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Dr. Bhupendra Kumar Sharma

pilani Mathematics

Professor, Department of Mathematics,
BITS Pilani, Pilani Campus

Computational Fluid Dynamics, Mathematical Modeling of Bio-Fluid, Numerical Solution of Differential Equations
Chamber No. 6067-F
Department of Mathematics, Birla Institute of Technology & Science, Pilani- 333031, Rajasthan. India.
bksharma@pilani.bits-pilani.ac.in
01596-255681

Publications

Google Scholar Link:

ResearcherID: E-6198-2012

Scopus Author ID: 57225759538

ORCID: https://orcid.org/0000-0002-2051-9681 

 

Patent/Design Patent:

  1. Title: A Method For Optimizing Heat Transfer And Fluid Flow In The Stenosed Bifurcated Arteries Using Tetrahybrid Nanofluid Model, Name Of Inventor: Bhupendra Kumar Sharma, Rishu Gandhi, Date Of Filing Of Application :16/05/2024, Application No.: 202411038619.
  2. Title: Method For Entropy And Heat-Transfer Analysis In Solar Collector With Ann And Jeffrey Hybrid Nanofluid, Name Of Inventor: Bhupendra Kumar Sharma, Anup Kumar, Date Of Filing Of Application: 21/05/2024, Application No.202411039475 A, Publication Date: 07/06/2024,
  3. Title: Solar Panel Dual Management System For Energy Storage Optimization, Name Of Inventor: M Sharma, Bhupendra K Sharma et al. UK Design, Design Patent Number: 6367032, Grant Date: 24 May 2024, Registration Date: 20 May 2024
  4. Title: Real Time Blood Flow Monitoring Smart Device. Name Of Inventor: M Sharma, Bhupendra Kumar Sharma et al.  Design Patent No.: 405817-001, Date: 27/01/2024, Grant Date: 04/04/2024
  5. Title: Home Enabled Solar Energy Storage System, Name Of Inventor: Bhupendra K Sharma et al.. Design Patent No.: 397582-001, Date : 14/10/2023,  Grant Date: 19/12/2023

Books

  • Sharma, B.  K.,  Jha, A. K.: A Text Book of Engineering Mathematics, Asian Books Pvt. Ltd.  New Delhi, 2008. ISBN: 8184120818, 9788184120813
  • Tyagi, S. K., Sharma,B. K. and  Yadav, K: Applied Mathematics-II, Asian Books Pvt. Ltd.  New Delhi, 2 nd ed. 2010. ISBN: 8184120990.

Book Chapters

  1.  Gandhi, R., Sharma, B.K. (2023). Modelling Pulsatile Blood Flow Using Casson Fluid Model Through an Overlapping Stenotic Artery with Au-Cu Hybrid Nanoparticles: Varying Viscosity Approach. In Advances in Mathematical Modelling, Applied Analysis and Computation. ICMMAAC 2022 (pp. 155-176). Lecture Notes in Networks and Systems, vol 666. Springer, Cham. https://doi.org/10.1007/978-3-031-29959-9_10

  2. Khanduri, U., Sharma, B. K. (2023). Mathematical Analysis of Hall Effect and Hematocrit Dependent Viscosity on Au/GO-Blood Hybrid Nanofluid Flow Through a Stenosed Catheterized Artery with Thrombosis. In Advances in Mathematical Modelling, Applied Analysis and Computation: Proceedings of ICMMAAC 2022 (pp. 121-137). Lecture Notes in Networks and Systems, vol 666. Cham: Springer Nature. https://doi.org/10.1007/978-3-031-29959-9_8

  3. Gandhi, R., Sharma, B.K. (2022). Unsteady MHD Hybrid Nanoparticle (Au-Al22O33/Blood) Mediated Blood Flow Through a Vertical Irregular Stenosed Artery: Drug Delivery Applications. In: Banerjee, S., Saha, A. (eds) Nonlinear Dynamics and Applications. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-99792-2_28.
  4.  Khanduri, U., Sharma, B.K. (2022). Entropy Analysis for MHD Flow Subject to Temperature-Dependent Viscosity and Thermal Conductivity. In: Banerjee, S., Saha, A. (eds) Nonlinear Dynamics and Applications. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-99792-2_38
  5.  Poonam, Sharma, B.K. (2022). Mathematical Analysis of Hybrid Nanoparticles (Au−Al2O3)(Au−Al2O3) on MHD Blood Flow Through a Curved Artery with Stenosis and Aneurysm Using Hematocrit-Dependent Viscosity. In: Banerjee, S., Saha, A. (eds) Nonlinear Dynamics and Applications. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-99792-2_34

