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Author: Evgeniy A. Redekop Publisher: ISBN: Category : Electronic dissertations Languages : en Pages : 132
Book Description
Rational catalyst design must be advanced beyond its state-of-the-art given the significant economic and environmental relevance of catalytic technologies. To address this challenge, precise kinetic characterization of industrial catalysts is required for elucidating complex reaction mechanisms, establishing structure-activity relationships, and building scientifically-sound microkinetic models of catalytic processes. In this thesis, a novel framework for non-steady-state high-throughput kinetic characterization of complex catalytic reactions is theoretically developed, experimentally validated, and applied to a catalytic reaction of considerable interest. This novel framework of catalyst characterization is based on Temporal Analysis of Products (TAP) experiments. These pulse-response experiments employ Knudsen diffusion as a reliable standard process of gas transport to measure intrinsic rates of chemical transformations on catalysts. Specifically, this work focuses on the Thin- Zone (TZ) configuration of the TAP microreactor which allows monitoring of reaction kinetics for a well-defined and spatially uniform catalyst state with resolution on the millisecond scale. In the TZ TAP reactor, a narrow catalytic sample is packed between two inert zones in order to minimize macroscopic concentration and temperature non-uniformities across the catalyst. Unlike traditional kinetic testing devices such as well-mixed or tubular reactors, the TZ TAP reactor maintains the catalyst in a highly uniform state for an extended range of reactant conversions. One of the main implications of maintaining TZ uniformity is the ability to effectively decouple reaction kinetics from external transport in the microreactor. Typically, TAP data analysis relies on a set of mechanistic assumptions about a reaction in order to obtain kinetic information from coupled reaction-diffusion data. In our framework, intra-pulse kinetic characteristics in the TZ including reaction rates, gaseous concentrations, and surface concentrations are reconstructed from exit flows via the 'model free' Y-Procedure and then used for elucidating the reaction mechanism and estimating kinetic parameters. The core idea of the data analysis framework developed in this thesis is that the network of elementary steps behind a catalytic reaction can be revealed by examining how reconstructed kinetic characteristics evolve in relation to each other during a pulse-response experiment. Our results suggest, for example, that the temporal coherence between reactant consumption and product generation rates can provide compelling arguments in favor of one potential reaction mechanism over another. The analysis of rate-concentration data can also be used to estimate intrinsic kinetic parameters once the network of reaction steps is identified. These theoretical developments have been translated into a viable experimental methodology which has been validated using well-characterized oxygen uptake on polycrystalline platinum as a benchmark problem. Finally, the Y-Procedure was applied to study CO oxidation and oxygen storage on the Au/SiO2 catalyst prepared by magnetron sputtering. Oxygen was introduced to the catalyst during ow pretreatments under elevated pressure and then titrated o the catalyst by multi-pulse CO sequences under TAP vacuum conditions. The data indicate that oxygen is stored on the catalyst in two kinetically distinct reservoirs. Both reservoirs get filled with oxygen under ow pretreatment, but only one of them directly contributes oxygen for CO oxidation under vacuum. The two reservoirs exchange oxygen between each other and after one of them is depleted by the oxidation reaction during a CO pulse, the second reservoir resupplies oxygen before the next CO pulse arrives. Further research is needed to identify the chemical nature of the second oxygen reservoir. However, our findings testify to the utility of the Y-Procedure as an advanced tool for mechanistic research in catalysis. The thesis outlook section suggests several research directions which will be facilitated by the systematic application of the Y-Procedure.
