Publications

(a) Journals

Diyana Munir, I., Aini Jaafar, N., Md Basir, M. F., Naganthran, K., & Ahmed, S. E. (2023). Solute dispersion of Hershel-Bulkley fluid through an inclined artery. Waves in Random and Complex Media, 1-22.

Muhammad, M. H., Abas, S. S., Jaafar, N. A., Usman, A., & Mamat, M. (2023). Mathematical Modeling on Magnetohydrodynamics Upper Convected Maxwell Fluid Flow Past a Flat Plate Using Spectral Relaxation Approach. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 106(1), 23-38.

Usman, A., Abas, S. S., Jaafar, N. A., Muhammand, M. H., & Mamat, M. (2023). A Model on Free Convective Casson Fluid Flow Past a Permeable Vertical Plate with Gyrotactic Microorganisms. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 105(2), 31-50.

Munir, I. D., Jaafar, N. A., & Shafie, S. (2022, December). Analysis on the Solute Dispersion in Blood Flow Through an Inclined Artery with the Presence of Chemical Reaction. In International Conference on Mathematical Sciences and Statistics 2022 (ICMSS 2022) (pp. 398-410). Atlantis Press.

Moustafa, M., Roslly, M. N., Ismail, Z., Jaafar, N. A., Shafie, S., & Mokhtar, N. (2022, December). Mathematical Modelling and Simulation of Periodontal Ligament Using COMSOL Multiphysics. In International Conference on Mathematical Sciences and Statistics 2022 (ICMSS 2022) (pp. 267-277). Atlantis Press.

Munir, I. D., Jaafar, N. A., & Shafie, S. (2022). Effect of Catheter and Stenosis on Solute Diffusion in Non-Newtonian Blood Flow through a Catheterized Stenosed Artery. CFD Letters, 14(12), 11-26.

Abidin, S. N. A. M. Z., Jaafar, N. A., & Ismail, Z. (2022). Exact Analysis of Unsteady Convective Diffusion in Herschel-Bulkley Fluid Flow-Application to Catheterised Stenosed Artery. CFD Letters, 14(11), 75-87.

Jaafar, N., Nor, S. R. M., Norrulashikin, S. M., Kamisan, N. A. B., & Mohamad, A. Q. (2022). Increase Students’ Understanding of Mathematics Learning Using the Technology-Based Learning. International Journal of Advanced Research in Future Ready Learning and Education, 28(1), 24-29.

Munir, I. D., Jaafar, N. A., & Shafie, S. (2022). Analysis of Unsteady Solute Dispersion in a Blood Flow of Herschel-Bulkley through a Catheterized Stenosed Artery. Malaysian Journal of Fundamental and Applied Sciences, 18(4), 430-447.

Nor, S. R. M., Kamarudin, A. N., & Jaafar, N. A. (2022). Comparison on the Student’s Performances during Physical and Online Learning in Financial Mathematics Course. International Journal of Advanced Research in Future Ready Learning and Education, 28(1), 1-8.

D.S. Sankar; K.K. Viswanathan; Atulya K. Nagar; Nurul Aini Binti Jaafar; A. Vanav Kumar. “Theoretical Study on Poiseuille Flow of Herschel-Bulkley Fluid in ‎Porous Media‎”. Journal of Applied and Computational Mechanics, 8, 4, 2022, 1246-1269. doi: 10.22055/jacm.2021.36921.2928

Fatin Arisya Azhar, Jadallah Jawdat, Md Faisal Md Basir & N. Aini Jaafar (2022) Mathematical modeling on chaotic convection in a hybrid nanofluids, Waves in Random and Complex Media, DOI: 10.1080/17455030.2022.2099597

Munir, I. D., Jaafar, N. A., & Shafie, S. Analysis on the Unsteady Solute Dispersion in a Blood Flow Through a Catheterized Stenosed Artery.

Zainul Abidin, S. N. A. M., Jaafar, N. A., & Ismail, Z. (2022). Herschel-Bulkley Model of Blood Flow through an Asymmetric Stenosed Artery on Unsteady Reactive Solute Dispersion. MATEMATIKA: Malaysian Journal of Industrial and Applied Mathematics, 38(1), 1–20. Retrieved from https://matematika.utm.my/index.php/matematika/article/view/1390

ZainulAbidin, S. N. M., Jaafar, N. A. & Ismail, Z. (2021). Herschel-Bulkley Model of Blood Flow through a Stenosed Artery with the Effect of Chemical Reaction on Solute Dispersion. Malaysian Journal of Fundamental and Applied Sciences, 17 (2021) 457-474.