Research Papers

  1. P Sharma, Sharma, B. K., NK Mishra, B Almohsen, MM Bhatti (2024): Electroosmotic microchannel flow of blood conveying copper and cupric nanoparticles: Ciliary motion experiencing entropy generation using backpropagated networks. ZAMM‐Journal of Applied Mathematics and Mechanics. 104 (5), https://doi.org/10.1002/zamm.202300442. SCIE
  2. A Jan, RA Shah, H Bilal, B Almohsen, R Jan, Sharma, B. K. (2024): Dynamics and stability analysis of enzymatic cooperative chemical reactions in biological systems with time-delayed effects, Partial Differential Equations in Applied Mathematics. 11, 100850, https://doi.org/10.1016/j.padiff.2024.100850 . SCIE
  3. Richa, Sharma, B. K., B Almohsen, D Laroze (2024): Intelligent neuro-computational modelling for MHD nanofluid flow through a curved stretching sheet with entropy optimization: Koo–Kleinstreuer–Li approach, Journal of Computational Design and Engineering, 14(7), https://doi.org/10.1093/jcde/qwae078 . SCIE
  4. Govind, P Sharma, Sharma, B. K, R Gandhi, B Almohsen, LM Pérez (2024): Computational analysis of entropy generation optimization for Cu–Al2O3 water-based chemically reactive magnetized radiative hybrid nanofluid flow. AIP Advances 14 (7), 075111, https://doi.org/10.1063/5.0213946 . SCIE
  5. L Ali, V Kumar, P Kumar, A Mahajan, Sharma, B. K., R Apsari (2024): The significant role of Darcy–Forchhiemer with integrated hybrid nanoparticles (Graphene and TiO2) on dusty nanofluid flow subjected to heat conduction, Numerical Heat Transfer, Part B: Fundamentals, 1-16, https://doi.org/10.1080/10407790.2024.2345697. SCIE
  6. U Khanduri, Sharma, B. K., B Almohsen, MM Bhatti (2024): Electroosmotic and Gyrotactic Microorganisms Effects on MHD Al2O3-Cu/Blood Hybrid Nanofluid Flow through Multi-Stenosed Bifurcated Artery. Frontiers in Bioscience-Landmark 29 (3), 110. https://doi.org/10.31083/j.fbl2903110 . SCIE
  7. Sharma, B. K., U Khanduri, R Gandhi, T Muhammad (2024): Entropy generation analysis of a ternary hybrid nanofluid (Au-CuO-GO/blood) containing gyrotactic microorganisms in bifurcated artery. International Journal of Numerical Methods for Heat & Fluid Flow 34 (2), 980. https://doi.org/10.1108/HFF-07-2023-0439 . SCIE
  8. M Sharma, Sharma, B. K., C Kumawat, AK Jalan, N Radwan (2024): Computational Analysis of MHD Nanofluid Flow Across a Heated Square Cylinder with Heat Transfer and Entropy Generation. Acta Mechanica et Automatica 18 (3), 536-547.  https://doi.org/10.2478/ama-2024-0057 . ESCI, SCOPUS
  9. A Kumar, Sharma, B. K., B Bin-Mohsen, U Fernandez-Gamiz (2024): Statistical analysis of radiative solar trough collectors for MHD Jeffrey hybrid nanofluid flow with gyrotactic microorganism: entropy generation optimization, International Journal of Numerical Methods for Heat & Fluid Flow 34 (2), 948-979. https://doi.org/10.1108/HFF-06-2023-035 . SCIE
  10. C Kumawat, Sharma, B. K., T Muhammad, L Ali (2024): Computer simulation of two phase power-law nanofluid of blood flow through a curved overlapping stenosed artery with induced magnetic field: entropy generation optimization, International Journal of Numerical Methods for Heat & Fluid Flow 34 (2), 741-772. https://doi.org/10.1108/HFF-04-2023-0195 . SCIE
  11. NK Mishra, P Sharma, Sharma, B. K., B Almohsen, LM Pérez (2024): Electroosmotic MHD ternary hybrid Jeffery nanofluid flow through a ciliated vertical channel with gyrotactic microorganisms: Entropy generation optimization. Heliyon 10 (3)., e25102. https://doi.org/10.1016/j.heliyon.2024.e25102. SCIE
  12. R Gandhi, Sharma, B. K., A Kumar, B Almohsen, U Fernandez-Gamiz (2024): Entropy generation optimization of EMHD mixed convective flow with higher order chemical reaction: Sensitivity analysis. Case Studies in Thermal Engineering 54, 104079. https://doi.org/10.1016/j.csite.2024.104079 . SCIE
  13. PK Sharma, Sharma, B. K., A Kumar (2024): Mathematical analysis of chemically reacting species and radiation effects on mhd free convective flow through a rotating porous medium. Acta Mechanica et Automatica 18 (2), 193-203. https://doi.org/10.2478/ama-2024-0023 . ESCI, SCOPUS
  14. Sharma, B. K, R Gandhi (2023): Entropy-driven optimization of radiative Jeffrey tetrahybrid nanofluid flow through a stenosed bifurcated artery with Hall effects. Physics of Fluids 35, 121903. https://doi.org/10.1063/5.0179798 . SCIE
  15. Sharma, B. K, A Kumar, NK Mishra, I Albaijan, U Fernandez-Gamiz (2023): Computational analysis of melting radiative heat transfer for solar Riga trough collectors of Jeffrey hybrid-nanofluid flow: a new stochastic approach. Case Studies in Thermal Engineering 52, 103658. https://doi.org/10.1016/j.csite.2023.103658. SCIE
  16. R Gandhi, Sharma, B. K, U Khanduri (2023): Electromagnetohydrodynamics Casson pulsatile nanofluid flow through a bifurcated stenosed artery: Magnetically targeted drug delivery. Journal of Applied Physics 134, 184701. https://doi.org/10.1063/5.0172553 . SCIE
  17. Sharma, B. K, A Kumar, B Almohsen, U Fernandez-Gamiz: Computational analysis of radiative heat transfer due to rotating tube in parabolic trough solar collectors with Darcy Forchheimer porous medium. Case Studies in Thermal Engineering 51, 103642. https://doi.org/10.1016/j.csite.2023.103642 . SCIE
