ABSTRACT

A realization of recent clean energy initiatives, fluidized bed combustion (FBC) has quickly won industry preference due to its ability to burn materials as diverse as low-grade coals, biomass, and industrial and municipal waste. Fluidized Bed Combustion catalogs the fundamental physical and chemical processes required of bubbling fluidized beds before launching into application-centered coverage of hot-gas generator, incinerator, and boiler concepts and design, calculations for regime parameters and dimensions, and all aspects of FBC operation. It enumerates the environmental consequences of fluidized bed processes and proposes measures to reduce the formation of harmful emissions.

Energy production and fluidized bed combustion technology development; development of fluidized bed combustion boilers; fundamental processes in fluidized bed combustion boiler furnaces; hydrodynamics of gas-solid fluidization; heat and mass transferin fluidized beds; fundamental processes during coal combustion in fluidized beds; fluidized bed combustion applications; fluidized bed combustion in practice; investigation of coal suitability for fluidized bed combustion; harmful matter emissions from fluidized bed combustion boilers.