Dr. Rizwan ul haq
Last updated on September 12th, 2019
PERSONAL INFORMATION
Name Dr. Rizwan ul haq
Email r.haq.qau@gmail.com
Phone +92-51-9260002
Research Areas Fluid Dynamics

Nanofluid

Heat Transfer

Numerical Analysis

Number of Publications 80
AFFILIATIONS
Designation Assistant Professor
Department Department of Electrical Engineering
University Bahria University Islamabad Campus
QUALIFICATION
Ph.D. (Applied Mathematics) 2015 Nanofluids Quaid-e-Azam University, Islamabad
M. Phil (Applied Mathematics) 2011 Fluid Mechanics Quaid-e-Azam University, Islamabad
M.Sc (Mathematics) 2007 Applied Mathematics International Islamic University, Islamabad
TEACHING EXPERIENCE
DESIGNATION FROM TO UNIVERSITY
Senior Assistant Professor July 18 Present Bahria University, Islamabad
Assistant Professor Sept 16 June 18 Bahria University, Islamabad
Visiting Professor June 16 Aug 16 National University of Sciences & Technology (NUST), Islamabad
Lecturer Feb 11 Aug 15 Islamabad Model College for Boys, F-8/4 Islamabad
Senior Lecturer Oct 08 Jan 11 COMWAVE Institute of Science & Technology, Islamabad
RESEARCH EXPERIENCE
DESIGNATION FROM TO UNIVERSITY
Research Scientist May 14 Dec 14 Western University, London, Canada
Research Scientist Feb 16 Jun 16 Moulay Ismail University, Errachedia, Morocco
PUBLICATIONS
  1. Nadeem, Rizwan Ul Haq, C. Lee, MHD flow of a Casson fluid over an exponentially shrinking sheet, Scientia Iranica, 19, 1550-1553(2012). I.F=0.842
  2. Nadeem and Rizwan Ul Haq, MHD Boundary Layer Flow of a Nanofluid Passed through a Porous Shrinking Sheet with Thermal Radiation, Journal of Aerospace Engineering, DOI#10.1061(ASCE) AS.1943-5525.0000299. (2012). I.F=0.8
  3. Noreen Sher Akbar, S. Nadeem, Rizwan Ul Haq and Z. H. Khan, Numerical solutions of Magneto-hydrodynamic boundary layer flow of tangent hyperbolic fluid towards a stretching sheet, Indian Journal of Physics, 87(11), 1121-1124(2013). F=1.785
  4. Nadeem, Rizwan Ul Haq, Noreen Sher Akbar, Z.H. Khan, MHD three-dimensional Casson fluid flow past a porous linearly stretching sheet, Alexandria Engineering Journal, 52(4), 577-582(2013). I.F=0
  5. Noreen Sher Akbar, S. Nadeem, Rizwan Ul Haq, Z.H. Khan, Radiation effects on MHD stagnation point flow of nano fluid towards a stretching surface with convective boundary condition, Chinese Journal of Aeronautics, 26(6), 1389-1397 (2013). I.F=689
  6. Nadeem, Rizwan Ul Haq, Z.H. Khan, Numerical study of MHD boundary layer flow of a Maxwell fluid past a stretching sheet in the presence of nanoparticles, Journal of the Taiwan Institute of Chemical Engineers, 45(1), 121-126 (2014). I.F=2.637
  7. Noreen Sher Akbar, S. Nadeem, Changhoon Lee, Zafar Hayat Khan, Rizwan Ul Haq, Numerical study of Williamson nano fluid flow in an asymmetric channel, Results in Physics, (3), 161-166 (2013). I.F=0.51
  8. Nadeem, Rizwan Ul Haq, Z.H. Khan, Numerical solution of non-Newtonian nanofluid flow over a stretching sheet, Applied Nanoscience, 4(5), 625-631, (2014). I.F=0
  9. Nadeem, Rizwan Ul Haq, Effect of Thermal Radiation for Magneto-hydrodynamic Boundary Layer Flow of a Nanofluid Past a Stretching Sheet with Convective Boundary Conditions, Journal of Computational and Theoretical Nanoscience, 11(1), 32-40(9), (2014). I.F=1.032
  10. Nadeem, Rizwan Ul Haq, N. S. Akbar, C. Lee, Z. H. Khan. Numerical study of boundary layer ?ow and heat transfer of Oldroyd-B nano?uid towards a stretching sheet. PLoS ONE, 8(8), e69811, (2013). I.F= 3.73
