Papers by Author: Yu Zhu Zhang

Abstract: With the combination of fractal theory and metallurgical properties of low silicon sinter, the influence of metallurgical properties in different content of R, MgO, SiO2 and C is analyzed on the condition of existing experiment and fuel, and by using the mercury intrusion machine it measured the volume of micro-pore structure after broken of low silicon sinter; and it combined with the multifractal theory measured multifractal spectrum for the pore structure, which is established the relationship between with the metallurgical properties and fractal theory.

Abstract: The feasibility of coking waste water treatment by three-dimensional electrode was studied in the experiment. The reactor is comprised of a conventional two-dimensional electrode filled with high carbon-bearing metallized pellets which is also called the third electrode. The results show that there is a dramatic decrease in the content of COD, phenol and cyanide by this treatment. Also the color of coking wastewater after being treated is compared with original sample.

Abstract: The low silicon sintered ores are prepared, where C content is 3.3%, 3.5%, 3.7%, 3.9% and 4.1%, respectively. Their metallurgical properties are also measured. The results state that the low temperature reduction degradation property in low silicon sintered ore is to achieve the best when the carbon content was 3.7%. With increasing carbon content, it has a trend that the low silicon sintered reducing gradually become variation. In this range of carbon content, softening initial temperature exceed 1230 oC, the softening interval is less than 120 oC, so suitable C content are helpful to improve metallurgical properties for low silicon sintered ore.

Abstract: In order to study the application of fluidized bed process for the gas quenching steel slag(GQSS) slag-iron separation, according to the principles of fluidized bed material separation, based on the all GQSS, this paper researches the influence law of fluidization characteristics and the fluidization performance of GQSS after adding 20% (calculated by volume) iron grains. The experiment uses single hood fluidized bed as experiment device, studies the GQSS and iron grains of critical fluidization and slugging fluidization of other characteristics in the fluidization process, and determinates the packing density in interior and exterior of the tube. The results show that: when the material is all GQSS, the appropriate fluidization thickness of material layer is 300~400mm ; after adding 20% iron grains in the tube, the appropriate fluidization thickness of material layer is 350~400mm. The results of this paper on GQSS slag-iron separation have important theoretical significance.

Abstract: By adopting heat-stew steel slag(HSSS) as a contrast, this research studied the gas quenching steel slag(GQSS) grindability using fractal theory and grinding power index. The results showed that the two kinds of steel slag had a good fractal characteristic, and the smaller fractal dimension was, the better grindability would be. Studied on the fractal dimension and grinding time of the two kinds of steel slag as well as their specific surface areas, a conclusion drawn that with the extending of grinding time, the fractal dimension of them would be continuously increased. However, within the same grinding time, GQSS not only have a relevant good distributed particle structural and a smaller fractal dimension, but also have a better linear relation between specific surface areas and fractal dimension. By determining the grinding power index, the correctness of using fractal theory to study GQSS can be proved. Meanwhile, the result also shows that GQSS has a better grindability.

Abstract: Coking wastewater is the poisonous wastewater with complicated components produced in the coking process and it is difficult to be degraded. The paper studies the static treatment effect of metallization pellet with high carbon (MPHC), sponge iron, 45＃steel chips and cast iron chips on coking wastewater. And the four substances are characterized by scanning electron microscope (SEM). The results indicate that the degradation performance of MPHC on coking wastewater is higher than that of sponge iron, 45＃steel chips and cast iron chips. There are abundant pores on MPHC, and the activated carbon has strong adsorption capacity, and it can adsorb the organic pollutants on the surface of primary battery, and promotes the progress of iron-carbon internal electrolysis reaction.

Abstract: To introduce the situation of removal phosphorus from steel slag at present, the existence of phosphorus in the steel slag was analyzed. The technical concept that steel slag was used as a sintering raw material in sintering process was proposed by the thermodynamic analysis on the base of adding ferrous manganese ore.The technology has reference value for making steel slag be the raw material of sintering and can control the content of phosphorus in the sintering to a certain extent.