TY - BOOK ID - 7540670 TI - Thermo-hydrodynamic design of fluidized bed combustors : estimating metal wastage PY - 2012 VL - 1 SN - 2191530X SN - 1461435900 9786613705440 1461435919 1280795050 PB - New York : Springer, DB - UniCat KW - Fluidized-bed combustion. KW - Fluidized-bed furnaces. KW - Fossil fuels -- Combustion. KW - Fluidized-bed combustion KW - Fluidized-bed furnaces KW - Metal wastes KW - Mechanical Engineering KW - Physics KW - Engineering & Applied Sciences KW - Physical Sciences & Mathematics KW - Mechanical Engineering - General KW - Thermodynamics KW - Metal wastes. KW - Metal-containing wastes KW - Metallurgical wastes KW - Waste metals KW - Wastes, Metal KW - Wastes, Metallurgical KW - Furnaces, Fluidized-bed KW - Engineering. KW - Thermodynamics. KW - Heat engineering. KW - Heat transfer. KW - Mass transfer. KW - Environmental pollution. KW - Materials science. KW - Engineering Thermodynamics, Heat and Mass Transfer. KW - Terrestrial Pollution. KW - Characterization and Evaluation of Materials. KW - Factory and trade waste KW - Fluidization KW - Furnaces KW - Combustion KW - Surfaces (Physics). KW - Surface chemistry KW - Surfaces (Technology) KW - Chemical pollution KW - Chemicals KW - Contamination of environment KW - Environmental pollution KW - Pollution KW - Contamination (Technology) KW - Asbestos abatement KW - Bioremediation KW - Environmental engineering KW - Environmental quality KW - Hazardous waste site remediation KW - Hazardous wastes KW - In situ remediation KW - Lead abatement KW - Pollutants KW - Refuse and refuse disposal KW - Construction KW - Industrial arts KW - Technology KW - Environmental aspects KW - Heat KW - Mechanical engineering KW - Chemistry, Physical and theoretical KW - Dynamics KW - Mechanics KW - Heat-engines KW - Quantum theory KW - Material science KW - Physical sciences KW - Mass transport (Physics) KW - Transport theory KW - Heat transfer KW - Thermal transfer KW - Transmission of heat KW - Energy transfer UR - https://www.unicat.be/uniCat?func=search&query=sysid:7540670 AB - Thermo-Hydrodynamic Design of Fluidized Bed Combustors: Estimating Metal Wastage is a unique volume that finds that the most sensitive parameters affecting metal wastage are superficial fluidizing velocity, particle diameter, and particle sphericity.  Gross consistencies between disparate data sources using different techniques were found when the erosion rates are compared on the same basis using the concept of renormalization.  The simplified mechanistic models and correlations, when validated, can be used to renormalize any experimental data so they can be compared on a consistent basis using a master equation. ER -