Mr. Victor Job

Instructor in Mathematics

 

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Contact Information

Department of Mathematics and Statistics
The University of The West Indies
St. Augustine, Trinidad and Tobago

Location: Room 330
Tel: 662-2002 ext. 83501
E-mail: Victor.Job@sta.uwi.edu

 

Educational Background
  • PhD in Mathematics (in progress), The University of the West Indies, St. Augustine (2014- )
  • MSc in Mathematics (Distinction), The University of the West Indies, St. Augustine (2012-2013)
  • BSc in Mathematics with Chemistry (First Class Honours), The University of the West Indies, St. Augustine (2009-2012)
Specializations

Applied Mathematics:

  1. Computational Fluid Dynamics (Finite Element Methods)
  2. Convective MHD Nanofluid Flows
  3. Flows through Porous Media
  4. Fluid-Structure Interaction
Recent Publications
  1. Job, V.M. and S.R. Gunakala. 2017. “Numerical study of pulsatile MHD counter-current nanofluid flows through two elastic coaxial pipes containing porous blocks.” International Journal of Heat and Mass Transfer 113: 1265-1280.
  2. Job, V.M. and S.R. Gunakala. 2017. “Mixed convection nanofluid flows through a grooved channel with internal heat generating solid cylinders in the presence of an applied magnetic field.” International Journal of Heat and Mass Transfer 107: 133-145.
  3. Job, V.M. and S.R. Gunakala. 2017. “Time-dependent hydromagnetic free convection nanofluid flows within a wavy trapezoidal enclosure.” Applied Thermal Engineering 115: 363-377.
  4. Job, V.M. and S.R. Gunakala. 2016. “Unsteady MHD free convection nanofluid flows within a wavy trapezoidal enclosure with viscous and joule dissipation effects.” Numerical Heat Transfer Part A: Applications 69(4):421-443.
  5. Rushi Kumar, B., S.R. Gunakala, R. Sivaraj, and V.M. Job. 2016. “Influence of thermal radiation and thermophoresis on viscoelastic fluid flow over a vertical cone.” Special Topics & Reviews in Porous Media: An International Journal 7(2): 195-205.
  6. Job, V.M. and S.R. Gunakala. 2015. “Finite Element Analysis of Unsteady Radiative MHD Natural Convection Couette Flow Between Permeable Plates with Viscous and Joule Dissipation.” International Journal of Pure and Applied Mathematics 99(2): 123-143.