  11. Sohail Nadeem, Rizwan Ul Haq, Zafar Hayat Khan, Heat transfer analysis of water-based nanofluid over an exponentially stretching sheet, Alexandria Engineering Journal, 53(1), 219-224, (2014). I.F=0
  12. Noreen Sher Akbar, S. Nadeem, Changhoon Lee, Zafar Hayat Khan, Rizwan Ul Haq Peristaltic Flow of a Prandtl Nano Fluid in an Asymmetric Porous Channel: Numerical Solutions, Journal of Computational and Theoretical Nanoscience, Volume 11(5), 1342-1348(7), (2014). F=1.032
  13. Nadeem, Rizwan Ul Haq, N. S. Akbar, MHD Three-Dimensional Boundary Layer Flow of Casson Nanofluid Past a Linearly Stretching Sheet With Convective Boundary Condition, IEEE Transactions on Nanotechnology, 13(1), 109-115, (2014). I.F= 1.80
  14. S. Akbar, S. Nadeem, Rizwan Ul Haq, Z. H. Khan, Nanoparticles Fraction on the Peristaltic Flow of Third Order Fluid, Journal of Computational and Theoretical Nanoscience, 11(1),  47-52(6), (2014). I.F=1.032
  15. Rizwan Ul Haq, Zafar Hayat Khan, Waqar Ahmed Khan, Thermophysical effects of carbon nanotubes on MHD flow over a stretching surface, Physica E: Low-dimensional Systems and Nanostructures, 63, 215-222, (2014). F=1.856
  16. S. Akbar, S. Nadeem, Rizwan Ul Haq, Shiwei Ye, MHD stagnation point flow of Carreau fluid toward a permeable shrinking sheet: Dual solutions, Ain Shams Engineering Journal, doi.org/10.1016/j.asej.2014.05.006. (2014). I.F=0
  17. S. AkbarZ. H. Khan,Rizwan Ul HaqS. Nadeem, Dual solutions in MHD stagnation-point flow of Prandtl fluid impinging on shrinking sheet, Applied Mathematics and Mechanics, 35(7), 813-820, (2014). I.F=1.032
  18. T. Hussain, S. Nadeem, Rizwan Ul Haq, Model based analysis of micropolar nanofluid flow over a stretching surface, The European Physical Journal Plus,129:167 June (2014). I.F=1.475
  19. Rizwan Ul Haq, Nadeem, Z. H. Khan, O. T. Gideon, Convective Heat Transfer and MHD Effects on Casson Nanofluid Flow over a Shrinking Sheet, Central European Journal of Physics, 12(12), 862-871 (2014). I.F=1.077
  20. Rizwan Ul Haq, Nadeem, Z. H. Khan, N. S. Akabr, Thermal radiation and slip effects on MHD stagnation point flow of nanofluid over a stretching sheet, Physica E: Low-dimensional Systems and Nanostructures, (65), 17-23 (2014). I.F=1.856.
  21. Rizwan Ul Haq, S. Nadeem, N.S. Akbar, Z.H. Khan, Buoyancy and Radiation Effect on Stagnation Point Flow of Micropolar Nanofluid along a Vertically Convective Stretching Surface, IEEE Transactions on nanotechnology, 14(1), 42-50, (2015). F= 1.80.
  22. Nadeem, Rizwan Ul Haq, Changhoon Lee, MHD boundary layer flow over an unsteady shrinking sheet:analytical and numerical approach, Journal of the Brazilian Society of Mechanical Sciences and Engineering, July 2015, Volume 37,Issue 4, pp 1339-1346. (2014). I.F=0.3.
  23. Saleem, S. Nadeem, Rizwan Ul Haq, Buoyancy and metallic particle e?ects on an unsteady water-based ?uid ?ow along a vertically rotating cone, The European Physical Journal Plus, 129 (2014) 213. I.F=1.475
  24. Rizwan Ul Haq, Sohail Nadeem, Z.H. Khan, N.F.M. Noor, Convective heat transfer in MHD slip flow over a stretching surface in the presence of carbon nanotubes, Physica B: Condensed Matter, 457(15) (2015) 40-47.F=1.276.
