajid Ali, Study on the Heat and Mass Transport of Non-Newtonian Fluid with Shear Rate and Temperature Dependent Viscosity Model, 2021

12. Rameen Aslam Khan, Viscoelastic Maxwell Model Fluid Flow Over Rotating Sheet, 2021

13. Qursam Ayub, Heat and Mass Flow of Viscoelastic Maxwell Model Fluid over Variable Thicker Stretching Sheet, 2022

14. Ahsan Nawab, Study on the Heat and Mass Transport of Non-Newtonian Powell-Eyring Model Fluid over Variable Thicker Sheet, 2022

15. Sana Sajid, Effects of Low and High Shear Rate Viscosities on the Transport of Shear Thinning Fluid over Thin Needle, 2022


BS Project Supervision

1. Muhammad Azeem, Solution of Differential Equations by New Homotopy Perturbation Method, 2018

2. Muhammad Junaid, Perturbations Solution of Boundary Layer Ordinary Differential Equations by Matching Principle of Van Dyke, 2021


Funded Projects:

Completed Projects:
1. Convective heat transfer performance and flow characteristics of hybrid-nanofluids (2022 - 2021) PIs: Dr. Mohsan Hassan, Budget: 1.28M, Funded By: HEC .
2. Physiological breakdown of Jeffrey fluid models parameters for fluid flow (2018 - 2019) PIs: Dr. Mohsan Hassan, Budget: 0.48 M, Funded By: HEC .
3. Heat transfer enhancement in fluid flow by improving physical properties through nanomaterial (2017 - 2018) PIs: Dr. Mohsan Hassan, Budget: Rs. 0.49 M, Funded By: HEC .


