Problem Solving in Chemical Reactor Design
1. Edition October 2024
416 Pages, Hardcover
147 Pictures (147 Colored Figures)
Monograph
ISBN:
978-3-527-35411-5
Wiley-VCH, Weinheim
Wiley Online LibraryContentSample ChapterIndexSupplementary Material
Short Description
Provides up-to-date problem-solving examples in different fields of chemical reaction engineering and fills a gap in the current literature.
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Further versions
PREFACE
DEDICATION
NOMENCLATURE
PART1
1. NON-IDEAL FLOW AND REACTOR CHARACTERIZATION
2. CHEMICAL REACTION IN NON-IDEAL REACTORS
3. TRANSFER FUNCTION IN CHEMICAL REACTORS
PART2
4. CONVOLUTION AND DECONVOLUTION OF SIGNALS IN CHEMICAL REACTOR ENGINEERING
5. PARTIAL DIFFERENTIAL EQUATIONS IN CHEMICAL REACTOR ENGINEERING. UNSTEADY STATE
PART3
6. REACTION RATE ON CATALYTIC PROCESSES
7. CATALYTIC REACTOR DESIGN
8. MULTIPHASE REACTOR DESIGN
PART4
9. BIOCHEMICAL REACTOR DESIGN: ENZYMATIC PROCESSES
10. BIOCHEMICAL REACTOR DESIGN: MICROBIAL GROWTH
BIBLIOGRAPHY
DEDICATION
NOMENCLATURE
PART1
1. NON-IDEAL FLOW AND REACTOR CHARACTERIZATION
2. CHEMICAL REACTION IN NON-IDEAL REACTORS
3. TRANSFER FUNCTION IN CHEMICAL REACTORS
PART2
4. CONVOLUTION AND DECONVOLUTION OF SIGNALS IN CHEMICAL REACTOR ENGINEERING
5. PARTIAL DIFFERENTIAL EQUATIONS IN CHEMICAL REACTOR ENGINEERING. UNSTEADY STATE
PART3
6. REACTION RATE ON CATALYTIC PROCESSES
7. CATALYTIC REACTOR DESIGN
8. MULTIPHASE REACTOR DESIGN
PART4
9. BIOCHEMICAL REACTOR DESIGN: ENZYMATIC PROCESSES
10. BIOCHEMICAL REACTOR DESIGN: MICROBIAL GROWTH
BIBLIOGRAPHY
Dr. Juan A. Conesa is a distinguished Professor of Chemical Engineering at the University of Alicante, Spain. With over 30 years of experience, his research focuses on decomposition kinetics, waste degradation, and pollutant analysis under various conditions. He is particularly renowned for his work on dioxins and furans. Dr. Conesa has promoted pollution analysis, studied electronic waste decomposition, and collaborated on biofuel combustion research. He has also explored carbonaceous compound modification, graphene production, and materials for supercapacitors. Since 2015, he has led the research group "Waste, Energy, Environment and Nanotechnology (WEEN)" at the University of Alicante.
