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81.
Continuous electromagnetic separation of inclusion from aluminum melt using alternating current 总被引:2,自引:0,他引:2
A novel scheme about the continuous electromagnetic purification of aluminum melt was put forward based on the utilization of a square separation pipe and a 50 Hz alternating current to produce electromagnetic force. It is experimentally found that with electrical current of 400 A/cm^2, it takes only 10 s to remove 95% inclusion from aluminum melt. Comprehensive numerical simulations were carried out to investigate the dynamics mechanisms behind the process. The results show that the removal of inclusion is attributed to the cooperative effects of electromagnetic buoyancy and the secondary flow induced by the rotational electromagnetic force, and the removal efficient increases with the size of inclusion and the electrical current imposed. Theoretical predictions on the distribution and removal efficiency of inclusion were supported by the experiments. 相似文献
82.
本文通过模拟地下管道阴极保护的现场,测定了地下的杂散电流及其对阴极保护效果的影响,并对相关问题进行了分析。 相似文献
83.
从冶金工业的发展现状可知高质量的轧辊仍是一个很大的市场。高速钢轧辊具有很强的竞争力。离心铸造法生产高速钢轧辊是主要的工艺方法。 相似文献
84.
85.
本文将提出一种直流电磁换向阀故障诊断的新方法。它利用线圈电流在启动或复位过程中的变化特征,来判断阀芯是否卡死,并且分析产生此故障的原因。此方法简单、实用、快捷,为直流电磁换向阀故障诊断技术开辟了新的途径。 相似文献
86.
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88.
W. Choi P. N. Enjeti J. W. Howze G. Joung 《Journal of Materials Engineering and Performance》2004,13(3):257-264
In this article, an impedance model of the proton exchange membrane fuel cell stack (PEMFCS) is proposed. The proposed study
employs an equivalent circuit of the PEMFCS derived by the frequency response analysis technique. An equivalent circuit for
the PEMFCS is developed to evaluate the effects of ripple currents generated by the power-conditioning unit. The calculated
results are then verified by means of experiments using a commercially available PEMFCS. The relationship between ripple current
and fuel cell performance, such as power loss and fuel consumption, is investigated. Experimental results show that the ripple
current can contribute up to a 6% reduction in the available output power.
This paper was presented at the Fuel Cells: Materials, Processing, and Manufacturing Technologies Symposium sponsored by the
Energy/Utilities Industrial Sector & Ground Transportation Industrial Sector and the Specialty Materials Critical Technologies
Sector at the ASM International Materials Solutions Conference, October 13–15, 2003, in Pittsburgh, PA. The symposium was
organized by P. Singh, Pacific Northwest National Laboratory, S.C. Deevi, Philip Morris USA, T. Armstrong, Oak Ridge National
Laboratory, and T. Dubois, U.S. Army CECOM. 相似文献
89.
B. W. Zhang Z.M. Ren Y.B. Zhong K. Deng K.D. XuShanghai Enhanced Laboratory of Metallurgy Shanghai University Shanghai China 《金属学报(英文版)》2002,15(5):416-424
The electromagnetic field under applied AC and DC current in round and rectangular pipe was systematically investigated, then a concept of "equivalent current density" was proposed for evaluating the inhomogeneous electromagnetic pinch force, and the mono-component removal efficiency and the overall removal efficiency of inclusion were formulated. It is founded that flat pipe is superior to round pipe for the electromagnetic removal of inclusion, and DC current can get a higher removal efficiency than A C current due to absence of skin phenomenon. Under usual condition, a removal efficiency of 52% for 10μm inclusion or more than 92% for 20μm inclusion can be achieved by imposing a current density of 3×106A/m2 in a flat pipe. 相似文献
90.