ZainulAbidin, S. N. M., Ismail, Z. & Jaafar, N. A. (2021). Mathematical Modeling of Unsteady Solute Dispersion in Bingham Fluid Model of Blood Flow Through an Overlapping Stenosed Artery. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 87 (3) (2021) 134-147

Jaafar, N. A., Mohd ZainulAbidin, S. N., Ismail, Z. & Mohamad, A. Q. (2021). Mathematical Analysis of Unsteady Solute Dispersion with Chemical Reaction Through a Stenosed Artery. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 86(2), 56–73.

Saadun, N. H., Jaafar, N. A., Basir, M. F. M., Anqi, A., & Safaei, M. R. (2021). The effect of body acceleration on the dispersion of solute in a non-Newtonian blood flow through an artery. International Journal of Numerical Methods for Heat & Fluid Flow, 31(8), 2560-2579.

Abduh, M. H. M. M, Sazali, M. I. H. M., Roslan, S. A. D. S., Zainal, R., Jaafar, N. A. & Mohamad, A.Q. (2021). Application of Integration Method in Blood Flow System.

Kamis, N. I., Basir, M. F. M., Jaafar, N. A., Shafie, S., Khairuddin, T. K. A. & Naganthran, K. (2020). Heat Transfer and Boundary Layer Flow through a Thin Film of Hybrid Nanoparticles Embedded in Kerosene Base Fluid Past an Unsteady Stretching Sheet. Open Journal of Science and Technology3(4), 322-334.

Leong, L. S., Basir, M. F. M., Jaafar, N. A., Chaharborj, S. S., Khairuddin, T. K. A. & Naganthran, K. (2020). Numerical solutions for the thin film hybrid nanofluid flow and heat transfer over an unsteady stretching sheet. Open Journal of Science and Technology3(4), 335-344.

Mohammad, A. Q., Jaafar, N. A., Shafie, S. Ismail, Z. & Qasim, M. (2019). Theoretical study on rotating casson fluid in moving channel disk. Journal of Physics: Conference Series, 1336, 012039.

Sankar, D. S., Jaafar, N. A. & Yatim, Y. M. (2018). Unsteady solute dispersion in blood rheology with  reversible phase exchange at the artery wall. International Journal of Engineering and  Technology, 7(2), 750-754.

Jaafar, N. A. Yatim, Y. M. & Sankar, D. S. (2017). Mathematical analysis of unsteady dispersion in  blood flow with  reversible and irreversible boundary  absorption. Far East Journal of  Mathematical Sciences, 102(1), 1-54.

Jaafar, N. A. Yatim, Y. M. & Sankar, D. S. (2017). Effect of chemical reaction in solute dispersion in  Herschel-Bulkley   fluid flow with applications to blood flow. Advances and Applications in Fluid  Mechanics, 20(2), 279-310.

Jaafar, N. A. Yatim, Y. M. & Sankar, D. S. (2016). Influence of chemical reaction on the steady  dispersion of solute in   blood flow – a mathematical model. Far East Journal of Mathematical  Sciences, 100(4), 617-642.

Sankar, D. S., Jaafar, N. A. & Yatim, Y. M. (2016). Mathematical analysis for unsteady dispersion of  solutes in blood   stream – a comparative study. Global Journal of Pure and Applied  Mathematics, 12(2), 1337-1374.

Sankar, D. S., Jaafar, N. A. & Yatim, Y. M. (2012). Nonlinear analysis for shear augmented dispersion  of solutes in   blood flow through narrow arteries. Journal of Applied Mathematics, 2012, 1-24.

(b) Proceedings

Sankar, D. S., Jaafar, N. A., Ismail, A. I. M. and Nagar, A. K. (2011). Mathematical modeling of a  complex system for MHD flow in hemodynamics. Bio-Inspired Computing: Theories and  Applications (BIC-TA), 2011 Sixth International Conference, 324-328.

Jaafar, N. A., Yatim, Y. M. and Sankar, D. S. (2014). Mathematical modeling of shear augmented dispersion of solute in blood flow. AIP Conference Proceedings, 1605, 374-379.

Jaafar, N. A., Yatim, Y. M. and Sankar, D. S. (2016). Mathematical analysis for unsteady dispersion of  solute with chemical reaction in blood flow. AIP Conference Proceedings, 1750(1), 030033-1-7.

(c) Final Year Project Proceedings

Ibrahim, W. Z. A. and Jaafar, N. A. (2019). Exact solutions of the Navier-Stokes equation in cylindrical coordinates using Mathematica. Proceedings of Final Year Project Symposium 2019, 213-221.

Radzi, F. N. M. and Jaafar, N. A. (2020). The effects of magnetic field and fluid temperature on the solute dispersion in blood flow of Casson fluid through an artery. Proceedings of Final Year Project Symposium 2020, 65-74.

Saadun, N. H. and Jaafar, N. A. (2020). The dispersion of solute in a non-newtonian blood flow through an artery with the effect of body acceleration  . Proceedings of Final Year Project Symposium 2020, 65-74.