원문정보
초록
영어
The use of fluidized-bed for power generation is a rapidly growing technology in Asian countries. Recent development efforts in the world wide energy picture have given much thought to ways of employing fluidized beds in energy conversion and recovery processes, despite stringent environmental legislation concerning waste incineration. This has stimulated the development of advanced combustion, gasification, drying and or cooling of solid particles utilizing the fluidize bed technology The ability of fluidized bed to burn a wide variety of fuels, while meeting strict emission-control regulations, makes them an ideal choice for burning such fuels as high-sulphur coal, lignite, peat, oil, sludge, petroleum coke, gas and wastes. The fluidized bed technology is presented to inform the public about the important applications which can be utilized in dealing with our solid waste disposal problems under environmental restrictions and possible integration of this topic in the power plant design course.
목차
1. Introduction
2. Fluidization
3. Principle of Fluidization
4. Gasification
5. Combustion
6. Fluidized Bed Combustion (Waste to Energy)
7. Dryers
8. Drying and Coling
9. Metallurgical Heat Treatment
10. Solid Transport Systems
11. Flue Gas Desulphurization
12. Fluidized Bed Catalytic Cracking
13. Conclusion
References