Journal Papers:
1. Rizwan M, Hassan M, Asjad MI, Tag-ElDin EM. (2022), "Flow Characteristics of Heat and Mass for Nanofluid under Different Operating Temperatures over Wedge and Plate. ", Micromachines, pp: 2080, Vol: 12, Issue: 13, DOI: https://doi.org/10.3390/mi13122080    
2. Hassan M, Ali S, Hussain D. (2022), "Flow characteristics of non-Newtonian hybrid nanofluid under shear rate and temperature-dependent viscosity and thermal conductivity", Waves in Random and Complex Media, DOI: https://doi.org/10.1080/17455030.2022.2147241   
3. Hassan M, Mebarek-Oudina F, Faisal A, Ghafar A, Ismail AI. (2022), "Thermal energy and mass transport of shear thinning fluid under effects of low to high shear rate viscosity", International Journal of Thermofluids, pp: 100176, Vol: 15, DOI: https://doi.org/10.1016/j.ijft.2022.100176   
4. Rizwan M, Hassan M. (2022), "Feature of metallic oxide nanoparticles in the thermal efficiency and flow structure of non-Newtonian homogeneous nanofluid: experimental data-based mathematical approach. ", Waves in Random and Complex Media. , DOI: https://doi.org/10.1080/17455030.2022.2078015   
5. Rizwan M, Hassan M, Makinde OD, Bhatti MM, Marin M. (2022), "Rheological modeling of metallic oxide nanoparticles containing non-newtonian nanofluids and potential investigation of heat and mass flow characteristics. ", Nanomaterials, Vol: 7, Issue: 12, DOI: https://doi.org/10.3390/nano12071237   
6. Javid K, Al-Khaled K, Hassan M, Khan SU, Ahmad A, Khan S. (2022), "A transport of Jeffrey model viscoelastic fluid by complex peristalsis motion of nonuniform curved channel's walls under resistance of magnetic field", ZAMM-Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik. , DOI: https://doi.org/10.1002/zamm.202100067   
7. Hassan M, Faisal A, Javid K, Khan SU, Ahmad A, Khan R. (2022), "The impact of different arrangement of molecular chains in term of low and high shear rate's viscosities on heat and mass flow of Non-Newtonian shear thinning fluids. ", Combinatorial Chemistry & High Throughput Screening, DOI: 10.2174/1386207324666210719111909    
8. Hassan M, Ali S, Aich W, Khlissa F, Ayadi B, Kolsi L. (2022), "Transport pattern of Non-Newtonian mass and thermal energy under two diverse flow conditions by using modified models for thermodynamics properties", Case Studies in Thermal Engineering, pp: 101714, Vol: 29, DOI: https://www.sciencedirect.com/science/article/pii/   
9. Javid K, Hassan M, Tripathi D, Khan S, Bobescu E, Bhatti MM. (2021), "Double-diffusion convective biomimetic flow of nanofluid in a complex divergent porous wavy medium under magnetic effects", Journal of Biological Physics, pp: 477-98, Vol: 47, Issue: 4, DOI: https://link.springer.com/article/10.1007/s10867-0   
10. Javid K, Alqsair UF, Hassan M, Bhatti MM, Ahmad T, Bobescu E. (2021), "Cilia-assisted flow of viscoelastic fluid in a divergent channel under porosity effects", Biomechanics and Modeling In Mechanobiology, DOI: https://link.springer.com/article/10.1007/s10237-0   
11. Javid K, Khan SU, Hassan M, Saeed U, Rizvi ST, Khan SU. (2020), "PERISTALTIC TRANSPORTATION OF FLUID THROUGH SIMPLE AND COMPLEX WAVES FRAME NON-UNIFORM CHANNELS: A BIO-ENGINEERING APPLICATION.", International Journal for Multiscale Computational Engineering, pp: 623-638, Vol: 17    (External URL)
12. Rizvi ST, Khan SU, Hassan M, Fatima I, Khan SU (2020), "Stable propagation of optical solitons for nonlinear Schrödinger equation with dispersion and self phase modulation.", Mathematics and Computers in Simulation, pp: 126-136, Vol: 179, Impact Factor: 1.6    (External URL)
13. Hassan M, Issakhov A, Khan SU, Assad ME, Hani EH, Rahimi-Gorji M, Nadeem S, Khan SU (2020), "The effects of zero and high shear rates viscosities on the transportation of heat and mass in boundary layer regions: A non-Newtonian fluid with Carreau model.", Journal of Molecular Liquids, pp: 113991, Vol: 317, Impact Factor: 5.067    (External URL)
14. Riaz A, Khan SU, Zeeshan A, Khan SU, Hassan M, Muhammad T (2020), "Thermal analysis of peristaltic flow of nanosized particles within a curved channel with second-order partial slip and porous medium", Journal of Thermal Analysis and Calorimetry, Impact Factor: 2.731    (External URL)
15. Mohsan Hassan, Mohyud-Din ST, Ramzan M (2019), "Study of heat transfer and entropy generation in ferrofluid under low oscillating magnetic field", Indian Journal of Physics, pp: 749–758, Vol: 93, DOI: 10.1007/s12648-018-1328-8, Impact Factor: 1.947    (External URL)
