| 732 - 739 |
Neural networks for chemical engineering unit operations
Sato A, Sha ZL, Palosaari S |
| 740 - 742 |
Simulation program for hazard training and safety evaluation of chemical processes
Hub L |
| 742 - 746 |
Modeling mass transfer accompanied by fast chemical reactions in gas/liquid reactors
Schluter S, Schulzke T |
| 747 - 750 |
Concentration-programmed-reaction, a method to evaluate the potential of application of transient process control in partial oxidations
Bohling R, Drochner A, Fehlings M, Konig D, Vogel H |
| 750 - 752 |
Electrosorption on activated carbon textile
Janocha B, Bauser H, Oehr C, Brunner H, Gopel W |
| 753 - 757 |
Ultrafiltration of water/oil microemulsions in biocatalysis
Orlich B, Schomacker R |
| 757 - 759 |
Beckmann rearrangement using supercritical fluids
Heitmann GP, Dahlhoff G, Holderich W |
| 761 - 765 |
Experimental study of the salt effect in vapor/liquid equilibria using headspace gas chromatography
Banat FA, Abu Al-Rub FA, Simandl J |
| 767 - 772 |
Measurement of hydrodynamics and dissolved oxygen with a polarographic microelectrode
Onken U, Hainke M |
| 773 - 775 |
Monitoring fluidization by dynamic pressure analysis
van Ommen JR, Schouten JC, Coppens MO, van den Bleek CM |
| 777 - 783 |
Effect of polymer particle size and inlet gas temperature on industrial fluidized bed polyethylene reactors
Ghasem NM |
| 785 - 792 |
A model for adaptation of microorganisms to nitrates
Gomes J, Singhal A, Bhargava S, Roychoudhury PK |