  18. Sharma, B. K, U Khanduri, NK Mishra, AJ Chamkha (2023): Analysis of Arrhenius activation energy on magnetohydrodynamic gyrotactic microorganism flow through porous medium over an inclined stretching sheet with thermophoresis and Brownian motion. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering. 237, 5. https://doi.org/10.1177/09544089221128768 . SCI
  19. Sharma, B. K, U Khanduri, NK Mishra, I Albaijan, LM Pérez (2023): Entropy generation optimization for the electroosmotic MHD fluid flow over the curved stenosis artery in the presence of thrombosis. Scientific Reports 13 (1), 15441. https://doi.org/10.1038/s41598-023-42540-0 . SCIE
  20. NK Mishra, Sharma, B. K, P Sharma, T Muhammad, LM Pérez (2023): Entropy generation optimization of cilia regulated MHD ternary hybrid Jeffery nanofluid with Arrhenius activation energy and induced magnetic field. Scientific Reports 13 (1), 14483. https://doi.org/10.1038/s41598-023-41299-8 . SCIE
  21. Sharma B K, Kumawat C, Bhatti M M (2023): Optimizing energy generation in power-law nanofluid flow through curved arteries with gold nanoparticles, Numerical Heat Transfer, Part A: Applications. https://doi.org/10.1080/10407782.2023.2232123Taylor & Francis, SCI, Q2, IF: 2.0
  22. Sharma B K, Sharma P, Mishra N K, Noeiaghdam, S.Fernandez-Gamiz U (2023): Bayesian regularization networks for micropolar ternary hybrid nanofluid flow of blood with homogeneous and heterogeneous reactions: Entropy generation optimization. Alexandria Engineering Journal,  77, pp.127-148 https://doi.org/10.1016/j.aej.2023.06.080, Elsevier, SCIE, Q1, IF: 6.8
  23. Sharma B K, Kumawat C, Khanduri Umesh, Mekheimer, K S (2023):Numerical investigation of the entropy generation analysis for radiative MHD power-law fluid flow of blood through a curved artery with Hall effect. Waves in Random and Complex Media. https://doi.org/10.1080/17455030.2023.2226228Taylor & Francis, Scopus, Q2, IF: 4.051
  24. Sharma B K, Sharma P, Mishra N K, Fernandez-Gamiz U (2023): Darcy-Forchheimer hybrid nanofluid flow over the rotating Riga disk in the presence of chemical reaction: Artificial neural network approach. Alexandria Engineering Journal, 76, 101-130. https://doi.org/10.1016/j.aej.2023.06.014Elsevier, SCIE, Q1, IF: 6.8
  25. Kumar, A., Sharma, B. K., Gandhi, R., Mishra, N. K., & Bhatti, M. M. (2023). Response surface optimization for the electromagnetohydrodynamic Cu-polyvinyl alcohol/water Jeffrey nanofluid flow with an exponential heat source. Journal of Magnetism and Magnetic Materials, 576, 170751.https://doi.org/10.1016/j.jmmm.2023.170751 ,  Elsevier, SCI, Q2, IF: 3.097.
  26. Khanduri, U., Sharma, B. K., Sharma, M., Mishra, N. K., Saleem N (2023): Sensitivity analysis of electroosmotic magnetohydrodynamics fluid flow through the curved stenosis artery with thrombosis by response surface optimization. Alexandria Engineering Journal, 75, 1-27.https://doi.org/10.1016/j.aej.2023.05.054.  Elsevier, SCIE, Q1, IF: 6.8
  27. Sharma B K, Gandhi Rishu, Abbass T, Bhatti M M (2023): MHD hemodynamics hybrid nanofluid flow through an inclined stenotic artery, Applied Mathematics and Mechanics. 44 (3), 459-476. https://doi.org/10.1007/s10483-023-2961-7, . Springer, SCIE, Q2, IF: 3.918
  28. Sharma, M., Sharma, B. K., Khanduri, U., Mishra, N. K., Noeiaghdam, S., & Fernandez-Gamiz, U. (2023). Optimization of heat transfer nanofluid blood flow through a stenosed artery in the presence of Hall effect and hematocrit dependent viscosity. Case Studies in Thermal Engineering, 47, 103075.https://doi.org/10.1016/j.csite.2023.103075.  Elsevier, SCIE, Q1, IF: 6.8
  29. Gandhi R; Sharma B K; Mishra N K; Al-Mdallal Q M (2023): Computer simulations of EMHD Casson nanofluid Flow of blood through an irregular stenotic permeable artery: Application of Koo-Kleinstreuer-Li Correlations. Nanomaterials 2023, 13, 652. https://doi.org/10.3390/ nano13040652. MDPI, SCIE, Q1, IF: 5.719
  30. Sharma P K, Sharma B K, Mishra N K, Rajesh H (2023). Impact of Arrhenius activation energy on MHD nano-fluid flow past a stretching sheet with exponential heat source: A modified Buongiorno’s model approach. International Journal of Modern Physics B. https://doi.org/10.1142/S0217979223502843. World Scientific, SCI, SCIE, Q3, IF: 1.404
  31. Gandhi, R., Sharma, B. K., Al-Mdallal, Q. M., & Mittal, H. V. R. (2023). Entropy generation and shape effects analysis of hybrid nanoparticles (Cu-Al2O3/blood) mediated blood flow through a time-variant multi-stenotic artery. International Journal of Thermofluids, 18, 100336.https://doi.org/10.1016/j.ijft.2023.100336
     Elsevier, Scopus, Q1, IF: 9.47.
  32. Sharma B K, Kumar Anup, Gandhi Rishu, Bhatti M M, Mishra N K (2023): Entropy generation and thermal radiation analysis of EMHD Jeffrey nanofluid flow: Applications in solar energy, Nanomaterials 2023, 13, 544. https:// doi.org/10.3390/nano13030544, MDPI, SCIE, Q1, IF: 5.719
