Global ETD Search

91	Plasma Spouted Bed Calcination of Lac Doré Vanadium Ore Concentrate Kreibaum, Jan January 1986 (has links) Note: Fluidized-bed furnaces. Plasma arc melting. Vanadium ores -- Refining.
92	Study of Gas-Solid Slugging Fluidized Bed with Geldart D Particles Using High-Temperature Electrical Capacitance Volume Tomography Xu, Mingyuan, Xu January 2017 (has links) No description available. Chemical Engineering ECVT slugging fluidized bed high temperature imaging
93	MTBE AND BTEX BIODEGRADATION IN A POROUS POT AND A FLUIDIZED BED REACTOR SEDRAN, MARIE ALLYSON 31 March 2004 (has links) No description available. Engineering, Environmental MTBE and BTEX Biodegradation Fluidized Bed Reactors
94	Biological Treatment of Nitrophenol Containing Wastewater Using Ethanol and Acetic Acid as Substrates Surendran, Suvid 06 August 2010 (has links) No description available. Environmental Engineering anaerobic / anoxic treatment nitrophenol fluidized bed reactor
95	Combustion of solid fuel in a fluidized bed combustor Hossain, Abu Noman January 1998 (has links) No description available. Engineering, Mechanical Pollutants Fluidized Bed Combustion Combustion Process
96	Comparison of the rates of attrition of Clarion 4A coal and char in a fluidized bed Ogonor, Vincent Onyematara O. January 1982 (has links) No description available. Engineering, Chemical Clarion 4A Coal Fluidized Bed Fluidizing Velocity
97	The internal circulation of the adjacent fluidized bed reactor Shih, Chuan-Cheng January 1989 (has links) No description available. Engineering, Chemical Internal Circulation Adjacent Fluidized Bed Reactor
98	Kinetic study of some gaseous reactions over ash in the fluidized-bed reactor Sheu, Feng-Ran January 1983 (has links) No description available. Engineering, Chemical Kinetic Fluidized-Bed Reactor Fluidized Technology
99	Effect of land application of fluidized-bed combustion residue on soil and plant characteristics of reclaimed surface-mined pastures, performance and mineral status of grazing steers and nutrient balance by sheep fed the forage Cochran, Michele A. 22 June 2010 (has links) Fluidized-bed combustion residue (FBCR) results from mixing coal with limestone during the combustion process. This by-product may be used as a liming agent. A grazing trial was conducted on an acidic mine soil to compare FBCR to dolomitic limestone and no amendment (control). Six steers per treatment were grazed rotationally on three replications (rep) of three .8 ha pastures. Both materials increased soil pH similarly, and reduced plant uptake of Fe, Zn, Mn, and Ni similarly. Calcium concentration increased in forages by both amendments, Mg increased with limestone and S with FBCR application. Cell wall components decreased, while ash and lignin increased with both amendments. Serum mineral levels of cattle were normal except Cu was low. Animal tissues reflected differences in mineral concentration observed in forages. Hay harvested from one rep was used in a mineral balance trial with 18 wethers. Apparent digestibility of dry matter, crude protein and fiber components, and N retention were not affected by treatment. Control animals were in negative Ca balance. Apparent absorption of Mg was higher (P < .01) for limestone treatment animals; S absorption was higher for the FBCR group; and, Zn absorption was higher for controls. Serum mineral levels of sheep were normal except Cu was low. No appreciable accumulation of heavy metals occurred in forage or animal tissues. Low Cu levels observed for all treatment groups indicate a problem inherent of the study site. FBCR appears to be a safe and efficient soil pH amendment. / Master of Science LD5655.V855 1988.C623 Fluidized-bed combustion Reclamation of land
100	Studies in vibrofluidized beds and synthesis of silica catalysts Sprung, Renato January 1987 (has links) The effect of the solid-circulation rate and pattern as well as the air-gap size on heat-transfer coefficients between a horizontal, cylindrical heater and vibrated beds of Master Beads (spherical alumina) and glass spheres was studied. Solid piles were observed to form at specific bed locations. Solid-circulation paths were directed from the shallowest toward the deepest region of the vibrated bed. For beds in which the solid pile formed above the heating surface, local solid-circulation loops were observed above and below the heater. Air gaps developed at the top and bottom of the cylindrical heater. Heat-transfer coefficients of 140-350 W/m²K in beds of glass spheres and 180-480 W/m²K in beds of Master Beads were determined for a temperature difference of 30°C between the heater and vibrated bed. The trends in the behavior of the heat-transfer coefficient could be explained in terms of a model that accounted for the air-gap size and particle renewal in the layer closest to the heater. Increased solid-circulation rates improved the heat-transfer performance until larger air-gap sizes eventually compromised any increase in solid circulation. The expansion of the interlayer spacing of H-Magadiite (a layered silicic acid) by the introduction of pillars containing silicon atoms was investigated. A trisiloxane and two trichloroorganosilane compounds were used as the pillaring agents. The interlayer space of H-Magadiite was successfully expanded by pillaring with trichloroorganosilanes. The minimum dimensions of the pores that access the interlayer space of the pillared compounds were determined as being 6.2 Å and 9.5 Å (dimensions at perpendicular directions). Pillaring of H-Magadiite at low pH and temperatures close to 0 °C yielded the highest surface areas, e.g., increasing the surface area from 35 to 130-200 m²/g. The pillared compounds were found to be thermally stable up to temperatures of 650°C. / Ph. D. LD5655.V856 1987.S696 Fluidized-bed combustion Combustion

Search results