Regeneration of spent catalyst and impregnation of catalyst by supercritical fluid / editors, Farid Gumerov, and B. Le Neindre (KNRTU, Head of Dept. "Theoretical Foundations of Heat" KNRTU, Kazan, Russia, and others).
2016
TP159.C3
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Title
Regeneration of spent catalyst and impregnation of catalyst by supercritical fluid / editors, Farid Gumerov, and B. Le Neindre (KNRTU, Head of Dept. "Theoretical Foundations of Heat" KNRTU, Kazan, Russia, and others).
ISBN
9781634843102 )
163484310X
9781634843096 (hardcover)
163484310X
9781634843096 (hardcover)
Published
Hauppauge, New York : Nova Science Publishers, Inc., 2016.
Language
English
Description
1 online resource
Call Number
TP159.C3
System Control No.
(OCoLC)934706075
Bibliography, etc. Note
Includes bibliographical references and index.
Formatted Contents Note
REGENERATION OF SPENT CATALYST AND IMPREGNATION OF CATALYST BY SUPERCRITICAL FLUID; REGENERATION OF SPENT CATALYST AND IMPREGNATION OF CATALYST BY SUPERCRITICAL FLUID; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; REFERENCES; ABOUT THE EDITORS; Chapter 1: REGENERATION OF PALLADIUM CATALYST SG-58E USED IN THE HYDROGENATION PROCESS OF ETHANE-ETHYLENE FRACTION BY SUPERCRITICAL CARBON DIOXIDE; ABSTRACT; 1. INTRODUCTION; 2. HYDROGENATION PROCESS OF ETHANE-ETHYLENE FRACTION; CHARACTERISTICS OF SPENT CATALYST AND DESCRIPTION OF ITS TRADITIONAL WAY OF REGENERATION
3. MATERIALS, EQUIPMENTS, APPLIED RESEARCH METHODS4. SOLUBILITY COMPOUNDS OF DEACTIVATION OF CATALYST IN PURE AND MODIFIED SUPERCRITICAL CARBON DIOXIDE WITH POLAR ADDITIVES; 5. REGENERATION OF PALLADIUM CATALYSTS G-58E USED IN HYDROGENATION PROCESS OF ETHANE-ETHYLENE FRACTION BY MEANS OF SUPERCRITICAL CARBON DIOXIDE; 6. COMPARISON OF CHARACTERISTICS OF REGENERATED CATALYST SAMPLES USING THE TRADITIONAL APPROACH AND THE SC-CO2 EXTRACTION PROCESS; 7. SOLUBILITY OF PALLADIUM CHLORIDE COMPLEXES IN SUPERCRITICAL CARBON DIOXIDE; REFERENCES
5. COMPARISON OF THE CHARACTERISTICS OF THE NICKELON KIESELGUHR CATALYST SAMPLES REGENERATED BY CONVENTIONAL APPROACH AND SC-CO2 EXTRACTIONREFERENCES; Chapter 3: REGENERATION OF THE ACTIVE ALUMINA CATALYST USED IN THE METHYL PHENYL CARBINOL DEHYDRATION PROCESS BY SUPERCRITICAL CO2 EXTRACTION; ABSTRACT; 1. INTRODUCTION; 2. METHYL PHENYL CARBINOL DEHYDRATION PROCESS; SPENT CATALYST CHARACTERISTICS AND DESCRIPTION OF THE CONVENTIONAL REGENERATION PROCESS THERE OF; 3. MATERIALS, EQUIPMENT, APPLIED RESEARCH METHODS; 4. SOLUBILITY OF CATALYST DEACTIVATION COMPOUNDS IN SC-CO2
5. REGENERATION OF ACTIVE ALUMINA CATALYST USED IN THE METHYL PHENYL CARBINOL DEHYDRATION PROCESS BY SUPERCRITICAL CO2 EXTRACTION6. COMPARISON OF THE CHARACTERISTICS OF THE SAMPLES OF ACTIVE ALUMINA CATALYST REGENERATED BY THE CONVENTIONAL APPROACH AND SC-CO2 EXTRACTION; REFERENCES; Chapter 4: REGENERATION OF LD-265 PALLADIUM CATALYST USED IN THE HYDROGENATION OF DIENE HYDROCARBONS BY SUPERCRITICAL CO2 EXTRACTION; ABSTRACT; 1. INTRODUCTION; 2. HYDROGENATION OF DIENE HYDROCARBONS, CHARACTERISTICS OF SPENT CATALYST AND DESCRIPTION OF ITS CONVENTIONAL REGENERATION PROCESS
3. MATERIALS, EQUIPMENTS, APPLIED RESEARCH METHODS4. SOLUBILITY COMPOUNDS OF DEACTIVATION OF CATALYST IN PURE AND MODIFIED SUPERCRITICAL CARBON DIOXIDE WITH POLAR ADDITIVES; 5. REGENERATION OF PALLADIUM CATALYSTS G-58E USED IN HYDROGENATION PROCESS OF ETHANE-ETHYLENE FRACTION BY MEANS OF SUPERCRITICAL CARBON DIOXIDE; 6. COMPARISON OF CHARACTERISTICS OF REGENERATED CATALYST SAMPLES USING THE TRADITIONAL APPROACH AND THE SC-CO2 EXTRACTION PROCESS; 7. SOLUBILITY OF PALLADIUM CHLORIDE COMPLEXES IN SUPERCRITICAL CARBON DIOXIDE; REFERENCES
5. COMPARISON OF THE CHARACTERISTICS OF THE NICKELON KIESELGUHR CATALYST SAMPLES REGENERATED BY CONVENTIONAL APPROACH AND SC-CO2 EXTRACTIONREFERENCES; Chapter 3: REGENERATION OF THE ACTIVE ALUMINA CATALYST USED IN THE METHYL PHENYL CARBINOL DEHYDRATION PROCESS BY SUPERCRITICAL CO2 EXTRACTION; ABSTRACT; 1. INTRODUCTION; 2. METHYL PHENYL CARBINOL DEHYDRATION PROCESS; SPENT CATALYST CHARACTERISTICS AND DESCRIPTION OF THE CONVENTIONAL REGENERATION PROCESS THERE OF; 3. MATERIALS, EQUIPMENT, APPLIED RESEARCH METHODS; 4. SOLUBILITY OF CATALYST DEACTIVATION COMPOUNDS IN SC-CO2
5. REGENERATION OF ACTIVE ALUMINA CATALYST USED IN THE METHYL PHENYL CARBINOL DEHYDRATION PROCESS BY SUPERCRITICAL CO2 EXTRACTION6. COMPARISON OF THE CHARACTERISTICS OF THE SAMPLES OF ACTIVE ALUMINA CATALYST REGENERATED BY THE CONVENTIONAL APPROACH AND SC-CO2 EXTRACTION; REFERENCES; Chapter 4: REGENERATION OF LD-265 PALLADIUM CATALYST USED IN THE HYDROGENATION OF DIENE HYDROCARBONS BY SUPERCRITICAL CO2 EXTRACTION; ABSTRACT; 1. INTRODUCTION; 2. HYDROGENATION OF DIENE HYDROCARBONS, CHARACTERISTICS OF SPENT CATALYST AND DESCRIPTION OF ITS CONVENTIONAL REGENERATION PROCESS
Source of Description
Print version record and CIP data provided by publisher.
Series
Chemistry research and applications
Available in Other Form
Print version: Regeneration of spent catalyst and impregnation of catalyst by supercritical fluid. Hauppauge, New York : Nova Science Publishers, Inc., 2016
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