Introduction to Catalytic CombustionCRC Press, 26 gen 1998 - 690 pagine In a clear and concise manner, this book explains how to apply concepts in chemical reaction engineering and transport phenomena to the design of catalytic combustion systems. Although there are many textbooks on the subject of chemical reaction engineering, catalytic combustion is mentioned either only briefly or not at all. The authors have chosen three examples where catalytic combustion is utilized as a primary combustion process and natural gas is used as a fuel - stationary gas turbines, process fluid heaters, and radiant heaters; these cover much of the area where research is currently most active. In each of these there are clear environmental benefits to be gained illustrating catalytic combustion as a "cleaner primary combustion process" . The dominant heat transfer processes in each of the applications are different, as are the support systems, flow geometrics and operating conditions. |
Sommario
Introduction | 1 |
1 | 4 |
2345 | 23 |
Multichannel monoliths | 30 |
6 | 40 |
7 | 47 |
ix | 67 |
12 | 84 |
44 | 250 |
46 | 256 |
47 | 265 |
48 | 271 |
Further Reading | 275 |
Modelling of Catalytic Combustion Reactors | 281 |
2 | 288 |
50 | 304 |
Introductory Note to Chapters 2 to 6 | 89 |
14 | 92 |
Thermodynamics Kinetics and Transport Phenomena | 97 |
15 | 104 |
2 | 126 |
26 | 140 |
30 | 169 |
fluid systems with and without reaction | 213 |
38 | 232 |
40 | 244 |
reactor | 368 |
5 | 383 |
Further Reading | 464 |
References | 502 |
Further Reading on Catalyst Preparation | 586 |
648 | |
Appendix A Useful conversions | 651 |
Appendix E Useful mathematical transformations | 670 |
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Parole e frasi comuni
adsorbed adsorption axial boundary conditions boundary layer bulk calculated carbon catalyst catalytic combustion applications catalytic converters catalytic reaction chemisorption combustion reactions combustor computed concentration considered conversion cross-sectional Deff density developed diameter diffusion coefficient dimensionless duct effectiveness factor element emissions energy balance energy balance equation Engineering enthalpy equilibrium example experimental Figure fluid fuel function gas phase gives gradients heat and mass heat capacity heat transfer coefficient heater homogeneous reaction hydraulic diameter hydrocarbons kinetic Kolaczkowski laminar flow LHHW methane mixture molar flowrate mole balance equation mole fraction molecules monolith channel monolith reactor Nusselt outlet oxidation oxygen packed bed parameters particles plate plug flow pore porous pressure drop propane radiation rate constant rate expression rate of reaction reactants reaction rate result Reynolds number Section solution species steady step stream surface area thermal conductivity tion velocity volume wall temperature washcoat αξ эт
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