| 4255 - 4255 |
Particulate processes: a special issue of chemical engineering science
Gilles ED, Kienle A |
| 4257 - 4266 |
The importance of population dynamics from the perspective of the chemical process industry
Borho K |
| 4267 - 4275 |
Prediction of crystallization coefficients of the population balance
Mersmann A, Braun B, Loffelmann M |
| 4277 - 4285 |
Growth kinetics: a thermodynamic approach
Mohan R, Myerson AS |
| 4287 - 4293 |
Colloidal aspects of precipitation processes
Kind M |
| 4295 - 4299 |
Particle systems characterisation as a fundamental element for process design and modelling
Polke R, Schafer M |
| 4301 - 4310 |
How to measure supersaturation?
Loffelmann M, Mersmann A |
| 4311 - 4327 |
Development, analysis and validation of population models for continuous and batch crystallizers
Gerstlauer A, Motz S, Mitrovic A, Gilles ED |
| 4329 - 4344 |
Comparison of numerical methods for the simulation of dispersed phase systems
Motz S, Mitrovic A, Gilles ED |
| 4345 - 4356 |
Aerosol formation in gas-liquid contact devices - nucleation, growth and particle dynamics
Schaber K, Korber J, Ofenloch O, Ehrig R, Deuflhard P |
| 4357 - 4368 |
A model of the coagulation process with solid particles and flocs in a turbulent flow
Schuetz S, Piesche M |
| 4369 - 4390 |
Analysis of the start-up process in continuous fluidized bed spray granulation by population balance modelling
Heinrich S, Peglow M, Ihlow M, Henneberg M, Morl L |
| 4391 - 4399 |
A numerical bifurcation analysis of nonlinear oscillations in crystallization processes
Pathath PK, Kienle A |
| 4401 - 4414 |
Population balance modelling and H-infinity-controller design for a crystallization process
Vollmer U, Raisch J |
| 4415 - 4427 |
Open-loop control of particle size distribution in semi-batch emulsion copolymerization using a genetic algorithm
Immanuel CD, Doyle FJ |
