摘要
Effects of microwave heating on the pore fractal properties of blast furnace sludge (BFS) and relative mechanism were studied. The results show that the morphology features of iron bearing sinter and coke particles, which are the main constituents of the BFS, were remarkably changed by microwave heating. The porosity, surface roughness and specific surface area of modified particle surface all increased obviously. Combining with fractal meth-od called Sierpinski model, the fractal dimensions of sinter, coke and others increased from 2.35, 2.24 and 2.58 to 2.65, 2.44 and 2.61 respectively, after modification by microwave heating. The results predicted that the reaction mechanism of microwave heating for BFS is related to two aspects. Different mineral phases existed in BFS particles incline to dissociate each other due to their different microwave absorbability~ some recombination or reconstruction of matters or structure leads to structure defects, which have great influences on the surface morphology characteris-tics and chemical properties. The research indicated that fractal dimension can be used as an effective factor for quan-titative analysis of the pore changes in morphology of the sludge. Furthermore, it is helpful for separation and ex- traction of valuable constituent from BFS.
Effects of microwave heating on the pore fractal properties of blast furnace sludge (BFS) and relative mechanism were studied. The results show that the morphology features of iron bearing sinter and coke particles, which are the main constituents of the BFS, were remarkably changed by microwave heating. The porosity, surface roughness and specific surface area of modified particle surface all increased obviously. Combining with fractal meth-od called Sierpinski model, the fractal dimensions of sinter, coke and others increased from 2.35, 2.24 and 2.58 to 2.65, 2.44 and 2.61 respectively, after modification by microwave heating. The results predicted that the reaction mechanism of microwave heating for BFS is related to two aspects. Different mineral phases existed in BFS particles incline to dissociate each other due to their different microwave absorbability~ some recombination or reconstruction of matters or structure leads to structure defects, which have great influences on the surface morphology characteris-tics and chemical properties. The research indicated that fractal dimension can be used as an effective factor for quan-titative analysis of the pore changes in morphology of the sludge. Furthermore, it is helpful for separation and ex- traction of valuable constituent from BFS.
基金
Item Sponsored by National Natural Science Foundation of China(51204004)
University Science Research Project of Anhui Province of China(KJ2013Z017)