  33. Mishra N K, Sharma M, Sharma B K, Khanduri U (2023): Soret and Dufour effects on MHD nanofluid flow of blood through a stenosed artery with variable viscosity. International Journal of Modern Physics B. https://doi.org/10.1142/S0217979223502661. . World Scientific, SCI, SCIE, Q3, IF: 1.404
  34. Khanduri U, Sharma B K (2023): Hall and ion slip effects on hybrid nanoparticles (Au-GO/Blood) flow through a catheterized stenosed artery with thrombosis, Part C: Journal of Mechanical Engineering Science, https://doi.org/10.1177/09544062221136710. SAGE, SCI, Q2, IF: 1.724
  35. Sharma B K, Kumawat C, Makinde O D (2022):Hemodynamical analysis of MHD two phase blood flow through a curved permeable artery having variable viscosity with heat and mass transfer, Biomechanics and Modeling in Mechanobiology. Vol. 21, 797-825. https://doi.org/10.1007/s10237-022-01561-w. Springer, SCIE, Q2, IF: 3.623
  36. Kumawat, C., Sharma, B. K., Al-Mdallal Qasem M., Gorji M M (2022): Entropy generation for MHD two phase blood flow through a curved permeable artery having variable viscosity with heat and mass transfer. International Communications in Heat and Mass Transfer. Vol. 133, 105954.   https://doi.org/10.1016/j.icheatmasstransfer.2022.105954Elsevier, SCIE, Q1, IF: 6.782.
  37. Sharma B K, Poonam, Chamkha A J: (2022): Effects of heat transfer, body acceleration and hybrid nanoparticles (Au − Al2 O3 ) on MHD blood flow through a curved artery with stenosis and aneurysm using hematocrit-dependent viscosity. Waves in Random and Complex Media. DOI: https://doi.org/10.1080/17455030.2022.2125597. Taylor & Francis, SCIE, Q2, IF: 4.051
  38. Sharma B K, Gandhi R, Mishra N K, Al-Mdallal Q (2022): Entropy generation minimization of higher-order endothermic/exothermic chemical reaction with activation energy on MHD mixed convective flow over a stretching surface. Scientific Reports, 12, 17688. https://doi.org/10.1038/s41598-022-22521-5. Springer, SCIE, Q1, IF: 4.995
  39. Sharma B K, Khanduri Umesh, Mishra N K, Chamkha A J (2022): Analysis of Arrhenius activation energy on MHD gyrotactic microorganism flow through porous medium over an inclined stretching sheet with thermophoresis and Brownian motion. Part E: Journal of Process Mechanical Engineering. DOI: https://doi.org/10.1177/09544089221128768. SAGE, SCI, Q2, IF: 1.822
  40. Poonam, Sharma B K, Kumawat C, Kambiz Vafai (2022): Computational biomedical simulations of hybrid nanoparticles (Au-Al2O3/blood-mediated) transport in a stenosed and aneurysmal curved artery with heat and mass transfer: Hematocrit dependent viscosity approach, Chemical Physics Letters, Vol. 800, 139666. https://doi.org/10.1016/j.cplett.2022.139666. Elsevier, SCI, SCIE, Q2, IF: 2.719  
  41. Sharma B K, Khanduri Umesh, Mishra N K, Mekheimer, K S (2022): Combined effect of Thermophoresis and Brownian motion on MHD mixed convective flow over an inclined stretching surface with radiation and chemical reaction. International Journal of Modern Physics B. DOI: https://doi.org/10.1142/S0217979223500959World Scientific, SCI, SCIE, Q3, IF: 1.404
  42. Gandhi R; Sharma B K; Makinded O D (2022): Entropy analysis for MHD blood flow of hybrid nanoparticles (Au-Al2O3/Blood) of different shapes through an irregular stenosed permeable walled artery under periodic body acceleration: Hemodynamical applications. ZAMM  https://doi.org/10.1002/zamm.202100532Wiley, SCIE, Q2, IF: 1.759
  43. Sharma B K, Kumar Anup, Gandhi Rishu, Bhatti M M (2022): Exponential space and thermal dependent heat source effects on electro-magneto-hydrodynamic Jeffrey fluid ow over a vertical stretching surface. International Journal of Modern Physics B. https://doi.org/10.1142/S0217979222502204World Scientific, SCI, SCIE, Q3, IF: 1.404
  44. Sharma B K, Teja K B R, Divij K, Mishra N K (2022): Double exponential density of states and modified charge carrier transport in organic semiconductors, Journal of Computational Electronics. Vol. 21, 771-780.  https://doi.org/10.1007/s10825-022-01903-y.  Springer, SCIE, Q3, IF: 1.983
  45. Sharma B K and Rishu Gandhi (2022): Combined effects of Joule heating and non-uniform heat source/sink on unsteady MHD mixed convective flow over a vertical stretching surface embedded in a Darcy-Forchheimer porous medium. Propulsion and Power Research. Vol. 11(2), 276-292. https://doi.org/10.1016/j.jppr.2022.06.001. Elsevier, SCIE, Q2, IF: 4.563 
  46. Gandhi R; Sharma B K, Kumawat C; Bég, O. A (2022): Modeling and analysis of magnetic hybrid nanoparticle(Au-Al2O3/blood) based drug delivery through a bell-shaped occluded artery with Joule heating, viscous dissipation and variable viscosity effects, Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering,  https://doi.org/10.1177/09544089221080273. SAGESCI, Q2, IF: 1.822
  47. Sharma, M., Sharma, B. K., & Tripathi, B. (2022): Radiation effect on MHD copper suspended nanofluid flow through a stenosed artery with temperature-dependent viscosity. International Journal of Nonlinear Analysis and Applications, 13(2), 2573-2584. ESCI,
  48. Sharma B K, Gandhi Rishu, Bhatti M M (2022): Entropy analysis of thermally radiating MHD slip flow of hybrid nanoparticles (Au-Al2O3/Blood) through a tapered multi-stenosed artery, Chemical Physics Letters, Volume 790, 139348, doi: https://doi.org/10.1016/j.cplett.2022.139348. Elsevier, SCI, SCIE, Q2, IF: 2.719  