16. H. Waqas, Sami Ullah Khan, Mohsan Hassan, M. M. Bhatti, M. Imran (2019), "Analysis on the bioconvection flow of modified second-grade nanofluid containing gyrotactic microorganisms and nanoparticles", Journal of Molecular Liquids, pp: 111231, Vol: 291, DOI: 10.1016/j.molliq.2019.111231, Impact Factor: 6.165    (External URL)
17. Javid K, Mohsan Hassan, Asjad MI, Ali I, Nazib (2019), "Rheological effects of biomimetic propulsion on fluid flow: An application of bio-engineering", European Physical Journal Plus, pp: 277-285, Vol: 1, DOI: 10.1140/epjp/i2019-12801-1, Impact Factor: 3.911    (External URL)
18. Mohsan Hassan, Ellahi R, Zeeshan A, Bhatti MM (2019), "Analysis of natural convective flow of non-Newtonian fluid under the effects of nanoparticles of different materials", Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, pp: 643-652, Vol: 233, Issue: 3, DOI: 10.1177/0954408918787122, Impact Factor: 1.620    (External URL)
19. M. M. Bhatti, M. Sheikholeslami, A. Shahid, Mohsan Massan, T. abbas (2019), "Entropy generation on the interaction of nanoparticles over a stretched surface with thermal radiation", Colloids and Surfaces A , pp: 368-376, Vol: 570, DOI: 10.1016/j.colsurfa.2019.03.058, Impact Factor: 4.539    (External URL)
20. M. M. Maskeen, A. Zeeshan, O. U. Mehmood, Mohsan Hassan (2019), "Heat transfer enhancement in hydromagnetic alumina–copper/water hybrid nanofluid flow over a stretching cylinder", Journal of Thermal Analysis and Calorimetry, pp: 1127-1136, Vol: 138, DOI: 10.1007/s10973-019-08304-7, Impact Factor: 4.626    (External URL)
21. Mohsan Hassan, Abrar Faisal, I. Ali, M. M. Bhatti, M. Yousaf (2019), "Effects of Cu-Ag hybrid nanoparticles on momentum and thermal boundary layer flow over wedge", Journal of Process Mechanical Engineering, pp: 1128-1136 , Vol: 233, Issue: 5, DOI: 10.1177/0954408919844668, Impact Factor: 1.620    (External URL)
22. Mohsan Hassan, R. Ellahi, M. M. Bhatti, A. Zeeshan (2019), "A comparative study on magnetic and non-magnetic particles in nanofluid propagating over a Wedge", Canadian J. Physics, pp: 277-285, Vol: 97, Issue: 3, DOI: 10.1139/cjp-2018-0159, Impact Factor: 1.240    (External URL)
23. Javid K, Khan SU, Hassan M, Saeed U, Rizvi ST, Khan SU (2019), "Peristaltic Transportation of fluid through simple and complex wavy non-uniform channels: A bio-engineering application", International Journal for Multiscale Computational Engineering, pp: 623-628, Vol: 17, DOI: 10.1615/IntJMultCompEng.2020032905, Impact Factor: 1.508    (External URL)
24. M. Marin, M. M. Maskeen, A. Zeeshan, O. U. Mehmood, Mohsan Hassan (2019), "Hydromagnetic transport of iron nanoparticle aggregates suspended in water", Indian Journal of Physics, pp: 53-59, Vol: 93, DOI: 10.1007/s12648-018-1259-4 , Impact Factor: 1.947    (External URL)
25. Mohsan Hassan, C. Fetecau, A. Majeed, A. Zeeshan (2018), "Effects of iron nanoparticles’ shape on convective flow of ferrofluid under highly oscillating magnetic field over stretchable rotating disk", Journal of Magnetism and Magnetic Materials, pp: 531-539, Vol: 465, Issue: 1, DOI: 10.1016/j.jmmm.2018.06.019, Impact Factor: 2.993    (External URL)
26. Mohsan Hassan, Marin, A. Alsharif, R. Ellahi (2018), "Convective heat transfer flow of nanofluid in a porous medium over wavy surface", Physics Letters A , pp: 2749-2753, Vol: 382, Issue: 38, DOI: 10.1016/j.physleta.2018.06.026, Impact Factor: 2.654    (External URL)
27. Mohsan Hassan (2018), "Impact of iron oxide particles concentration under a highlyos cillating magnetic field on ferrofluid flow", Eur. Phys. J. Plus, pp: 230-240, Vol: 133, DOI: 10.1140/epjp/i2018-12045-7, Impact Factor: 3.911    (External URL)
28. Shahid, Z. Zhou, Mohsan Hassan, M. M. Bhatti (2018), "Computational study of magnetized blood flow in the presence of gyrotactic microorganisms propelled through a permeable capillary in a stretching motion", International Journal for Multiscale Computational Engineering, pp: 409-426, Vol: 16, Issue: 5, DOI: 10.1615/IntJMultCompEng.2018026030, Impact Factor: 1.508    (External URL)
29. Mohsan Hassan, Abrar Faisal, M. M. Bhatti (2018), "Interaction of aluminum oxide nanoparticles with fow of polyvinyl alcohol solutions base nanofuids over a wedge", Applied Nanoscience , pp: 53-60, Vol: 8, DOI: 10.1007%2Fs13204-018-0651-x, Impact Factor: 3.674    (External URL)
