Prince Chidyagwai
Assistant Professor of Mathematics

Mailing Address:
Department of Mathematics and Statistics
Loyola University Maryland
4501 N. Charles Street
Baltimore, MD 21210
pchidyagwai at loyola dot edu
Knott Hall 301b
Prince Chidyagwai

Curriculum Vitae: PDF Research Statement: PDF
Research Support

Teaching at Loyola

Fall 2016 Past courses:
Research Interests
  1. Constraint preconditioners for the coupled Stokes-Darcy system (with S. Ladenheim and D. Szyld), submitted
  2. A multilevel finite element method for the coupled Navier-Stokes/Darcy model, submitted
  3. Meshfree finite differences for vector Poisson and pressure Poisson equations with electric boundary conditions. (with D. Zhou, B. Seibold, D. Shirokoff,R.R. Rosales) Meshfree methods for Partial Differential Equations VII Lecture Notes in Computational Science and Engineering, Vol 100
  4. A comparative study of efficiency of jet shemes. (with J.-C. Nave, R. R. Rosales, B. Seibold) Int. J. Numer. Anal. Model.-B, Vol. 3, No. 3, 2012, pp. 297-306.
  5. [Abstract][Preprint]
  6. On the Coupling of Finite Volume and Discontinuous Galerkin for Reservior Simulation Problems. (with I. Mishev and Beatrice Riviere Proceedings of SPE Resevoir Simulation Symposium , SPE 14197
  7. [Abstract][Preprint]
  8. A Two-grid Method for Coupled Free Flow with Porous Media Flow. (with B. Riviere) Advances in water Resources,34 p.1113-1123, 2011
  9. [Abstract][Preprint]
  10. On the coupling of the finite volume method and the Discontinuous Galerkin method for elliptic problems. (with I. Mishev and B. Riviere) Journal of Computational and Applied Mathematics,231 p2193-2204,2011
  11. [Abstract] [Preprint]
  12. Numerical Modelling of Coupled Surface and Subsurface Flow Systems. (with B. Riviere) Advances in Water Resources,33 p.92-105, 2010
  13. [Abstract][Preprint]
  14. On the Solution of the Coupled Navier-Stokes and Darcy Equations. (with B. Riviere) Computer Methods in Applied Mechanics and Engineering, 198 p.3806-3820, 2009
  15. [Abstract][Preprint]
  16. A Local Cellular Model for Growth of Quasicrystals. (with Clifford A. Reiter),Chaos,Solitions & Fractals, 24 p.803-812, 2005
  17. [Abstract][Preprint]
  18. Auxilliary materials for: A Local Cellular Model for Growth on Quasicrystals. (with Clifford A. Reiter)[Link]