Industrial and Process Furnaces: Principles, Design and OperationElsevier, 30 серп. 2011 р. - 544 стор. Industrial and Process Furnaces provides a comprehensive reference to all aspects of furnace operation and design, with coverage of key topics that plant and process engineers and operators need to understand, including the combustion process and its control, furnace fuels, efficiency, burner design and selection, aerodynamics, heat release profiles, furnace atmosphere, safety and emissions. * Helps to understand complex heat and mass transfer and combustion problems* Outlines the key elements of furnace theory for optimum design* Shows how to achieve best possible furnace operation* Practical, stepped approach breaks topics down to their constituent parts for clarity and easier solution * Practical examples further assist in the analysis of real-world problemsDeveloped by authors with experience of a wide range of industrial applications, this book is written for chemical and process engineers, mechanical, design and combustion engineers and students. It is ideal for both task-based problem solving and more detailed analysis work.
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Зміст
31 | |
Chapter 3 Fuels for furnaces | 67 |
Chapter 4 An introduction to heat transfer in furnaces | 89 |
Chapter 5 Flames and burners for furnaces | 141 |
Chapter 6 Combustion and heat transfer modelling | 209 |
Chapter 7 Fuel handling systems | 243 |
Chapter 8 Furnace control and safety | 287 |
Chapter 9 Furnace efficiency | 335 |
Chapter 10 Emissions and environmental impact | 375 |
Chapter 11 Furnace construction and materials | 413 |
Chapter 12 Furnace design methods | 455 |
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511 | |
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Industrial and Process Furnaces: Principles, Design and Operation Peter Mullinger,Barrie Jenkins Попередній перегляд недоступний - 2008 |
Загальні терміни та фрази
achieved air flow air preheat alumina analysis atomiser brick calculated carbon carbon monoxide cement cement kiln Chapter chemical combustion air convective heat transfer cooling cost density diameter diffusion flames duct effect efficiency emissions energy balance enthalpy entrainment equation example excess air explosion feed feeder firing systems flame temperature flowrate flue gas flue gases fluid fuel fuel/air mixing furnace design heat flux heat recovery heater hence high temperature ignition increase inlet input installation kg/s liquid material measured metal mill inlet minimise natural gas normally nozzle owing oxidation oxygen parameters particle plant preheating premixed premixed flames pressure primary air pulverised coal radiation ratio reaction recirculation reduced refractory risk rotary kiln sample Schematic secondary air shown in Figure slab solid steel stoichiometric stream Stream Energy surface Table techniques thermal tion tube turbulent typical valve velocity well-stirred furnace zone