  25. Rizwan Ul Haq, Zakia Hammouch, Waqar Ahmed Khan, Water-based Squeezing Flow in the presence of Carbon Nanotubes between Two Parallel Disks. Thermal Science. Doi:10.2298/TSCI141102148H. F=0.97.
  26. F. M Noor, Rizwan Ul Haq, S. Nadeem, I. Hashim, Mixed convection stagnation flow of a micropolar nanofluid along a vertically stretching surface with slip effects, Meccanica, 2015, Volume 50,Issue 8, pp 2007-2022, (2015), I.F: 1.82.
  27. Wubshet Ibrahim, Rizwan Ul Haq, Magnetohydrodynamic (MHD) stagnation point flow of nanofluid past a stretching sheet with convective boundary condition, Journal of the Brazilian Society of Mechanical Sciences and Engineering, DOI 10.1007/s40430-015-0347-z. (2015). 1007/s40430-015-0347-z I.F=0.239
  28. A. Khan, R Culham, Rizwan Ul Haq, Heat Transfer Analysis of MHD Water Functionalized Carbon Nanotube Flow over a Static/Moving Wedge, Journal of Nanomaterials, 2015 (2015), 934367, 13, doi.org/10.1155/2015/934367. I. F= 1.6
  29. A. Khan, Z.H. Khan, Rizwan Ul Haq, Flow and heat transfer of ferrofluids over a flat plate with uniform heat flux, The European Physical Journal Plus,(130):86 (2015). I.F=1.475
  30. Rizwan Ul Haq, S. Nadeem, Z. H. Khan, N.F.M. Noor, MHD squeezed flow of water functionalized metallic nanoparticles over a sensor surface, Physica E: Low-dimensional Systems and Nanostructures, (73) :45-53 (2015). I.F=1.856
  31. T. Hussain, Rizwan Ul Haq, Z. H. Khan, S. Nadeem, Water Driven Flow of Carbon nanofluid nanotubes in a rotating channel, Journal of Molecular Liquid, 214, (2016) 136–144. I.F=2.55
  32. Rizwan Ul Haq, D. Rajotia, N. F. M. Noor, Thermophysical Effects of Water Driven Copper Nanoparticles on MHD Axisymmetric Permeable Shrinking Sheet: Dual Nature Study, The European Physical Journal E, 39: 33(2016). I.F=1.757
  33. T. Hussain, Rizwan Ul Haq, N. F. M. Noor, S. Nadeem, Non-linear radiation effects in mixed convection stagnation point flow along a vertically stretching surface, International Journal of Chemical Reactor Engineering, (DOI:10.1515/ijcre-2015-0177) 2016. I.F=0.759
  34. Rehamn, Rizwan Ul Haq, Z.H. Khan, C. Lee, Entropy Generation Analysis of Non-Newtonian Nanofluid with zero normal flux of nanoparticles at the stretching surface, Journal of the Taiwan Institute of Chemical Engineers, 63: 226-235, (2016). I.F= 3.00
  35. Rizwan Ul Haq, N.F.M. Noor, Z.H. Khan, Numerical Simulation of Water base Magnetite nanoparticles between Two Parallel Disks, Advanced Powder Technology, 27(4), 1568-1575, (2016), F=2.63
  36. F.M. Noor, Rizwan Ul Haq, S. Abbasbandy,I. Hashim, Heat flux performance in a porous medium embedded Maxwell fluid ow over a vertically stretched plate due to heat absorption, Journal of nonlinear science and applications, 9, 2986-3001, (2016). I.F=1.27
  37. Rizwan Ul Haq, S.T. Hussain, Z.H. Khan, Z. Hammouch, Flow and Heat transfer analysis of Water and Ethylene Glycol based Cu nanoparticles between two parallel disks with Suction/Injection effects, Journal of Molecular Liquids, 221 (2016) 298–304. F=2.55
  38. A. Halim, Rizwan Ul Haq, N.F.M. Noor, Active and passive controls of nanoparticles in Maxwell stagnation point flow over a slipped stretched surface, Meccanica, (in press) (2016). I.F=1.828
  39. Rizwan Ul Haq, H. Khan, W. A. Khan, InayatAli Shah,Viscous Dissipation Effects in Water Driven Carbon Nanotubes along a Stream Wise and Cross Flow Direction, International Journal of Chemical Reactor Engineering, DOI: 10.1515/ijcre-2016-0059. I.F=0.90
