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Preparation of Thin Film Pd Membranes for H2 Separation From Synthesis Gas and Detailed Design of a Permeability Testing Unit.

By: Contributor(s): Material type: TextTextSeries: Chemical Engineering Methods and TechnologyPublisher: Hauppauge : Nova Science Publishers, Incorporated, 2010Copyright date: ©2010Edition: 1st edDescription: 1 online resource (94 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781611226881
Subject(s): Genre/Form: Additional physical formats: Print version:: Preparation of Thin Film Pd Membranes for H2 Separation From Synthesis Gas and Detailed Design of a Permeability Testing UnitDDC classification:
  • 665.8/1
LOC classification:
  • TP359.H8 -- B535 2010eb
Online resources:
Contents:
Intro -- PREPARATION OF THIN FILM PD MEMBRANES FOR H2 SEPARATION FROM SYNTHESIS GAS AND DETAILED DESIGN OF A PERMEABILITY TESTING UNIT -- PREPARATION OF THIN FILM PD MEMBRANES FOR H2 SEPARATION FROM SYNTHESIS GAS AND DETAILED DESIGN OF A PERMEABILITY TESTING UNIT -- CONTENTS -- PREFACE -- Chapter 1 INTRODUCTION -- 1.1. HYDROGEN AS AN ENERGY CARRIER -- 1.2. CURRENT PRODUCTION METHODS AND USES -- 1.3. SYNGAS FOR HYDROGEN PRODUCTION -- 1.4. SEPARATION OF HYDROGEN FROM SYNTHESIS GAS -- 1.4.1. Pressure Swing Adsorption -- 1.4.2. Membrane Separation -- 1.5. FUNDAMENTALS OF HYDROGEN MEMBRANE SEPARATION TECHNOLOGY -- 1.5.1. Dense Polymeric Membranes -- 1.5.2. Dense Metallic Membranes -- 1.5.3. Microporous Ceramic Membranes -- 1.5.4. Dense Ceramic Membranes -- 1.5.5. Composite Membranes -- Chapter 2 PALLADIUM MEMBRANES -- 2.1. PURE PALLADIUM AND PALLADIUM ALLOYS MEMBRANES -- 2.2. POROUS SUPPORTS -- 2.3. PALLADIUM FILM DEPOSITION TECHNIQUES -- 2.3.1. Chemical Vapor Deposition -- 2.3.2. Spray Pyrolysis -- 2.3.3. Sputter Deposition -- 2.3.4. Electroplating -- 2.3.5. Electroless Plating -- 2.3.6. Pd-Alloy Deposition via ELP -- 2.4. PALLADIUM MEMBRANES CHARACTERIZATION -- Chapter 3 EXPERIMENTAL -- 3.1. METALLIC POROUS SUPPORTS -- 3.2. SUPPORTS ABRASION AND CLEANING -- 3.3. SURFACE OXIDATION -- 3.4. SENSITIZATION AND ACTIVATION -- 3.5. ELECTROLESS PLATING -- 3.5.1. Bath Composition -- 3.5.2. Disc ELP Equipment -- 3.5.3. Tube ELP Equipment -- 3.5.4. Vacuum Electroless Plating -- 3.6. MORPHOLOGY CHARACTERIZAION -- 3.7. NITROGEN LOW PRESSURE PERMEATION TEST -- Chapter 4 RESULT AND DISCUSSION -- 4.1. POROUS SUPPORTS -- 4.2. SUPPORT ABRASION AND ETCHING -- 4.2. SURFACE OXIDATION -- 4.3. PALLADIUM DEPOSITION -- 4.4. TUBULAR MEMBRANES NITROGEN PERMEABILITY -- Chapter 5 PERMEABILITY TEST EXPERIMENTAL SET-UP -- 5.1. INTRODUCTION.
5.2. EXPERIMENTAL SET-UP -- 5.3. SELECTED EQUIPMENT -- 5.4. PERMEATION CELLS AND OTHER EQUIPMENT -- Chapter 6 CONCLUSION -- ACKNOWLEDGEMENTS -- REFERENCES -- INDEX -- Blank Page.
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Intro -- PREPARATION OF THIN FILM PD MEMBRANES FOR H2 SEPARATION FROM SYNTHESIS GAS AND DETAILED DESIGN OF A PERMEABILITY TESTING UNIT -- PREPARATION OF THIN FILM PD MEMBRANES FOR H2 SEPARATION FROM SYNTHESIS GAS AND DETAILED DESIGN OF A PERMEABILITY TESTING UNIT -- CONTENTS -- PREFACE -- Chapter 1 INTRODUCTION -- 1.1. HYDROGEN AS AN ENERGY CARRIER -- 1.2. CURRENT PRODUCTION METHODS AND USES -- 1.3. SYNGAS FOR HYDROGEN PRODUCTION -- 1.4. SEPARATION OF HYDROGEN FROM SYNTHESIS GAS -- 1.4.1. Pressure Swing Adsorption -- 1.4.2. Membrane Separation -- 1.5. FUNDAMENTALS OF HYDROGEN MEMBRANE SEPARATION TECHNOLOGY -- 1.5.1. Dense Polymeric Membranes -- 1.5.2. Dense Metallic Membranes -- 1.5.3. Microporous Ceramic Membranes -- 1.5.4. Dense Ceramic Membranes -- 1.5.5. Composite Membranes -- Chapter 2 PALLADIUM MEMBRANES -- 2.1. PURE PALLADIUM AND PALLADIUM ALLOYS MEMBRANES -- 2.2. POROUS SUPPORTS -- 2.3. PALLADIUM FILM DEPOSITION TECHNIQUES -- 2.3.1. Chemical Vapor Deposition -- 2.3.2. Spray Pyrolysis -- 2.3.3. Sputter Deposition -- 2.3.4. Electroplating -- 2.3.5. Electroless Plating -- 2.3.6. Pd-Alloy Deposition via ELP -- 2.4. PALLADIUM MEMBRANES CHARACTERIZATION -- Chapter 3 EXPERIMENTAL -- 3.1. METALLIC POROUS SUPPORTS -- 3.2. SUPPORTS ABRASION AND CLEANING -- 3.3. SURFACE OXIDATION -- 3.4. SENSITIZATION AND ACTIVATION -- 3.5. ELECTROLESS PLATING -- 3.5.1. Bath Composition -- 3.5.2. Disc ELP Equipment -- 3.5.3. Tube ELP Equipment -- 3.5.4. Vacuum Electroless Plating -- 3.6. MORPHOLOGY CHARACTERIZAION -- 3.7. NITROGEN LOW PRESSURE PERMEATION TEST -- Chapter 4 RESULT AND DISCUSSION -- 4.1. POROUS SUPPORTS -- 4.2. SUPPORT ABRASION AND ETCHING -- 4.2. SURFACE OXIDATION -- 4.3. PALLADIUM DEPOSITION -- 4.4. TUBULAR MEMBRANES NITROGEN PERMEABILITY -- Chapter 5 PERMEABILITY TEST EXPERIMENTAL SET-UP -- 5.1. INTRODUCTION.

5.2. EXPERIMENTAL SET-UP -- 5.3. SELECTED EQUIPMENT -- 5.4. PERMEATION CELLS AND OTHER EQUIPMENT -- Chapter 6 CONCLUSION -- ACKNOWLEDGEMENTS -- REFERENCES -- INDEX -- Blank Page.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

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