  49. Sharma B K, Sharma P K and S K Chauhan (2022): Effect of MHD on unsteady oscillatory Couette flow through porous media, International Journal of Applied Mechanics and Engineering, 27(1), 188-202. DOI: https://doi.org/10.2478/ijame-2022-0012, Scopus, Q4, IF: 0.767
  50. Kumawat, C., Sharma, B. K., & Mekheimer, K. S. (2021). Mathematical analysis of two-phase blood flow through a stenosed curved artery with hematocrit and temperature dependent viscosity. Physica Scripta, 96 125277. https://doi.org/10.1088/1402-4896/ac454a. IOP, SCI, Q2, IF: 3.081
  51. Sharma B K, Kumawat C. (2021): Impact of temperature dependent viscosity and thermal conductivity on MHD blood flow through a stretching surface with ohmic heating and chemical reaction. Nonlinear Engineering. Modeling and Application. Nonlinear Engineering, vol. 10, no. 1, 2021, pp. 255-271. https://doi.org/10.1515/nleng-2021-0020. De Gruyter, Scopus, ESCI, Q2, IF: 3.029
  52. Tripathi, B., Sharma B K (2021): Two-phase analysis of blood flow through a stenosed artery with the effects of chemical reaction and radiation. Ricerche di Matematica. https://doi.org/10.1007/s11587-021-00571-7. Springer, SCIE, Q3, IF: 1.166
  53. Tripathi, B., Sharma B K (2020): Influence of heat and mass transfer on two-phase blood flow with joule heating and variable viscosity in the presence of variable magnetic field. International Journal of Computational Methods, Vol. 17, No. 03, 1850139. https://doi.org/10.1142/S0219876218501396. World Scientific, SCIE, Q2, IF: 1.734
  54. Tripathi, B., Sharma B K and Sharma, M. (2019): Modeling and Analysis of MHD two-phase blood flow through a stenosed artery having temperature dependent viscosity, Eur. Phys. J. Plus, 134: 466. https://doi.org/10.1140/epjp/i2019-12813-9. Springer, SCIE, Q2, IF: 3.758  
  55. Sharma M., Sharma B K, Gaur R K and Tripathi, B (2019): Soret and Dufour effects in biomagnetic fluid of blood flow through a tapered porous stenosed artery, J Nanofluids, 8(2), 327-336. https://doi.org/10.1166/jon.2019.1584.  
  56. Sharma S; Maiti D K, Alam M M, Sharma B K (2019): Nanofluid flow and heat transfer from heated square cylinder in the presence of upstream rectangular cylinder under Couette-Poiseuille flow, Wind and Structures, Vol. 29, (1), 65-74. https://doi.org/10.12989/was.2019.29.1.065
  57. Sharma M., Gaur R K and Sharma B K (2019): Radiation effect on MHD blood flow through a tapered porous stenosed artery with thermal and mass diffusion. Int. J. of Applied Mechanics and Engineering, 24(2), 411-423. https://doi.org/10.2478/ijame-2019-0025
  58. Tripathi B, Sharma B K (2018): Effect of heat transfer on MHD blood flow through an inclined stenosed porous artery with variable viscosity and heat source, Romanian J. Biophys, 28(3), 89-102.
  59. Sharma B K, Sharma M, Gaur R K (2018): Effect of chemical reaction on Jeffrey fluid model of blood flow through tapered artery with thermo-diffusion and diffuso-thermal gradients. Proceeding: Third Thermal and Fluids Engineering Conference, ASTFE Digital Library, Vol. 18, 1103-1115, DOI: https://doi.org/10.1615/TFEC2018.bio.022113
  60. Tripathi B, Sharma B K (2018): Effect of variable viscosity on MHD inclined arterial blood flow with chemical reaction, Int. J. of Applied Mechanics and Engineering, 23(3), 767-785. https://doi.org/10.2478/ijame-2018-0042
  61. Sharma S; Maiti D K, Alam M M, Sharma B K (2018): Nanofluid (H2O − Al2O3/CuO) flow over a heated square cylinder near a wall under the incident of Couette flow. Journal of Mechanical Science and Technology 32 (2), 659-670. https://doi.org/10.1007/s12206-018-0113-5 
  62. Tripathi, B, Sharma B K (2018): Influence of heat and mass transfer on MHD two-phase blood flow with radiation, AIP Conference Proceedings, Vol. 1975, 030009:1-9 (2018); doi: https://doi.org/10.1063/1.5042179 
  63. Mishra A and Sharma B K (2017): MHD mixed convection flow in a rotating channel in the presence of an inclined magnetic field with the Hall effect. J. Eng. Phys. & Thermo Phy., 90(6), 1563-1574. 
  64.  Sharma B K, Goyal M and Tailor V (2017): Role of slip velocity in a magneto-micropolar fluid flow from a radiative surface with variable permeability: a numerical study. Int. J. of Applied Mechanics and Engineering, 22, No.3, 637-651. 
  65. Sharma B K, Tailor V and Goyal M (2017): Heat source and soret effects on megneto-micropolar fluid flow with variable permeability and chemical reaction, Global Journal of Pure and Applied Mathematics. 13(9),5195-5212. 
  66. Tripathi B, Sharma B K (2016): Effect of heat and mass transfer on MHD flow of blood through an artery with stenosis having variable viscosity. 6th ICCMS Proceeding, IIT Bombay, 33-35, 2016.
  67. Sharma B K, Sharma M, Gaur R K and Mishra A (2015): Mathematical modeling of magneto pulsatile blood flow through a porous medium with a heat source. International Journal of Applied Mechanics and Engineering, 20(2), 385-396. 