  40. Atlas, Rizwan Ul Haq, T. Mekkaoui, Active and zero flux of nanoparticles between a squeezing channel with thermal radiation effects, Journal of Molecular Liquids, 223, November 2016, Pages 289-298. I.F=2.74
  41. Prabhakar besthapu, Rizwan Ul Haq, Shankar bandari, Impact of inclined Lorentz forces on Tangent hyperbolic nanofluid flow with zero normal flux of nanoparticles at the stretching sheet, Neural Computing and Applications, 10.1007/s00521-016-2601-4 (2016). F=1.492
  42. Faisal Shahzad, Rizwan Ul Haq, Qasem M. Al-Mdallal, Water Driven Cu Nanoparticles between two concentric ducts with Oscillatory Pressure Gradient, Journal of Molecular Liquid (224), 322-332 (2016). F=2.74
  43. Sajjad?ur?Rehman, Rizwan?ul?Haq, Lee, S. Nadeem, Numerical study of non?Newtonian fluid flow over an exponentially stretching surface: an optimal HAM validation, Journal of the Brazilian Society of Mechanical Sciences and Engineering, DOI 10.1007/s40430-016-0687-3, (2016). I.F=0.963
  44. Rizwan Ul Haq, Naveed Kazmi, Toufik Mekkaoui, Thermal management of water based SWCNTs enclosed in a partially heated trapezoidal cavity via FEM, International Journal of Heat and Mass Transfer, 112 (2017) 972-982. I.F=3.458.
  45. Hashim, Masood Khan, A. S. Alshomrani, Rizwan Ul Haq, Investigation of dual solutions in flow of a non-Newtonian fluid with homogeneous-heterogeneous reactions: Critical points, European Journal of Mechanics / B Fluids, 68 (2018) 30–38. I.F=1.969
  46. Muhammad Usman, Rizwan Ul Haq, Muhammad Hamid, Wei Wang, Least square study of heat transfer of water based Cu and Ag nanoparticles along a converging/diverging channel, In Journal of Molecular Liquids, 249 (2018) 856–867. F=3.648
  47. Rizwan-ul-Haq, Z. Hommouch, S. T. Hussain, Mekkaoui, MHD Mixed Convection Flow along a Vertically Heated sheet, Journal of Hydrogen Energy, 42(24) (2017), 15925-15932. I.F=3.582
  48. Rizwan Ul Haq, Faisal Shahzad, Qasem M. Al-Mdallal, MHD Pulsatile Flow of Engine oil based Carbon Nanotubes between Two Concentric Cylinders, Results in Physics, 7, 57-68 (2017). F=1.337
  49. Prabhakar Besthapu, Rizwan Ul Haq, Shankar Bandari, Thermal Radiation and Slip effects on MHD Stagnation Point Flow of Non-Newtonian Nanofluid over a Convective Stretching Surface, Neural Computing and Applications, (DOI: 1007/s00521-017-2992-x) I.F=2.505
  50. Rizwan-ul-Haq, Feroz Ahmed Soomro, Z.H. Khan, Qasem M. Al-Mdallal, Numerical study of stream wise and cross flow in the presence of heat and mass transfer, The European Physical Journal Plus, (2017) 132: 214. F=1.753
  51. Irfan Rashid, Rizwan Ul Haq, Z.H. Khan, Qasem M. Al-Mdallal, Flow of water based alumina and copper nanoparticles along a moving surface with variable temperature, Journal of Molecular Liquids, (2017). https://doi.org/10.1016/j.molliq.2017.09.089. F=3.648
  52. Prabhakar Besthapu, Rizwan Ul Haq, Shankar Bandari, Qasem M. Al-Mdallal, Mixed convection flow of thermally stratified MHD nanofluid over an exponentially stretching surface with viscous dissipation effect, Journal of the Taiwan Institute of Chemical Engineers, 71 (2017) 307–314.F=2.848
  53. Noor Muhammad, Sohail Nadeem, Rizwan Ul Haq, Heat transport phenomenon in the ferromagnetic fluid over a stretching sheet with thermal stratification, Results in Physics,7, (2017) 854-861. F=1.337
