2004 |
15 | EE | Leslaw K. Bieniasz:
A fourth-order accurate, Numerov-type, three-point finite-difference discretization of electrochemical reaction-diffusion equations on nonuniform (exponentially expanding) spatial grids in one-dimensional space geometry.
Journal of Computational Chemistry 25(12): 1515-1521 (2004) |
14 | EE | Leslaw K. Bieniasz:
Improving the accuracy of the spatial discretization in finite-difference electrochemical kinetic simulations, by means of the extended Numerov method.
Journal of Computational Chemistry 25(8): 1075-1083 (2004) |
2003 |
13 | EE | Leslaw K. Bieniasz:
High order accurate, one-sided finite-difference approximations to concentration gradients at the boundaries, for the simulation of electrochemical reaction-diffusion problems in one-dimensional space geometry.
Computational Biology and Chemistry 27(3): 315-325 (2003) |
12 | EE | Leslaw K. Bieniasz:
Erratum.
Computing 70(3): 275-275 (2003) |
2002 |
11 | EE | Leslaw K. Bieniasz:
Use of the Numerov Method to Improve the Accuracy of the Spatial Discretisation in Finite-difference Electrochemical Kinetic Simulations.
Computers & Chemistry 26(6): 633-644 (2002) |
2001 |
10 | EE | Leslaw K. Bieniasz:
Extension of the Thomas Algorithm to a Class of Algebraic Linear Equation Systems Involving Quasi-Block-Tridiagonal Matrices with Isolated Block-Pentadiagonal Rows, Assuming Variable Block Dimensions.
Computing 67(4): 269-285 (2001) |
1997 |
9 | EE | Leslaw K. Bieniasz:
ELSIM - a Problem-solving Environment for Electrochemical Kinetic Simulations. Version 3.0-solution of Governing Equations Associated with Interfacial Species, Independent of Spatial Coordinates Or in One-dimensional Space Geometry.
Computers & Chemistry 21(1): 1-12 (1997) |
8 | EE | Leslaw K. Bieniasz,
Ole Østerby,
Dieter Britz:
The Effect of the Discretization of the Mixed Boundary Conditions on the Numerical Stability of the Crank-Nicolson Algorithm of Electrochemical Kinetic Simulations.
Computers & Chemistry 21(6): 391-401 (1997) |
1996 |
7 | EE | Leslaw K. Bieniasz:
A Reaction Compiler for Electrochemical Kinetics.
Computers & Chemistry 20(4): 403-418 (1996) |
1995 |
6 | EE | Leslaw K. Bieniasz,
Ole Østerby,
Dieter Britz:
Numerical Stability of Finite Difference Algorithms for Electrochemical Kinetic Simulations: Matrix Stability Analysis of the Classic Explicit, Fully Implicit and Crank-Nicolson Methods and Typical Problems Involving Mixed Boundary Conditions.
Computers & Chemistry 19(2): 121-135 (1995) |
5 | EE | Leslaw K. Bieniasz,
Ole Østerby,
Dieter Britz:
Numerical Stability of Finite Difference Algorithms for Electrochemical Kinetic Simulations. Matrix Stability Analysis of the Classic Explicit, Fully Implicit and Crank-Nicolson Methods, Extended to the 3- and 4-point Gradient Approximation at the Electrodes.
Computers & Chemistry 19(4): 351-355 (1995) |
4 | EE | Leslaw K. Bieniasz,
Ole Østerby,
Dieter Britz:
Numerical Stability of the Saul'yev Finite Difference Algorithms for Electrochemical Kinetic Simulations: Matrix Stability Analysis for an Example Problem Involving Mixed Boundary Conditions.
Computers & Chemistry 19(4): 357-370 (1995) |
1993 |
3 | EE | Leslaw K. Bieniasz:
ELSIM - A PC Program for Electrochemical Kinetic Simulations. Version 2.0 - solution of the Sets of Kinetic Partial Differential Equations in One-dimensional Geometry, Using Finite Difference, Orthogonal Collocation Methods.
Computers & Chemistry 17(4): 355-368 (1993) |
1992 |
2 | EE | Leslaw K. Bieniasz:
ELSIM - A User-friendly PC Program for Electrochemical Kinetic Simulations. Version 1.0 - Solution of Integral Equations for Linear Scan and Cyclic Voltammetry.
Computers & Chemistry 16(1): 11-14 (1992) |
1 | EE | Leslaw K. Bieniasz:
An Efficient Numerical Method of Solving the Abel Integral Equation for Cyclic Voltammetry.
Computers & Chemistry 16(4): 311-317 (1992) |