  68. Sharma B K, Sharma M and Gaur R K (2015): Thermal radiation effect on inclined arterial blood flow through a non-Darcian porous medium with magnetic field. Proceeding: First Thermal and Fluids Engineering Summer Conference, ASTFE Digital Library,  Vol. 17, 2159-2168, DOI: https://doi.org/10.1615/TFESC1.bio.013147.
  69. Sharma B  K, Gupta S, Krishna V V and Bhargavi R J (2014): Soret and Dufour effects on an unsteady MHD mixed convective flow past an infinite vertical plate with Ohmic dissipation and heat source. Afrika Matematika, 25, 799-825, DOI: https://doi.org/10.1007/s13370-013-0154-6. 
  70. Sharma, B.  K. (2014): Comment on "The influence of variable viscosity on laminar magnetohydrodynamic thermal oscillatory flow past a limiting surface with variable suction". Acta Universitatis Apulensis, 38, 239-241.
  71. Sharma, B.  K. and A. P. Singh (2014): Comment on "Combined heat and mass transfer by mixed convection magnetohydrodynamic (MHD) flow along a porous plate with chemical reaction in presence of heat source" by Zueco, J. and Ahmed, S., Int. J. Phys. Sci.,Vol.9 (18), 413-414 , DOI: IJPS2013.3991.
  72. Sharma, B.  K.,  Mishra, A. and  Gupta, S. (2013): Heat and mass transfer in magneto-biofluid flow through a non-Darcian porous medium with Joule effect. J. Eng. Phys. & Thermo Phy., 86(4), 716-725.
  73. Sharma, B.  K. (2013): Comment on "Steady mixed convection stagnation-point flow of upper convected Maxwell fluids with magnetic field ". Int. J. Phys. Sci., 8(13), 508-509. 
  74. Sharma, B.  K., Singh, A. P., Yadav, K., & Chaudhary, R. C. (2013): Effects of chemical reaction on magneto-micropolar fluid flow from a radiative surface with variable permeability. International Journal of Applied Mechanics and Engineering, 18(3), 833-851.
  75. Sharma, B.  K. (2013): Comments on the paper "A study of induced magnetic field with chemicallyreacting and radiating fluid past a vertical permeable plate".  J. Eng. Phys. Thermo phys, 86 (1), 238-239. 
  76.  Sharma, B.  K., Sharma, P. K., Chand, T.  and Chaudhary, R. C. (2012): Analytical investigation of the hydromagnetic flow in a porous medium due to periodically heated oscillating plate. International Journal of Applied Mechanics and Engineering, 17 (4), 1367-1375. 
  77. Sharma, B.  K. (2012): Comment on "Fluctuating hydromagnetic natural convection flow past a magnetized vertical surface in the presence of thermal radiation" by Ashraf, M., Asghar, S. and Hossain, M. A. [Thermal Science, 16, 2012, 45-45: doi:10.2298/TSCI110805045A]. Thermal Science, 16 (4), 1255-1256. DOI: https://doi.org/10.2298/TSCI1204255S.
  78. Sharma, B.  K., Sharma, P. K.  and Chaudhary, R. C. (2012): Unsteady flow through porous medium induced by periodically rotating half-filled horizontal concentric cylindrical annulus with heat transfer. Int. J. Phys. Sci., 7(10), 1530 - 1539. DOI: https://doi.org/10.5897/IJPS12.158. 
  79. Sharma, B.  K. (2012): Comment on "Analytical solution to the problem of MHD free convective flow of an electrically conducting fluid between two heated parallel plates in the presence of an induced magnetic field". Int. J. Appld. Math. &Comp.’ 4(3), 337-338.
  80.  Sharma, B.  K., Yadav, K., Mishra, N. K. and Chaudhary, R. C. (2012): Soret and Dufour effects on unsteady MHD mixed convection flow past a radiative vertical porous plate embedded in a porous medium with chemical reaction. Applied Mathematics, 3(7), 717-723. doi:https://doi.org/10.4236/am.2012.37105.
  81. Sharma, B.  K. (2012): Comment on "Induced magnetic field with radiating fluid over a porous vertical plate: Analytical study" by Sahin Ahmed. Journal of Naval Architecture and Marine Engineering, 9, T1-T2. DOI:  http://dx.doi.org/10.3329/jname.v9i1.10579. 
  82.  Sharma, B.  K., Jha, A. K. and Chaudhary, R. C. (2012): The effect of suction on  magnetohydrodynamic forced flow of a viscous electrically conducting fluid through a porous medium induced by an rotating disk. International Journal of Applied Mechanics and Engineering, 17 (4), 1297-1308.
  83. Sharma, B.  K., Chand, T.  and Chaudhary, R. C. (2012): Hydromagnetic forced flow between a rotating disc and a naturally permeable stationary porous disc saturated with fluid. Journal of Petroleum and Gas Engineering, 3(1), 8-15. DOI: https://doi.org/10.5897/JPGE11.012
  84. Sharma, B.  K., Chand, T.  and Chaudhary, R. C. (2011): Analytical investigations of the hydromagnetic unsteady flow in a channel partially filled with a porous medium. Bulletin of Pure and Applied Mathematics, 5(1), 43-52.
  85. Sharma, B.  K., Sharma, P. K. and Chand, T. (2011): Effect of radiation on temperature distribution in three-dimensional Couette flow with heat source/sink. International Journal of Applied Mechanics and Engineering, 16(2), 531-542.
  86. Sharma, B.  K., Sharma, P. K.  and Chaudhary, R. C. (2009): Effects of fluctuating surface temperature and concentration on unsteady convection flow past an infinite vertical plate with constant suction. Heat Transfer Research, 40(6), 505-519. 
  87. Jha, N., Sharma, B.  K. and Chaudhary, R. C. (2009):  Design and analysis of quarter sweep ADEI algorithm for linear and nonlinear two point boundary value problems containing singularity: Application to Burger’s equation. Asian J. of Exp. Sci., 23(1),  329-340.