Author: Evgeniy A. Redekop Publisher: ISBN: Category : Electronic dissertations Languages : en Pages : 132
Book Description
Rational catalyst design must be advanced beyond its state-of-the-art given the significant economic and environmental relevance of catalytic technologies. To address this challenge, precise kinetic characterization of industrial catalysts is required for elucidating complex reaction mechanisms, establishing structure-activity relationships, and building scientifically-sound microkinetic models of catalytic processes. In this thesis, a novel framework for non-steady-state high-throughput kinetic characterization of complex catalytic reactions is theoretically developed, experimentally validated, and applied to a catalytic reaction of considerable interest. This novel framework of catalyst characterization is based on Temporal Analysis of Products (TAP) experiments. These pulse-response experiments employ Knudsen diffusion as a reliable standard process of gas transport to measure intrinsic rates of chemical transformations on catalysts. Specifically, this work focuses on the Thin- Zone (TZ) configuration of the TAP microreactor which allows monitoring of reaction kinetics for a well-defined and spatially uniform catalyst state with resolution on the millisecond scale. In the TZ TAP reactor, a narrow catalytic sample is packed between two inert zones in order to minimize macroscopic concentration and temperature non-uniformities across the catalyst. Unlike traditional kinetic testing devices such as well-mixed or tubular reactors, the TZ TAP reactor maintains the catalyst in a highly uniform state for an extended range of reactant conversions. One of the main implications of maintaining TZ uniformity is the ability to effectively decouple reaction kinetics from external transport in the microreactor. Typically, TAP data analysis relies on a set of mechanistic assumptions about a reaction in order to obtain kinetic information from coupled reaction-diffusion data. In our framework, intra-pulse kinetic characteristics in the TZ including reaction rates, gaseous concentrations, and surface concentrations are reconstructed from exit flows via the 'model free' Y-Procedure and then used for elucidating the reaction mechanism and estimating kinetic parameters. The core idea of the data analysis framework developed in this thesis is that the network of elementary steps behind a catalytic reaction can be revealed by examining how reconstructed kinetic characteristics evolve in relation to each other during a pulse-response experiment. Our results suggest, for example, that the temporal coherence between reactant consumption and product generation rates can provide compelling arguments in favor of one potential reaction mechanism over another. The analysis of rate-concentration data can also be used to estimate intrinsic kinetic parameters once the network of reaction steps is identified. These theoretical developments have been translated into a viable experimental methodology which has been validated using well-characterized oxygen uptake on polycrystalline platinum as a benchmark problem. Finally, the Y-Procedure was applied to study CO oxidation and oxygen storage on the Au/SiO2 catalyst prepared by magnetron sputtering. Oxygen was introduced to the catalyst during ow pretreatments under elevated pressure and then titrated o the catalyst by multi-pulse CO sequences under TAP vacuum conditions. The data indicate that oxygen is stored on the catalyst in two kinetically distinct reservoirs. Both reservoirs get filled with oxygen under ow pretreatment, but only one of them directly contributes oxygen for CO oxidation under vacuum. The two reservoirs exchange oxygen between each other and after one of them is depleted by the oxidation reaction during a CO pulse, the second reservoir resupplies oxygen before the next CO pulse arrives. Further research is needed to identify the chemical nature of the second oxygen reservoir. However, our findings testify to the utility of the Y-Procedure as an advanced tool for mechanistic research in catalysis. The thesis outlook section suggests several research directions which will be facilitated by the systematic application of the Y-Procedure.
Author: Michel Che Publisher: John Wiley & Sons ISBN: 3527645330 Category : Technology & Engineering Languages : en Pages : 1313
Book Description
This two-volume book provides an overview of physical techniques used to characterize the structure of solid materials, on the one hand, and to investigate the reactivity of their surface, on the other. Therefore this book is a must-have for anyone working in fields related to surface reactivity. Among the latter, and because of its most important industrial impact, catalysis has been used as the directing thread of the book. After the preface and a general introduction to physical techniques by M. Che and J.C. Vedrine, two overviews on physical techniques are presented by G. Ertl and Sir J.M. Thomas for investigating model catalysts and porous catalysts, respectively. The book is organized into four parts: Molecular/Local Spectroscopies, Macroscopic Techniques, Characterization of the Fluid Phase (Gas and/ or Liquid), and Advanced Characterization. Each chapter focuses upon the following important themes: overview of the technique, most important parameters to interpret the experimental data, practical details, applications of the technique, particularly during chemical processes, with its advantages and disadvantages, conclusions.
Author: Israel E. Wachs Publisher: Springer Nature ISBN: 3031071255 Category : Technology & Engineering Languages : en Pages : 1109
Book Description
Co-edited by world-renowned scientists in the field of catalysis, this book contains the cutting-edge in situ and operando spectroscopy characterization techniques operating under reaction conditions to determine a materials’ bulk, surface, and solution complex and their applications in the field of catalysis with emphasis on solid catalysts in powder form since such catalyst are relevant for industrial applications. The handbook covers from widely-used to cutting-edge techniques. The handbook is written for a broad audience of students and professionals who want to pursue the full capabilities available by the current state-of-the-art in characterization to fully understand how their catalysts really operate and guide the rational design of advanced catalysts. Individuals involved in catalysis research will be interested in this handbook because it contains a catalogue of cutting-edge methods employed in characterization of catalysts. These techniques find wide use in applications such as petroleum refining, chemical manufacture, natural gas conversion, pollution control, transportation, power generation, pharmaceuticals and food processing. fdsfds
Author: A. Corma Publisher: Elsevier ISBN: 0080528635 Category : Technology & Engineering Languages : en Pages : 2051
Book Description
The twelfth Congress on Catalysis was held in Granada (Spain) under the auspices of the International Association of Catalysis Societies and the Spanish Society of Catalysis. These four-volume Proceedings are the expression of the Scientific Sessions which constituted the main body of the Congress.They include 5 plenary lectures, 1 award lecture, 8 keynote lectures, 124 oral presentations and 495 posters. The oral and poster contributions have been selected on the basis of the reports of at least two international reviewers, according to standards comparable to those used for specialised journals.
