Advanced Materials Research
Vol. 768
Vol. 768
Advanced Materials Research
Vols. 765-767
Vols. 765-767
Advanced Materials Research
Vol. 764
Vol. 764
Advanced Materials Research
Vol. 763
Vol. 763
Advanced Materials Research
Vols. 760-762
Vols. 760-762
Advanced Materials Research
Vols. 756-759
Vols. 756-759
Advanced Materials Research
Vols. 753-755
Vols. 753-755
Advanced Materials Research
Vols. 750-752
Vols. 750-752
Advanced Materials Research
Vol. 749
Vol. 749
Advanced Materials Research
Vol. 748
Vol. 748
Advanced Materials Research
Vol. 747
Vol. 747
Advanced Materials Research
Vol. 746
Vol. 746
Advanced Materials Research
Vol. 745
Vol. 745
Advanced Materials Research Vols. 753-755
Paper Title Page
Abstract: A device, was used to recover dust and rhenium from molybdenum concentrate roasting exhaust gas, was developed. The device combine the self-swash dust catcher and spherical tray tower technology: the self-swash dust catcher was used to recover dust and rhenium; spherical tray tower was used to further dust and rhenium recovery and its application to engineering in practice. This was the first successful such devices used to recover dust and rhenium integration from calcination exhaust of molybdenum concentrate which contain rhenium in production practice. Through production practice, proved that the device is feasible, with high efficiency. And it has the advantages of simple structure, convenient operation, low cost and low energy consumption etc.. In addition, the dust removing system can also be used to the wet dust collector in the filed of metallurgical , mining, chemical and building.
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Abstract: Nowadays, the demand of Chinese market for iron ores exceeds the supply. However, more than 90% the iron ores in China is of low grade with 30%Fe in average; the sub-marginal and ultra lean ores account for 40% of the total. Therefore, research on the beneficiation of above ores is extremely significant. This article reviews the present situation and technical problems on utilization of the lean iron ores in China over the past years. Moreover, the major progress in the technology and equipment is summarized. Efficient separation as well as energy saving is still the core in utilization of the ore. Emphasis is placed on different processes developed in upgrading the ore grade to plants and realizing the comprehensive utilization problems.
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Abstract: In China,more and more low permeability reservoirs have become the mainly oil production potential part for the soaring consumer market. Hydraulic fracturing treatment has always been playing an important role in these low permeability reservoirs.however,some inappropricate fracturing designs and treatments may decrease the productions as a result of high damage within both formations and artifical fractures.In order to minimize reduce formation and fracture damage, we take the wells in Erlian Basin as an example to explain the low-damage hydraulic fracturing technique which had been used in many of oil fields .Through eight years step by step study and field application, a comprehensive industrialize design technology was put forward. By the application of this technique, the low-damage degree is highlighted compared to the past.As a result the performance of post-fracturing wells have remarkably improved.
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Abstract: The throat of low permeability oil reservoir is narrow and small, the reservoir fluid flow resistance is big, and with the start-up pressure gradient, compare with medium and high permeability reservoir fluid flow, the characteristics are obviously different in performance for non-darcy flow at low speed. This kind of oil field reservoir started in the process of mining scope is small, the degree of use and the development effect is low. To solve these problems, this paper established considering start-up pressure gradient of the new unstable seepage flow mathematical model of non-darcy radial flow which the analytical solution and the productivity equation is deduced, established the effective radius of the use of low permeability reservoirs, and systemicly researched the calculation method of area well pattern of different types of non-darcy seepage.
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Abstract: High level coal injection increases hydrogen of the gas in the blast furnace shaft, which changes the reduction behavior of sinter. This paper investigates the effect of hydrogen addition on reduction of sinter. Experiments of the sinter reduction in different content of hydrogen had been made. The experimental results show that the reduction rate increases with the hydrogen content increase in the reducing gas.
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Abstract: The sinter quality and the stability of composition could directly affect the yield, quality and energy consumption of ironmaking production. It is important for iron and steel industry to steadily control sinter chemical composition and analyze sintering energy consumption. The MATLAB m file editor was used to write code directly in this paper. A predictive system for two important sinter chemical composition (TFe and FeO), sinter output and sintering solid fuel consumption of was established based on BP neural network, which was trained by actual production data.) The application results show that the prediction system has high accuracy rate, stability and reliability, the sintering productivity was improved effectively.
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Abstract: In this paper, 6 kinds of reservoir sedimentary microfacies distribution model-conceptual model have been established by the use of reservoir sedimentology theory and methods, namely, large sandy braided river sand body sedimentary model, large meandering river sand body sedimentary model, low bending-straight distributary channel sedimentary model, crevasse splay (crevasse river) sedimentary model, heart beach sedimentary model, flood plain and distributary plain sheet sand body sedimentary model. On this basis, the sedimentary facies figures of four sedimentary units have been painted, putting forward the evolution law of sedimentary environment in the research zone, thus providing basic data for the facies control modeling.
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Abstract: This article makes analysis of the composition of the coaly mineral, makes the research on the evolution characteristics of the coaly mineral in the course of combustion, the ashing behavior of the mineral and the generation mechanism of the particle, points out the relationship between the grain size of the particle in the coal and the amount of ash, and finally indicates that the actual amount of ash from the boiler is less than the theoretical amount of ash by test.
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Abstract: This paper aims at finding a way to increase the rate of Mn yield in Mn ore smelting reduction process based on double slag operation in BOF. The thermodynamics of the process was analyzed and the experiments including slag-steel reaction in lab and steelmaking simulation in pilot plant were carried out. The results above were proved to be valid in industrial scale experiment in general steelmaking factory of WISCO. The industrial scale experimental results showed that 35%~50% of Mn yield could be obtained with conditions of higher temperature and high carbon content at the end point in conventional BOF process based on double slag operation, which can benefit to the efficiency of BOF process as well as less carbon emissions.
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Abstract: The flotation process of molybdenum ore from Liaoning in China with a new collector DMC is investigated. The results show that the collector DMC has stronger collecting power and better selectivity for molybdenite. Compared with traditional kerosene and xanthate flotation,this process using the new collector could have a good index with 60% sodium silicate. The closed-circuit test results are as follows:the molybdenum concentrate of 53.04% with the molybdenum recovery of 95.02% is obtained.
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