Catalyst Separation, Recovery and Recycling – Catalysis by Metal Complexes (informative)
Free download Catalyst Separation, Recovery and Recycling – Catalysis by Metal Complexes
Volume 30
Authors of: Catalyst Separation, Recovery and Recycling – Catalysis by Metal Complexes By David J. Cole-Hamilton
David J. Cole-Hamilton
Robert P. Tooze
Table of Contents in Catalyst Separation, Recovery and Recycling – Catalysis by Metal Complexes By David J. Cole-Hamilton
CHAPTER 1 HOMOGENEOUS CATALYSIS – ADVANTAGES AND
PROBLEMS
1.1 Catalysis
1.2 Catalyst Stability
1.2.1 THERMALLY INDUCED DECOMPOSITION
1.2.2 CHEMICALLY INDUCED DECOMPOSITION
1.2.3 PHYSICAL LOSS FROM THE PROCESS
1.3 Layout of the Book
1.4 References
CHAPTER 2 CLASSICAL HOMOGENEOUS CATALYST SEPARATION
TECHNOLOGY
2.1.1 Coverage of Chapter
2.2 General Process Considerations
2.3 Everything is a Reactor
2.4 Overview of Separation Technologies
2.4.1 TRADITIONAL COBALT WITH CATALYST DECOMPOSITION
2.4.2 UNION CARBIDE-DAVY GAS RECYCLE PROCESS
2.4.3 LIQUID RECYCL
2.4.4 BIPHASIC SYSTEMS; WATER-
2.4.5 INDUCED PHASE SEPARATION
2.4.6 NON-AQUEOUS PHASE SEPARATION
2.4.6.1 NAPS Using a Non-Polar Catalyst
2.4.6.2 NAPS Using a Polar Catalyst
2.4.6.3 Ligand Structure and Solubility Properties
2.5 Hypothetical processes – How Might the Product be Separated from the
2.5.1 PROPENE
2.5.2 1-OCTENE HYDROFORMYLATION
2.5.3 ALLYL
2.5.4 METHOXYVINYLNAPHTHALENE
2.5.5 SEPARATION TECHNOLOGY FOR LESS STABLE CATALYSTS
2.5.5.1 Mitsubishi TPPO/TPP Separation
2.5.5.2 Organic Polymer for Catalyst
2.6 Real-World Complications
2.6.1 ORGANOPHOSPHORUS LIGAND
2.6.1.1 Oxidation
2.6.1.2 Alkyldiarylphosphine
2.6.1.3 Ligand Scrambling
2.6.1.4 Phosphine Reactions with Conjugated
2.6.1.5 Phosphite Oxidation
2.6.1.6 Simple Phosphite
2.6.1.7 Poisoning Phosphite
2.6.1.8 Aldehyde Acid
2.6.1.9 Acidity Control
2.6.2 SEPARATING BYPRODUCTS FROM REACTANTS OR PRODUCTS
2.6.2.1 Alkene
2.6.2.2 Alkene Isomerization
2.6.2.3 Aldehyde Dimerization and
2.6.2.4 Formation of Conjugated Carbonyls
2.6.3 INTRINSIC CATALYST DEACTIVATION
2.7 Further Separation Challenges
2.7.1 RECOVERY OF METAL VALUES FROM A SPENT CATALYST
2.7.1.1 Catalyst Containment and Capture Technologies
2.8 Concluding
2.9 References
CHAPTER 3 SUPPORTED
Immobilisation of Tailor-made Homogeneous Catalysts
3.1 Introduction
3.2 Short Historical Overview
3.3 Polystyrene Supported Catalysts
3.4 Silica Supported
3.5 Catalysis in Interphases
3.6 Ordered Mesoporous
3.7 Non-covalently Supported
3.8 Supported Aqueous Phase
3.9 Process Design [71]
3.10 Concluding
3.11 References
CHAPTER 4 SEPARATION BY SIZE-EXCLUSION FILTRATION
Homogeneous Catalysts Applied in Membrane Reactors
4.1 Introduction
4.2 Reactors
4.2.1 DEAD-END FILTRATION
4.2.2 CROSS-FLOW FILTRATION REACTORS
4.3 Membranes
4.3.1 CLASSIFICATION OF FILTRATION
4.4 Dendrimer Supported Catalysts
4.4.1 KHARASCH ADDITION REACTION
4.4.2 ALLYLIC SUBSTITUTION
4.4.4 HYDROGENATION
4.4.5 MICHAEL ADDITION
4.5 Dendritic Effects
4.6 Unmodified or Non-dendritic Catalysts
4.6.1 HYDROGENATION
4.6.2 PHASE TRANSFER
4.7 Soluble Polymer Supported Catalysts
4.8 Concluding
4.9 References
CHAPTER 5 BIPHASIC SYSTEMS: WATER –
5.2.1 GENERAL
5.2.2 BIPHASIC SYSTEMS
5.2.3 AQUEOUS BIPHASIC CATALYSIS
5.2.3.2 Aqueous-phase Catalysis as a Unit Operation
5.2.4 EXAMPLES OF AQUEOUS BIPHASIC
5.2.4.1 Hydroformylation (Ruhrchemie/Rhône-Poulenc[RCH/RP]
5.2.4.2 Other Industrially Used Aqueous-biphasic
5.2.4.3 Short Overview of Other Reaction
5.2.5 OTHER PROPOSALS FOR WATER – BIPHASIC SYSTEMS
5.2.6 INTERLUDE – BIPHASIC SYSTEMS: ORGANIC
5.3 Recycle and Recovery of Aqueous
5.3.1 RECYCLING
5.3.2
5.3.3 ECONOMICS OF THE
5.3.4 ENVIRONMENTAL
5.4 Concluding Remarks
5.5
CHAPTER 6 FLUOROUS BIPHASIC
CHAPTER 7 CATALYST RECYCLING USING IONIC
CHAPTER 8 SUPERCRITICAL
Compressed Gases as Mobile Phase and Catalyst Support
CHAPTER 9 AREAS FOR FURTHER RESEARCH
9.1 Introduction
9.2 Conventional Separation Methods (See Chapter
9.3 Catalysts on Insoluble Supports (Chapter 3)
9.4 Catalysts on Soluble Supports (Chapter
9.5 Aqueous Biphasic Catalysis (Chapter
9.6 Fluorous Biphasic Catalysis (Chapter 6)
9.7 Reactions Involving Ionic Liquids (Chaoter
9.8 Reactions Using Supercritical Fluids (Chapter
9.9 Conclusions
9.10 References
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