Author: James Spivey Publisher: Royal Society of Chemistry ISBN: 183916204X Category : Science Languages : en Pages : 495
Book Description
This volume looks at modern approaches to catalysis and reviews the extensive literature which bridges the gap from academic studies in the laboratory to practical applications in industry not only for catalysis field but also for environmental protection.
Author: Zeynep Ilsen Ă–nsan Publisher: John Wiley & Sons ISBN: 1119248469 Category : Technology & Engineering Languages : en Pages : 399
Book Description
Provides a holistic approach to multiphase catalytic reactors from their modeling and design to their applications in industrial manufacturing of chemicals Covers theoretical aspects and examples of fixed-bed, fluidized-bed, trickle-bed, slurry, monolith and microchannel reactors Includes chapters covering experimental techniques and practical guidelines for lab-scale testing of multiphase reactors Includes mathematical content focused on design equations and empirical relationships characterizing different multiphase reactor types together with an assortment of computational tools Involves detailed coverage of multiphase reactor applications such as Fischer-Tropsch synthesis, fuel processing for fuel cells, hydrotreating of oil fractions and biofuels processing
Author: Pascal Granger Publisher: MDPI ISBN: 303921179X Category : Technology & Engineering Languages : en Pages : 214
Book Description
Kinetics and reactor modeling for heterogeneous catalytic reactions are prominent tools for investigating and understanding catalyst functionalities at nanoscale and the related rates of complex reaction networks. This book illustrates some examples related to the transformation of simple to more complex feedstocks, including different types of reactor designs, i.e., steady-state, transient plug flow reactors, and TAP reactors for which there is sometimes a strong gap in the operating conditions from ultra-high-vacuum to high-pressure conditions. In conjunction, new methodologies have emerged, giving rise to more robust microkinetics models. As exemplified, they include the kinetics and the dynamics of the reactors and span a large range of length and time scales. The objective of this Special Issue is to provide contributions that can illustrate recent advances and novel methodologies for elucidating the kinetics of heterogeneous reactions and the necessary multiscale approach for optimizing the reactor design. This book is dedicated to postgraduate and scientific researchers, and experts in heterogeneous catalysis. It may also serve as a source of original information for the elaboration of lessons on catalysis for Master students.
Author: Guy B. Marin Publisher: John Wiley & Sons ISBN: 3527342958 Category : Science Languages : en Pages : 462
Book Description
This second, extended and updated edition presents the current state of kinetics of chemical reactions, combining basic knowledge with results recently obtained at the frontier of science. Special attention is paid to the problem of the chemical reaction complexity with theoretical and methodological concepts illustrated throughout by numerous examples taken from heterogeneous catalysis combustion and enzyme processes. Of great interest to graduate students in both chemistry and chemical engineering.
Author: Denis Constales Publisher: Elsevier ISBN: 0444594841 Category : Technology & Engineering Languages : en Pages : 416
Book Description
Advanced Data Analysis and Modeling in Chemical Engineering provides the mathematical foundations of different areas of chemical engineering and describes typical applications. The book presents the key areas of chemical engineering, their mathematical foundations, and corresponding modeling techniques. Modern industrial production is based on solid scientific methods, many of which are part of chemical engineering. To produce new substances or materials, engineers must devise special reactors and procedures, while also observing stringent safety requirements and striving to optimize the efficiency jointly in economic and ecological terms. In chemical engineering, mathematical methods are considered to be driving forces of many innovations in material design and process development. Presents the main mathematical problems and models of chemical engineering and provides the reader with contemporary methods and tools to solve them Summarizes in a clear and straightforward way, the contemporary trends in the interaction between mathematics and chemical engineering vital to chemical engineers in their daily work Includes classical analytical methods, computational methods, and methods of symbolic computation Covers the latest cutting edge computational methods, like symbolic computational methods
Author: John Meurig Thomas Publisher: John Wiley & Sons ISBN: 352729239X Category : Science Languages : en Pages : 698
Book Description
Catalysis occupies a pivotal position in the physical and biological sciences. As well as being the mainstay of the chemical industry, it is the means of effecting many laboratory syntheses and the root cause of all enzymatic processes. This book is an eminently readable introduction to the fundamental principles of heterogeneous catalysis. Written by world-renowned experts, it explains the vocabulary, grammar and literature of catalysis from the laboratory-oriented model study through to the operating plant. Didactically skillful and using many lucidly designed figures, the authors present an insightful exposition of all important concepts, new developments and techniques in this rapidly advancing field.
Author: Evgeniy A. Redekop
Author: Evgeniy A. Redekop
Author: Michel Che
Author: Israel E. Wachs
Author: A. Corma
Author: James Spivey
Author: Zeynep Ilsen Ă–nsan
Author: Pascal Granger
Author: Guy B. Marin
Author: Denis Constales
Author: John Meurig Thomas