  54. Irfan Rashid, Rizwan Ul Haq, Qasem M. Al-Mdallal, Aligned magnetic field effects on water based metallic nanoparticles over a stretching sheet with PST and thermal radiation effects,Physica E: Low-dimensional Systems and Nanostructures, 89 (2017) 33-42, F=1.904
  55. Feroz Ahmed Soomro, Rizwan-ul Haq, Zafar Hayat Khan, Qiang Zhang, Passive control of nanoparticle due to convective heat transfer of Prandtl fluid model at the stretching surface, Chinese Journal of Physics, 55(4) (2017)1561-1568. F=0.514
  56. Fiaz Ur Rehman, S. Nadeem, Rizwan Ul Haq, Heat transfer analysis for three-dimensional stagnation-point flow over an exponentially stretching surface, Chinese Journal of Physics, 55(4) (2017) 1552-1560. F=0.514
  57. Rizwan Ul Haq, Irfan Rashid, Z.H. Khan, Effects of aligned magnetic field and CNTs in two different base fluids over a moving slip surface, Journal of Molecular Liquids, 243 (2017) 682-688. F=3.648
  58. Ganesh Kumar, Rizwan-ul-Haq, N.G. Rudraswamy, B.J. Gireesha, Effects of mass transfer on MHD three dimensional flow of a Prandtl liquid over a flat plate in the presence of chemical reaction, Results in Physics, 7 (2017) 3465-3471. I.F=0.946
  59. Abrar, Rizwan Ul Haq, M. Awais, Irfan Rashid, Entropy Analysis in a Cilia Transport of Nanofluid under the Influence of Magnetic Field, Nuclear Engineering and Technology, (2017) in press. I.F=1.144
  60. H. Khan, M. Qasim, Rizwan Ul Haq, Qasem M. Al-Mdallal, Closed form dual nature solutions of fluid flow and heat transfer over a stretching/shrinking sheet in a porous medium, Chinese Journal of Physics, 55 (2017) 1284–1293. I.F=0.514
  61. Alam, M. Najam-Ul-Islam, U. Mujahid, S.A.A. Shah, Rizwan Ul Haq, Refractivity variations and propagation at Ultra High Frequency, Results in Physics, (2017), 10.1016/j.rinp.2017.09.050, I.F=0.946
  62. Feroz Ahmed Soomro, Rizwan-ul-Haq, Z.H. Khan, Qiang Zhang, Numerical study of entropy generation in MHD water-based carbon nanotubes along an inclined permeable surface, The European Physical Journal Plus, (2017) 132: 412. F=1.753
  63. Feroz Ahmed Soomro, Aurang zaib, Rizwan Ul Haq, Dual nature solution of water functionalized copper nanoparticles along a permeable shrinking cylinder: FDM approach, International Journal of Heat and Mass Transfer, (2018) Accepted, I.F=3.891.
  64. Rizwan Ul Haq, S. Aman, Water functionalized CuO nanoparticles filled in a partially heated trapezoidal cavity with inner heated obstacle: FEM approach, International Journal of Heat and Mass Transfer, 129 (2019) 401-417, I.F=3.891.
  65. Rizwan Ul Haq, Feroz Ahmed Soomro, Z. Hammouch, Sajjad Ur Rehman, Heat exchange within the partially heated C-shape cavity filled with the water based SWCNTs, International Journal of Heat and Mass Transfer, 127, (2018) 506-514, I.F=3.891.
  66. M. Usman, T. Zubair, M. Hamid, Rizwan Ul Haq, and Wei Wang, Cu-Al_2O_3/Water hybrid nanofluid through a permeable surface presence of nonlinear radiation and variable thermal conductivity via LSM, International Journal of Heat and Mass Transfer, Accepted (in press). 2018. I.F=3.458.
  67. Feroz Ahmed Soomro, M. Usman, Rizwan Ul Haq, W. Wang, Melting heat transfer analysis of Sisko fluid over a moving surface with nonlinear thermal radiation via collocation method, International Journal of Heat and Mass Transfer, 126 (2018) 1034–1042. I.F=3.458.