30. Mohsan Hassan, M. Marin, R. Ellahi, S. A. Alamri (2018), "Exploration of convecti ve heat transfer and flow characteristics synthesis by Cu-Ag/Water hybrid-nanofluids", Heat Transfer Research , pp: 1837-1848, Vol: 49, Issue: 18, DOI: 10.1615/HeatTransRes.2018025569, Impact Factor: 2.443    (External URL)
31. R. Ellahi, M. H. Tariq, M. Hassan, K. Vafai (2017), "On boundary layer nano-ferroliquid flow under the in fluence of low oscillating stretchable rotating disk", Journal of Molecular Liquids, pp: 339-345, Vol: 229, Impact Factor: 3.648   
32. Mohsan Hassan, Ahmad Zeeshan, Aaqib Majeed, Rahmat Ellahi (2017), "Particle shape effects on ferrofluids flow and heat transfer under influence of low oscillating magnetic field", Journal of Magnetism and Magnetic Materials, pp: 36-44, Vol: 433, Impact Factor: 2.630   
33. A. Zeeshan, M. Hassan, R. Ellahi and M. Nawaz (2017), "Shape effect of nanosize par ticlesin unsteady mixed convection flow of nanofluid over disk with entropy generation", Proceedings of the institution of mechanical engineers, pp: 871-879, Vol: 231, Issue: 4, Impact Factor: 0.77   
34. R. Ellahi, M. Hassan, A. Zeeshan (2017), "Shape effects of spherical and nonspherical nanoparticles in mixed convection flow over a vertical stretching permeable sheet", Journal of Magnetism and Magnetic Materials, pp: 1231-1238, Vol: 24, Issue: 15, Impact Factor: 1.196   
35. R. Ellahi, M. Hassan and A. Zeeshan (2016), "A study of heat transfer in power law nanofluid", Thermal Scie, pp: 2015-2026, Vol: 20, Impact Factor: 1.22   
36. M. Hassan, R. Ellahi and A. Zeeshan (2016), "Mechanisms of Different Nanoclusters in Nanobased Fluids with Natural Convection and Variable surface", Mathematical Sciences Letters, pp: 1-7, Vol: 1, Impact Factor: 0.0   
37. R. Ellahi, M. Hassan and A. Zeeshan (2016), "Particle shape effects on Marangoni convection boundary layer flow of a nanofluid", International Journal of Numerical Methods for Heat & Fluid Flow, pp: 2160-2174, Vol: 26, Impact Factor: 1.713   
38. R. Ellahi, M. Hassan and A. Zeeshan (2015), "Aggregation effects on water base nanofluid over permeable wedge in mixed convection", Asia-Pacific Journal of Chemical Engineering, pp: 179-186, Vol: 11, Impact Factor: 0.78   
39. R. Ellahi, M. Hassan, A. Zeeshan and A. Afsar (2015), "Shape effects of nanoparticles suspended in HFE-7100 over wedge with entropy generation and mixed convection", Applied Nanoscience, pp: 641-651, Vol: 6, Impact Factor: 0.0   
40. R. Ellahi, M. Hassan and A. Zeeshan (2015), "Shape effects of nanosize particles in Cu-H20 nanofluid on entropy generation", International Journal of Heat and Mass Transfer, pp: 449-456, Vol: 81, Impact Factor: 3.458   
41. R. Ellahi, M. Hassan and A. Zeeshan (2015), "Study on magnetohydrodynamic nanofluid by means of single and multi-walled carbon nanotubes suspended in a salt water solution", IEEE Transactions on Nanotechnology, pp: 726-734, Vol: 14, Impact Factor: 2.485   
42. M. Sheikholeslami, R. Ellahi, M. Hassan and S. Soleimani (2014), "A study of natural convection heat transfer in a nanofluid filled enclosure with elliptic inner cylinder", International Journal for Numerical Methods for Heat and Fluid Flow, pp: 1906-1927, Vol: 24, Impact Factor: 1.713   
43. International Journal for Numerical Methods for Heat and Fluid Flow (2014), "Effect of MHD on Cu-water nanofluid flow and heat transfer by means of CVFEM", Journal of Magnetism and Magnetic Materials, pp: 188-200, Vol: 349, Impact Factor: 2.630   
44. A. Zeeshan, R. Ellahi and M. Hassan (2014), "Magnetohydrodynamic Flow of Water/Ethylene Glycol Based Nanofluids with Natural Convection through Porous Medium", European Physical Journal Plus, pp: 261-271, Vol: 129, Impact Factor: 1.753   
45. R. Ellahi, M. Hassan, A. Afsar and K. Maqbool (2013), "Analytical Solution for Non-Newtonian Nanofluid with Heat Transfer and Nonlinear Partial Slip Boundary Conditions by Means of Optimal Homotopic Asymptotic Method", Advance Science Engineering and Medicine, pp: 744-751, Vol: 5, Impact Factor: 0.0   


PhD Mathematics
International Islamic University Islamabad, Pakistan
Feb 2012 to Apr 2016
International Islamic University Islamabad, Pakistan
Sep 2009 to Jun 2011


Assistant Professor
COMSATS Instistute of Information Technology, Lahore
Feb 2017 to Date
Assistant Professor
HITEC University Taxila
Aug 2016 to Feb 2017

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