  88. Sharma, B.  K. and Chaudhary, R. C. (2008): Hydromagnetic unsteady mixed convection and mass transfer flow past a vertical porous plate immersed in a porous medium with Hall effect. Engineering Transactions, 56(1), 3-23. 
  89. Sharma, P. K., Sharma, B.  K. and Chaudhary, R. C. (2008):  Unsteady natural convection flow past a vertical surface in a rotating porous medium with variable permeability. Bull. Cal. Math. Soc., 100, 491-500.
  90. Sharma, P. K.  and Sharma, B.  K. (2008): Three-dimensional unsteady mixed convection and mass transfer flow with periodic temperature. DIRASAT, 35(1), 9-23.
  91. Jha, N., Sharma, B.  K. and Chaudhary, R. C. (2008):  The Application of Smart-AGE algorithm for the numerical treatment of linear singular Fredholm integro-differential equations. J. Raj. Acad. Phy. Sci., 7(1), 63-70.
  92. Sharma, B.  K., Chaudhary, R. C. and Agarwal, M. (2008): Radiation effect on steady free convective flow along a uniform moving porous vertical plate in presence of heat source/sink and transverse magnetic Field. Bull. Cal. Math. Soc., 100, 529-538.
  93. Jha, N., Sharma, B.  K. and Sahni, S. K. (2008): High order numerical discretization of nonlinear singular Fredholm integro-differential equations using parallel SMAGE solver. J. Raj. Acad. Phy. Sci.,  7(2), 227-232.
  94. Sharma, B.  K., Agarwal, M. and Chaudhary, R. C. (2007):  Effects of injection/suction on three-dimensional Couette flow with heat source/sink. Ind. J. of Theoretical Physics, 55(1), 27-37.
  95. Sharma, B.  K., Agarwal, M. and Chaudhary, R. C. (2007): Radiation effect on temperature distribution in three-dimensional Couette flow with injection or suction. Applied Mathematics and Mechanics, 28(3), 309-316.
  96. Sharma, B.  K., Jha, A. K. and Chaudhary, R. C. (2007): Hall effect on MHD free convective flow of a viscous fluid past an infinite vertical porous plate with Heat source/sink effect. Romania Journal in Physics, 52(5-6), 487-504.
  97. Sharma, B.  K., Singh, S. and Chaudhary, R. C. (2007): Thermal and mass diffusion on hydromagnetic flow from a vertical surface with induced magnetic field. Int. J. of Applied Mech. and Eng., 12(4), 1135-1146.
  98. Jha, A. K., Sharma, B.  K. and Chaudhary, R. C. (2007): Heat transfer by free convection flow with radiation along a porous hot vertical plate in the presence of transverse magnetic field. South East Asian J. of Mathematics and Mathematical Sciences, 6(2), 17-26.
  99. Sharma, P. K., Sharma, B.  K. and Chaudhary, R. C. (2007):  Unsteady free convection Couette flow through a porous medium with periodic wall temperature. Tamkang J. of Mathematics,   38(1),  93-102.
  100. Sharma, B.  K., Jha, A. K. and Chaudhary, R. C. (2007): MHD forced flow of a conducting viscous fluid through a porous medium induced by an imprevious rotating disk. Romanian Journal in Physics, 52(1/2), 73-84.
  101. Jha, N., Sharma, B.  K. and Chaudhary, R. C. (2007): An efficient quarter sweep smart alternating group explicit algorithm for the numerical treatment of Burger’s equation.  J. Raj. Acad. Phy. Sci., 6(3), 337-344.
  102. Sharma, B.  K., Jha, A. K. and Chaudhary, R. C. (2007): Fluctuating mass transfer on three-dimensional flow through a porous medium with variable permeability. Advances in Theoretical and Applied Mathematics, 2(3), 257-267.
  103. Chaudhary, R. C. and Sharma, B.  K. (2006): Combined heat and mass transfer by laminar mixed convection flow from a vertical surface with induced magnetic field. J. Appl. Phys. 99, 034901 ; doi:10.1063/1.2161817.
  104. Chaudhary, R. C., Sharma, B.  K. and Jha, A. K. (2006): Radiation effect with simultaneous thermal and mass diffusion in MHD mixed convection flow from a vertical surface with Ohmic heating. Romania Journal of Physics, 51(7-8), 715-727. 
  105. Sharma, B. K, Agarwal, M. and Chaudhary, R. C. (2006): MHD fluctuating free convective flow with radiation embedded in porous medium having variable permeability and heat source/sink. Journal of  Technical Physics, 47(1), 47-58.
  106. Sharma, P. K., Chaudhary, R. C. and Sharma, B.  K. (2005): Flow of viscous incompressible fluid in a region partially filled with porous medium and bounded by two periodically heated oscillating plates. Bull. Cal. Math. Soc. 97(3),  263-274.
  107. Sharma, P. K. and Sharma, B.  K. (2004): Influence of variable suction on unsteady free convective flow from a vertical flat plate and heat transfer in slip-flow regime. Ganita Sandesh,  18(1), 55-62.
  108. Chaudhary, R. C. and Sharma, B.  K. (2003): Hydromagnetic flow through a long vertical channel with transpiration cooling. U. Scientist  Phyl. Sciences, 15(2), 193-198.
  109. Chaudhary, R. C. and Sharma, B.  K. (2003): Injection and suction effects on three dimensional unsteady flow and heat transfer between two parallel porous plates. Matematicas, Vol. XI  No 1, 2 Dic., 45-55. 
  110. Chaudhary, R. C. and Sharma, B.  K. (2003): Fluid injection through the sides of a long vertical channel with transpiration cooling. Far East J. Appl. Math. 12(1), 1-9