  68. M. Usman, T. Zubair, M. Hamid, Rizwan Ul Haq, and Wei Wang, Shape effects of MoS2 nanoparticles on rotating flow of nanofluid along a stretching surface with variable thermal conductivity: A Galerkin Approach, International Journal of Heat and Mass Transfer, 124 (2018) 706–714. I.F=3.458.
  69. M. Usman, Feroz Ahmed Soomro, Rizwan Ul Haq, W. Wang, Ozlem Defterli, Thermal and velocity slip effects on Casson nanofluid flow over an inclined permeable stretching cylinder via collocation method, International Journal of Heat and Mass Transfer, 122(2018) 1255-1263. I.F=3.458.
  70. Rizwan-ul-Haq, F. A. Soomro, Toufik Mekkaoui, Qasem M. Al-Mdallal, MHD natural convection flow enclosure in a corrugated cavity filled with a porous medium, International Journal of Heat and Mass Transfer, 121 (2018) 1168–1178. I.F=3.458.
  71. Muhammad Usman, Muhammad Hamid, Rizwan Ul Haq, Wei Wang, Heat and fluid flow of water and ethylene-glycol based Cu-nanoparticles between two parallel squeezing porous disks: LSGM approach, International Journal of Heat and Mass Transfer, 123, (2018) 888-895. I.F=3.458.
  72. Rizwan Ul Haq, Feroz Ahmed Soomro, Zakia Hammouch, Heat transfer analysis of CuO-water enclosed in a partially heated rhombus with heated square obstacle, International Journal of Heat and Mass Transfer, 118 (2018) 773–784. F=3.458.
  73. A. Soomro, Z. H. Khan, Rizwan Ul Haq, Q. Zhang, Heat transfer analysis of Prandtl liquid nanofluid in the presence of homogeneous-heterogeneous reactions, Results in Physics, (2018), in Press I.F=2.147
  74. Usman, T. Zubair, M. Hamid, Rizwan Ul Haq, and Wei Wang, Wavelets solution of MHD 3-D fluid flow in the presence of slip and thermal radiation effects, Physics of fluids. 30, 023104 (2018). I.F=2.232.
  75. A. Soomro, Rizwan Ul Haq, Qasem M. Al-Mdallal, Q. Zhang, Heat generation /absorption and nonlinear radiation effects on stagnation point flow of nanofluid along a moving surface, Results in Physics, 8 (2018) 404-414. I.F=0.946
  76. Fiaz Ur Rehman, S. Nadeem, Rizwan Ul Haq, Thermophysical analysis of three-dimensional MHD stagnation-point flow of nano-material influenced by an exponential stretching surface, Results in Physics, (2017), 8 (2018) 316–323, F=0.946
  77. Zaib, Rizwan Ul Haq, A. J. Chamkha, M. M. Rashidi, Impact of partial slip on mixed convective flow towards a Riga plate comprising micropolar TiO2-kerosene/water nanoparticles, International Journal of Numerical Methods for Heat and Fluid Flow, (2018) Accepted, I.F=2.45
  78. Feroz Ahmed Soomro, Muhammad Usman, Rizwan Ul Haq, W. Wang, Thermal and velocity slip effects on MHD mixed convection flow of Williamson nanofluid along a vertical surface: Modified Legendre wavelets approach, Physica E: Low-dimensional Systems and Nanostructures, 104 (2018) 130-137. F=2.399
  79. Muhammad Usman, Muhammad Hamid, Rizwan Ul Haq, Wei Wang, An efficient algorithm based on Gegenbauer wavelets for the solutions of variable-order fractional differential equations, European Physical Journal Plus, (2018) 133: 327. F=2.240
  80. A.S. Dogonchi, Ali J. Chamkha, M. Hashemi-Tilehnoee, S.M. Seyyedi, Rizwan ul Haq, D.D. Ganji, Effects of homogeneous-heterogeneous reactions and thermal radiation on magneto-hydrodynamic Cu-water nanofluid flow over an expanding flat plate with non-uniform heat source, Journal of Central South University, accepted (2018). I.F=0.761

