论文信息 - Process Design for the Separation of Three Liquid Phases for a Continuous Hydroformylation Process in a Miniplant Scale

Process Design for the Separation of Three Liquid Phases for a Continuous Hydroformylation Process in a Miniplant Scale

Within the framework of the Collaborative Research Centre SFB/TR 63 InPROMPT, “Integrated chemical processes in liquid multiphase systems”, a novel process concept for the hydroformylation of long chain alkenes to aldehydes in microemulsions is investigated and developed at the Berlin Institute of Technology (Technische Universitat Berlin), Germany. To start the hydroformylation reaction, a hydrophilic rhodium-ligand-complex is required. By applying a nonionic surfactant, a microemulsion system is formed and thus the hydrophilic catalyst is transported into the hydrophobic alkene phase. Next to achieve a high conversion rate in the continuously stirred tank reactor, the separation of the valuable rhodium catalyst from the product phase poses a challenge. This separation is the crucial step for the technical and economic feasibility of the overall process concept and plant design. Owing to the lack of thermodynamic data for microemulsion mixtures, the design of the phase separation unit strongly depends on...

[1] Jörg Andreas Kupka. Hydroformylierung von 1-Octen in Mikroemulsion , 2006 .

[2] David J. Cole-Hamilton,et al. Aqueous-biphasic hydroformylation of alkenes promoted by “weak” surfactants , 2009 .

[3] R. Strey,et al. Influence of the properties of the oil and the surfactant on the phase behavior of systems of the type water-oil-nonionic surfactant , 1983 .

[4] Michael Müller,et al. Development of a continuous process for the hydroformylation of long-chain olefins in aqueous multiphase systems , 2013 .

[5] C. Stubenrauch,et al. Phase Behaviour, Interfacial Tension and Microstructure of Microemulsions , 2009 .

[6] R. Schomäcker,et al. The Kinetics of an Interfacial Reaction in Microemulsions with Excess Phases , 2000 .

[7] Juha Lehtonen,et al. Kinetic Modeling of Propene Hydroformylation with Rh/TPP and Rh/CHDPP Catalysts , 2008 .

[8] Reinhard Schomäcker,et al. Hydroformylation of 1‐Dodecene with Water‐Soluble Rhodium Catalysts with Bidentate Ligands in Multiphase Systems , 2013 .

[9] R. Schomäcker,et al. Selection of systems for catalyst recovery by micellar enhanced ultrafiltration , 2009 .