Participated/Papers presented in Conferences

  • Sharma B K and Sharma M: Bio-magnetic Fluid of Blood Flow through a Tapered Porous Arteries with Soret and Dufour Effect in the Presence of Stenosis, in National Conference on Computational Mathematics & Operations Research (CMOR-2016) October 15-16, 2016 at BK Birla Institute of Engineering & Technology, Pilani.
  • Sharma B K and Mishra A.: Hall effect on MHD mixed convection flow in a vertical rotating channel in the presence of inclined magnetic field, in National Conference on Recent Trends and Developments in Operations Research (NCRTDOR 2014) February 22-23, 2014 at BITS Pilani, Pilani Campus.
  • Member, Organizing Committee of the "National Conference on Modeling, Computational Fluid Dynamics & Operations Research" held at BITS Pilani, Pilani Campus during February 4 - 5, 2012.  
  • Sharma B K. First order chemical reaction on MHD mixed convective flow past an infinite vertical plate  with joule, Soret and Dufour effects; in National Conference on “Role of Mathematical and Physical Sciences in Engineering and Technology” on 21-22 October 2011 at Government Degree College Karanprayag (Chamoli), Uttarakhand.
  • National seminar on ‘Computational Mathematics & Operations Research’ held on 28-29 November, 2009 at BK Birla Institute of Engineering & Technology, Pilani.
  • 15th Annual Conference of the Rajasthan Ganita Parishad and Symposium on ‘Applications of Advanced Mathematics in Engineering’ on 14-15 February, 2004 at Department of Mathematics, Arya College of Engineering & Information Technology, Kukas, Jaipur.
  • 4th Annual International conference  on ‘Society for Special Functions and their Applications’ on 20-22 February, 2003 at Department of Mathematics, University of Rajasthan, Jaipur.

Participation in Workshop

  • Workshop on ‘MATHEMATICA’ held at Department of Mathematics, BITS Pilani on 24-7-2015
  • National workshop on 'LaTeX and MATLAB for Beginners' during December 24-28,  2014 at BITS, Pilani
  • Workshop on ‘Data analytics and using R for statistical analysis’ during November 22-23,  2014 at BITS, Pilani
  • Joint Secretary of the "National workshop on Modeling and Computation” held at BITS Pilani, Pilani Campus during February 23-24, 2013.
  • National workshop on ‘Tools and Techniques in Statistics and  Simulation’ during September 29- October 01, 2011 at BITS, Pilani
  • Workshop on ‘Civil Service Reforms in the New Millennium: Perspectives in the context of Developing Societies.’ during November 11-13, 2002 at Department of Public Administration, University of Rajasthan, Jaipur.
  • Workshop on ‘Enhancing Personal Effectiveness’ during September 27- 28, 2002 at Department of Adult & Continuing Education, University of Rajasthan, Jaipur.

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