View Publications on BU Research Portal

Achievements

  • Research Productivity Award — Pakistan Council for Science and Technology
    • Sci ID: 28745
  • Award of TWAS Fellowship for Research and Advanced Training Subject — Award of 2016 TWAS Fellowship for Research and Advanced Training
    • FR number: 3240288442
  • Award of Scholarship under “International Research Support Initiative Program” — HEC
    • Letter No: 1-8/HEC/2013/2804
    • PIN: IRSIP 24 PS 10
  • Best Teaching & Results Award — Islamabad Model College for Boys (IMCB), Pakistan

International Conferences

  • Simposium Kebangsaan Sains Matematik (Sksm-23). (23-26 Nov 2015) Malaysia.
    • Rizwan Ul Haq, N. F. M. Noor
    • Title: Heat Transfer Analysis of Water Based Carbon Nanotubes over a Stretching Cylinder, American Institute of Physics Conference Proceedings. (2015)
  • Computational Mathematics and Engineering Science. (3-6 March 2016) Morocco.
    • Rizwan Ul Haq
    • Title: Analysis of heat transfer in Water via Carbon nanotubes, JNSA, proceeding (2016)
  • CASM International Conference on Differential Equations and Applications (May 26-28), LUMS, Lahore, Pakistan
    • Title: Model based analysis of water driven CNTs over a stretching cylinder

Research Project Approved

  • Research Title: Newtonian and non-Newtonian nanofluid boundary layer flows under influence of both zero and nonzero normal fluxes.
    • Research Grant No: FRGS/1/2015/SG04/UM/02/1
    • Project Period: 2nd Nov 2015 – 31st Oct 2017
    • Grant Provider: Ministry of Higher Education, Malaysia
    • Research Investigator/Co-researcher: Rizwan Ul Haq
    • Research Project Leader: Noor Fadiya Mohn Noor

Referee of International Journals

  • International Journal of Heat and Mass Transfer
  • International Journal of Thermal Science
  • Journal of Taiwan Institute of Chemical Engineering
  • Chines Physics B
  • IEEE: Transection in Nanotechnology
  • Journal of Molecular Liquid
  • Alexandria Engineering Journal
  • Heat transfer research
  • Journal of Porous Media
  • Thermal Science
  • Meccanica
  • Neural Computing and Applications
  • Journal of Porous Media
  • International journal of Hydrogen Energy

Graduate Courses Taught

  • Advanced Mathematics Modeling

Undergraduate Courses Taught

  • Calculus-I
  • Calculus-II
  • Vector Calculus & PDEs
  • Linear Algebra
  • Differential Equations
  • Numerical Analysis
  • Probability & Statistics