Characterization of fuels: Analysis and calorific value with problems, Principles of conversion of fuels: Carbonization, Gasification and Hydrogenation, Principles of fuel combustion and Numerical problems. Classification of refractories and their service properties, Manufacture of common refractory like silica, alumina, fireclay, dolomite, magnesite. Types of furnaces and their role in high temperature applications, Fluid flow in furnaces: macroscopic energy balance and its application to Design of chimney and flow measuring devices Heat transfer in furnaces: Conduction, convection and radiation with suitable examples to design refractory lining, and heating of load through flame and convection. Flame temperature and heat utilization; concept of available heat and fuel consumption, Principles of waste heat recovery and design of heat exchangers and burners, Heat balance diagrams with illustrations, Fuel economy in industrial furnaces, Oxygen addition to combustion process, Energy efficient operation of furnaces, Instrumentation and control in furnaces. Concept of carbon credit |
Text/Reference Books:
- R. Schumann: Metallurgical Engineering Principles, 1952.
- P. Mullinger and B. Jenkins: Industrial and Process furnaces, 2013.
- Butts, Metallurgical Engineering Problems, 1981.
- G. David and C. David, “Fundamentals of Materials for Energy and Environmental Sustainability” Cambridge University Press, 2011
- R.A. Huggins,Advanced Batteries, Materials Science Aspects, Springer, 2008.
- R. O’Hare, Suk-Won C., W. Colella, F.Prinz, Fuel Cell Fundamentals, Wiley, 2009.
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