The aim of this research is to explore new concepts for multiphase gas-liquid-solid reactions within microreactors, using membrane technology
\u3cp\u3eA variety of gas-liquid microchannel reactors have been developed so far, using different c...
Under the common headline of process intensification several innovative reactor types for heterogene...
During the past 22 months, the preparation and application of novel porous metal/ceramic membrane ma...
In this study a concept for gas–liquid–solid (G–L–S) microreaction technology was developed and opti...
This thesis describes research work about multiphase contacting/reactions using porous membranes. Me...
This thesis describes research work about multiphase contacting/reactions using porous membranes. Me...
The design and operation of liquid–liquid and gas–liquid immiscible systems depend mainly on the met...
This chapter discusses the research and development of porous ceramic membranes and their applicatio...
By initiating the Fraunhofer Alliance for Modular Micro Reaction Systems FAMOS six Fraunhofer Instit...
Microreactors are being increasingly used on the laboratory scale for developing new routes for chem...
Micro reaction technology offers the possibility to improve the flexibility, selectivity, and mobili...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2001.Includes...
Nowadays, microreactors are finding increasing application in many fields, from the chemical industr...
One of the most potentially important applications of membranes is in multiphase reacting systems. T...
Theoretical study focused on application of microreactors for gas phase reactions in presence of het...
\u3cp\u3eA variety of gas-liquid microchannel reactors have been developed so far, using different c...
Under the common headline of process intensification several innovative reactor types for heterogene...
During the past 22 months, the preparation and application of novel porous metal/ceramic membrane ma...
In this study a concept for gas–liquid–solid (G–L–S) microreaction technology was developed and opti...
This thesis describes research work about multiphase contacting/reactions using porous membranes. Me...
This thesis describes research work about multiphase contacting/reactions using porous membranes. Me...
The design and operation of liquid–liquid and gas–liquid immiscible systems depend mainly on the met...
This chapter discusses the research and development of porous ceramic membranes and their applicatio...
By initiating the Fraunhofer Alliance for Modular Micro Reaction Systems FAMOS six Fraunhofer Instit...
Microreactors are being increasingly used on the laboratory scale for developing new routes for chem...
Micro reaction technology offers the possibility to improve the flexibility, selectivity, and mobili...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2001.Includes...
Nowadays, microreactors are finding increasing application in many fields, from the chemical industr...
One of the most potentially important applications of membranes is in multiphase reacting systems. T...
Theoretical study focused on application of microreactors for gas phase reactions in presence of het...
\u3cp\u3eA variety of gas-liquid microchannel reactors have been developed so far, using different c...
Under the common headline of process intensification several innovative reactor types for heterogene...
During the past 22 months, the preparation and application of novel porous metal/ceramic membrane ma...
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