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100   $a20091022d2010      uy         0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
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183   $acr
200 10$aPreparation of thin film Pd membranes for H2 separation from synthesis gas and detailed design of a permeability testing unit /$fM.  Bientinesi and L. Petarca
205   $a1st ed.
210   $aNew York $cNova Science Publishers$dc2010
215   $a1 online resource (94 p.)
225 1 $aChemical engineering methods and technology
300   $aDescription based upon print version of record.
311 08$a1-60876-538-5 
320   $aIncludes bibliographical references (p. [71]-74) and index.
327   $aIntro -- 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.
327   $a5.2. EXPERIMENTAL SET-UP -- 5.3. SELECTED EQUIPMENT -- 5.4. PERMEATION CELLS AND OTHER EQUIPMENT -- Chapter 6    CONCLUSION -- ACKNOWLEDGEMENTS -- REFERENCES -- INDEX -- Blank Page.
330   $aIn this text, palladium films were deposited above stainless steel porous supports using the electroless plating (ELP) technique. Two different geometry (disc sheet and tubes) were used. Finally, in this book, the detailed design of a permeability testing unit is reported.
410  0$aChemical engineering methods and technology.
606   $aHydrogen$xSeparation
606   $aPalladium
606   $aMembranes (Technology)
606   $aGasoline, Synthetic
615  0$aHydrogen$xSeparation.
615  0$aPalladium.
615  0$aMembranes (Technology)
615  0$aGasoline, Synthetic.
676   $a665.8/1
700   $aBientinesi$b M$g(Miguel),$f1950-$01868092
701   $aPetarca$b L$g(Luca),$f1945-$084077
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910967943103321
996   $aPreparation of thin film Pd membranes for H2 separation from synthesis gas and detailed design of a permeability testing unit$94475918
997   $aUNINA