Sanjay Kumar Pandey

Designation: Reader

Phone: 0542-230-7034-extn-3(office), 09450533132

E-mail: skpandey.apm@itbhu.ac.in

Research Areas: Bio Mechanics, Mathematical Modelling

 

 

Biography:

Dr. S.K. Pandey did his M.Sc.(Patna) and Ph.D. from Indian Institute Of Technology, Kharagpur.

His fields of specialization are: Biomechanics, Mathematical Modelling.

He is a life member of Indian Society of Theoretical and Applied Mechanics, IIT Kharagpur.
Member, Editorial Board, ISST Journal of Mathematics and Computing System.

Projects:

(i)  UGC minor research project, 2004 Title of the project: Mathematical modelling of peristaltic transport of physiological fluids.

(ii) Institute of Technology, BHU minor Project, 2006 Title of the project: Mathematical modelling of peristaltic flows.

(iii) DST project (major) under the banner of Institute of Mathematical Sciences, BHU (already presented before an expert team) Title of the project: Mathematical modelling of bio-systems in perspective of human physiology.

Publications:

List Of Publications:

International Journal:

1. S K Pandey and D. Tripathi, Peristaltic Flow Characteristics of Maxwell and Magneto-hydrodynamic Fluids in Finite Channels: Models for Oesophageal Swallowing, Journal of Biological Systems 18, number 3(September 2010) (Accepted-March 23, 2010, in press).      (World Scientific)
2. S K Pandey and M K Chaube, Peristaltic Transport of a Viscoelastic Fluid in a tube of varying Cross-section. Mathematical and Computer Modelling, vol. 52, issues3-4, pp 501-514, 2010.       (Elsvier)
3. D. Tripathi, S K Pandey and S. Das, Peristaltic Flow of Viscoelastic Fluid with Fractional Maxwell Model through a Channel, Applied Mathematics and Computation, 215, 3645–3654, 2010.    (Elsvier)
4. S K Pandey and D. Tripathi, Unsteady Peristaltic Transport of Maxwell Fluid in a Finite Channel: A model for swallowing of viscoelastic fluids, Journal of Biological Systems, (Accepted-January 19, 2010, in press).      (World Scientific)
5. S K Pandey and D. Tripathi, Unsteady model of transportation of Jeffrey-fluid by peristalsis, International Journal of Biomathematics, (Accepted-January 17, 2010, in press).       (World Scientific)
6. S K Pandey and D. Tripathi, Influence of Magnetic Field on Peristaltic Flow of Viscous Fluid through a Finite Length Cylindrical Tube, Applied Bionics and Biomechanics, (Accepted-January 2010).        (Taylor Francis)
7. S K Pandey and D. Tripathi, Peristaltic Transport of a Casson Fluid in a Finite Channel: Application to Flows of Concentrated Fluids in Oesophagus, International Journal of Biomathematics. (Accepted-Dec 15, 2010, in press).         (World Scientific)
8. M.K. Chaube, S K Pandey and D. Tripathi, Slip Effect on Peristaltic Transport of Micropolar Fluid Applied Mathematical Sciences Vol. 4, no. 43, pp. 2105-2117, 2010. (Hikari Limited, Bulgaria)
9. D. Tripathi, S K Pandey and M.K. Chaube, Peristaltic Transport of Power law fluid in Finite Length Vessels, International Journal of Mathematical Science and Engineering Applications  ISSN 0973-9424, Vol.3 No. 111, pp.279-289, 2009.
10. J C Misra and S K Pandey, Peristaltic transport of blood in small vessels: Study of a Mathematical Model, Computer and Mathematics with applications, vol. 43, no. 8-9, pp. 1183-1193, 2002.      (Elsvier)
11. J C Misra and S K Pandey, A mathematical model for oesophageal swallowing of a food bolus, Mathematical and Computer Modelling, vol. 33, no 8-9, pp-997-10009, 2001.         (Elsvier)
12. J C Misra and S K Pandey, Peristaltic flow of a multi-layered power-law fluid through a cylindrical tube, International journal of Engineering Science, vol. 39, pp. 387-402, 2001.         (Elsvier)
13. J C Misra and S K Pandey, Peristaltic transport of a non-Newtonian fluid with a peripheral layer, International journal of Engineering Science, vol. 37, pp. 1841-1858, 1999.          (Elsvier)
14. J C Misra and S K Pandey, Peristaltic transport in a tapered tube, Mathematical and Computer Modelling, vol. 22, no. 8, pp. 137-151, 1995.           (Elsvier)
15. J C Misra and S K Pandey, Peristaltic transport of particle-fluid suspension in a cylindrical tube, Computer and Mathematics with applications, vol. 28, no. 4, pp. 131-145, 1994.         (Elsvier)
16. S K Pandey and Dharmendra Tripathi, Peristaltic Transport of Microplor fluids through Cylindrical Tubes. (Accepted in Applied Bionics and Biomechanics)     (Taylor Francis)

 

Research Papers Communicated:

1. S K Pandey and Dharmendra Tripathi, Study of Mechanical Efficiency and Reflux of Peristaltic Pumping through a Vessel of Finite Length with Unidirectionally Vibrating Walls.
2. S K Pandey and Dharmendra Tripathi, Peristaltic Transport of Microplor fluids through Channels. (Under review in ZNA, Russia)
3. S K Pandey and Dharmendra Tripathi, Mathematical Modelling of swallowing of Concentrated Fluids in Oesophagus (Communicated to Applied Bionics And Biomechanics).
4. S K Pandey and Dharmendra Tripathi, Peristaltic Flow of a Visco-elastic Fluid with Maxwell Model in a Cylindrical Tube of finite length.(Sent after revision to Applied Mathematics and Mechanics).
5. S K Pandey and M K Chaube, Study of Wall Properties on Peristaltic Transport of a Couple-stress Fluid (Communicated after revision to Mechanica).                                                     (Springer)
6. D. Tripathi, S K Pandey and S. Das, Peristaltic Flow of Viscoelastic Fluids of Fractional Generalized Burgers’ Model through Channels.(Under review in Physics Letters A).
7. S K Pandey, M Chaube, Peristaltic flow of microploar fluid through porous medium in presence of an external magnetic field. ( Communicated to Communications in non-linear sciences and numerical simulation)

Chapters in Books:

1. J C Misra, S K Pandey, Peristaltic transport of physiological fluids, Biomathematics: Modelling and Simulation (Editor: J C Misra), Chapter 7, pp.167-193, World Scientific, London, USA, Singapore.

 

Invited Lectures

1. Peristaltic Transport of a Casson fluid: Application to flows of concentrated fluids in Oesophagus, Indian Science Congress, January 3-7, 2007.