| 1 |
Study of the pyrolysis of 2-pinanol in tubular and microreactor systems with reaction kinetics and modelling
Buddoo S, Siyakatshana N, Zeelie B, Dudas J
Chemical Engineering and Processing, 48(9), 1419, 2009 |
| 2 |
Gas hold-up evaluation using the analytical solution of the axial dispersion model: Comparison with static measurement results
Magelli F, Siyakatshana N, Kudrna V, Machon V
Chemical Engineering & Technology, 30(8), 1020, 2007 |
| 3 |
Axial dispersion model for solid flow in liquid suspension in system of two mixers in total recycle
Cermakova J, Scargiali F, Siyakatshana N, Kudrna V, Brucato A, Machon V
Chemical Engineering Journal, 117(2), 101, 2006 |
| 4 |
Various applications of the dispersion model for flow systems with Danckwerts' boundary conditions
Kudrna V, Jahoda M, Siyakatshana N, Cermakova J, Majirova H, Machon V
Chemical Engineering Science, 61(8), 2313, 2006 |
| 5 |
Stochastic modeling of a fluid batch mixed system with variable dispersion coefficient
Kudrna V, Siyakatshana N, Jahoda M, Machon V
Chemical Engineering Science, 61(10), 3260, 2006 |
| 6 |
Incorporating Danckwerts' boundary conditions into the solution of the stochastic differential equation
Siyakatshana N, Kudrna V, Machon V
Chemical Engineering Science, 60(7), 1987, 2005 |
| 7 |
General solution of the dispersion model for a one-dimensional stirred flow system using Danckwerts' boundary conditions
Kudrna V, Jahoda M, Siyakatshana N, Cermakova J, Machon V
Chemical Engineering Science, 59(14), 3013, 2004 |
