超导磁分离技术的现状及未来的社会需求

Tsuneo Watanabe, S. Fukui
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摘要

摘要:本文综述了超导磁体和常规磁体分离技术的现状和最新进展。本文首先回顾了磁选技术的研究和发展历史。其次,综述了磁选技术的主要组成技术,如磁选方法的选择、磁场发生器等磁性器件、磁播种法、磁滤波器和利用磁阿基米德效应的磁选方法。第三,总结了2006-2018年在CSJ和CSSJ会议上的演讲内容。在此基础上,分析了日本磁选技术的研究与发展现状。研究表明,磁选组件技术取得了长足的进步,超导磁体磁选的新应用也在不断发展。值得注意的是,利用超导磁体从污染土壤中去除放射性铯的磁分离方法已经发展起来。在中国和韩国,磁分离技术的研究和开发也在继续。特别是在中国,随着经济的发展,环境污染日益严重,磁选技术引起了人们的极大兴趣。通过本文的技术回顾,发现近年来的磁选技术已经发展到可以社会实施的水平。可持续发展目标(sdg)和促进可持续经济是推广超导磁分离技术的推动力,因为它对环境、材料回收、二氧化碳减排、成本降低和创新都有贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Current Status of Magnetic Separation Using Superconducting Technology and Future Social Needs
Synopsis : This article reviews the current status and recent progress of magnetic separation technologies using superconducting magnets and conventional magnets. In this article, firstly, the research and development history of magnetic separation technologies is reviewed. Secondly, the main component technologies for magnetic separation, such as options for magnetic separation methods, magnet devices as magnetic-field generators, magnetic seeding methods, magnetic filters and magnetic separation methods utilizing the Magneto-Archimedes effect, are summarized. Thirdly, the contents of presentations at the CSJ and CSSJ conferences held from 2006-2018 are summarized. Based on this summary, the status quo of the research and development of magnetic separation technologies in Japan is analyzed. It is confirmed that the component technologies for magnetic separation have advanced well and many new applications of magnetic separation using superconducting magnets have been developing. It is worth noting that the magnetic separation method removing radioactive Cs from contaminated soil using a superconducting magnet has been developed. In China and Korea, the research and development of magnetic separation technologies have continued as well. Particularly in China, there is much interest in magnetic separation since the environmental pollution that has become apparent with economic development has become serious. Through the technical review in this article, it is found that recent magnetic separation technologies have advanced to the level where social implementation is possible. Sustainable Development Goals (SDGs) and promotion of sustainable economies are the tailwinds for spreading magnetic separation with superconducting technology because of contributions to the environment, materials recycling, CO 2 reduction, cost reduction and innovation.
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