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KNOVEL_ocn933443096 |
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OCoLC |
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20231027140348.0 |
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151225s2016 xx ob 001 0 eng d |
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|a IDEBK
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|a 3110332981
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|a (OCoLC)933443096
|z (OCoLC)940673030
|z (OCoLC)992823629
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|z (OCoLC)1002263053
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|z (OCoLC)1148093767
|
037 |
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|a 881744
|b MIL
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050 |
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4 |
|a TP157
|b .C3115 2016
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082 |
0 |
4 |
|a 660
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049 |
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|a UAMI
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100 |
1 |
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|a Saha, Basudeb,
|e editor.
|
245 |
1 |
0 |
|a Catalytic Reactors /
|c edited by Basudeb Saha.
|
260 |
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|b De Gruyter,
|c 2016.
|
300 |
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|a 1 online resource (370 pages)
|
336 |
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|a text
|b txt
|2 rdacontent
|
337 |
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|a computer
|b c
|2 rdamedia
|
338 |
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|a online resource
|b cr
|2 rdacarrier
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490 |
1 |
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|a De Gruyter Textbook Ser.
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588 |
0 |
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|a Print version record.
|
504 |
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|a Includes bibliographical references and index.
|
520 |
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|a Catalytic Reactors presents several key aspects of reactor design in Chemical and Process Engineering. Starting with the fundamental science across a broad interdisciplinary field, this graduate level textbook offers a concise overview on reactor and process design for students, scientists and practitioners new to the field. This book aims to collate into a comprehensive and well-informed work of leading researchers from North America, Western Europe and South-East Asia. The editor and international experts discuss state-of-the-art applications of multifunctional reactors, biocatalytic membrane reactors, micro-flow reactors, industrial catalytic reactors, micro trickle bed reactors and multiphase catalytic reactors. The use of catalytic reactor technology is essential for the economic viability of the chemical manufacturing industry. The importance of Chemical and Process Engineering and efficient design of reactors are another focus of the book. Especially the combination of advantages from both catalysis and chemical reaction technology for optimization and intensification as essential factors in the future development of reactors and processes are discussed. --
|c Provided by publisher.
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505 |
0 |
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|a List of contributing authors -- About the editor -- Preface -- Contents -- 1 Catalysis in Multifunctional Reactors -- 1.1 Introduction -- 1.2 Reactive Distillation (RD) -- 1.2.1 Homogeneous catalysis -- 1.2.2 Heterogeneous catalysis -- 1.2.3 Catalysts used in reactive distillation -- 1.3 Reactive Stripping -- 1.3.1 Esterification -- 1.3.2 Aqueous phase reforming (APR) of sorbitol -- 1.3.3 Dehydration of xylose to furfural -- 1.3.4 Catalytic exchange of hydrogen isotopes -- 1.4 Catalytic membrane reactors -- 1.4.1 Biodiesel production -- 1.4.2 Dehydrogenation.
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505 |
8 |
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|a 1.4.3 Oxidative coupling of methane (OCM) -- 1.4.4 Partial oxidation of methane to synthesis gas -- 1.5 Chromatographic Reactor -- 1.5.1 Concept of a Chromatographic Reactor -- 1.5.2 Types of Chromatographic Reactor -- 1.5.3 Applications of Liquid Chromatographic Reactor -- 1.6 Summary -- 2 Biocatalytic membrane reactors (BMR) -- 2.1 Introduction -- 2.2 Role of membrane in biocatalytic membrane reactors (BMRs) -- 2.3 Membrane separation reactors (MSRs) -- 2.3.1 Concept -- 2.3.2 Application -- 2.4 Membrane aeration bioreactors (MABR).
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505 |
8 |
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|a 2.5 Extractive membrane bioreactors (EMBR) -- 2.5.1 Concept -- 2.5.2 Application -- 2.6 Enzyme immobilization techniques in membrane reactor systems -- 2.6.1 Physical adsorption -- 2.6.2 Entrapment -- 2.6.3 Cross-linking -- 2.6.4 Encapsulation -- 2.6.5 Segregation by membranes -- 2.6.6 Covalent binding -- 2.7 Laminated (multilayer) enzyme membrane reactors -- 2.7.1 Concept -- 2.7.2 Application -- 2.8 Biphasic (multiphase) membrane bioreactors -- 2.8.1 Concept -- 2.8.2 Application.
|
505 |
8 |
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|a 2.9 Phase transfer catalysis in multiphase membrane reactors -- 2.9.1 Concept -- 2.9.2 Application -- 2.10 Conclusions -- 3 Metallic nanoparticles made in flow and their catalytic applications in micro-flow reactors for organic synthesis -- 3.1 Introduction -- 3.2 Metal nanoparticles in a microfluidic reactor -- 3.2.1 Gold -- 3.2.2 Silver -- 3.2.3 Palladium -- 3.2.4 Platinum -- 3.2.5 Copper -- 3.3 Metal nanoparticles in a millifluidic reactor -- 3.4 Outlook -- metal nanoparticles generated in flow and used in situ -- 3.5 Conclusions.
|
505 |
8 |
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|a 4 Application of multi-objective optimization in the design and operation of industrial catalytic reactors and processes -- 4.1 Introduction -- 4.2 Multi-objective optimization -- 4.2.1 Concept of multi-objective optimization -- 4.2.2 MOO methods -- 4.3 No-preference methods -- 4.3.1 Neutral compromised solution -- 4.4 A priori methods -- 4.4.1 Method of Weighted global criterion -- 4.4.2 Lexicographic method -- 4.4.3 Goal Programming (GP) -- 4.5 A posteriori methods -- 4.5.1 f-Constraint Method -- 4.6 Interactive methods -- 4.7 Genetic algorithms.
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590 |
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|a Knovel
|b ACADEMIC - Chemistry & Chemical Engineering
|
650 |
|
0 |
|a Catalysts.
|
650 |
|
0 |
|a Chemical reactions.
|
650 |
|
0 |
|a Reactivity (Chemistry)
|
650 |
|
0 |
|a Chemical engineering.
|
650 |
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2 |
|a Chemical Engineering
|
650 |
|
6 |
|a Catalyseurs.
|
650 |
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6 |
|a Réactivité (Chimie)
|
650 |
|
6 |
|a Génie chimique.
|
650 |
|
7 |
|a catalyst.
|2 aat
|
650 |
|
7 |
|a chemical engineering.
|2 aat
|
650 |
|
7 |
|a Technology & Engineering
|x Chemical & Biochemical.
|2 bisacsh
|
650 |
|
7 |
|a Catalysts.
|2 fast
|0 (OCoLC)fst00848875
|
650 |
|
7 |
|a Chemical engineering.
|2 fast
|0 (OCoLC)fst00852893
|
650 |
|
7 |
|a Chemical reactions.
|2 fast
|0 (OCoLC)fst00853176
|
650 |
|
7 |
|a Reactivity (Chemistry)
|2 fast
|0 (OCoLC)fst01090522
|
830 |
|
0 |
|a De Gruyter textbook.
|
856 |
4 |
0 |
|u https://appknovel.uam.elogim.com/kn/resources/kpCR000011/toc
|z Texto completo
|
936 |
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|a BATCHLOAD
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938 |
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|a De Gruyter
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|b EBLB
|n EBL4191084
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938 |
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|a ProQuest MyiLibrary Digital eBook Collection
|b IDEB
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938 |
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994 |
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