| 1 - 1 |
Preface
Hoflinger W |
| 3 - 18 |
Additional techniques to improve microfiltration
Wakeman RJ, Williams CJ |
| 19 - 31 |
Crossflow microfiltration - state of the art
Ripperger S, Altmann J |
| 33 - 41 |
Mechanism of microfiltration on the rotating track membrane
Adach A, Wronski S, Buczkowski M, Starosta W, Sartowska B |
| 43 - 50 |
Crossflow filtration as a new method of wet classification of ultrafine particles
Meier J, Klein GM, Kottke V |
| 51 - 59 |
Sieve mechanism of microfiltration separation
Starov V, Lloyd D, Filippov A, Glaser S |
| 61 - 68 |
A mathematical model of coagulation processes
Schuetz S, Piesche M |
| 69 - 80 |
Improvement of filtration kinetics by pressure electrofiltration
Weber K, Stahl W |
| 81 - 89 |
The use of dean vortices for crossflow microfiltration: basic principles and further investigation
Bubolz M, Wille M, Langer G, Werner U |
| 91 - 99 |
Relating quality, capacity and energy consumption of oil filters
Mayol YV, Kleizen HH |
| 101 - 110 |
Potentials of separation membranes in the sugar industry
Hinkova A, Bubnik Z, Kadlec P, Pridal J |
| 111 - 119 |
Comparison of different scraper designs for crossflow filtration with rotating discs and cake limitation by scrapers
Koch W, Hoflinger W, Pongratz E, Oechsle D |
| 121 - 131 |
3D-flow simulation and optimization of a cross flow filtration with rotating discs
Rainer M, Hoflinger W, Koch W, Pongratz E, Oechsle D |
