磁分离技术

cí fēn lí jì shù
  • magnetic separation technique
磁分离技术磁分离技术
  1. 国内外高梯度磁分离技术的发展及应用

    Development and Application of High Gradient Magnetic Separation Technique at Home and Abroad

  2. 流膜磁分离技术的应用研究

    Applied Research on Film - magnetic Separation Technique

  3. 磁分离技术用于回收被重金属污染的FCC催化剂

    Magnetic separation for recovering heavy metal contaminated FCC catalyst

  4. 目的利用磁分离技术直接从临床粪便样品中分离人腺病毒DNA进行PCR扩增,提供一个方便、有效、快速的临床检验方法。

    Objective To establish a rapid , effective , convenient method for detecting human adenoviruses and other viral pathogens using magnetic bead separation and PCR amplification .

  5. 免疫磁分离技术在E.ColiO157∶H7检测中的应用

    Application of Immunomagnetic Separation to E.coli O157 ∶ H7 Detection

  6. 应用高梯度磁分离技术处理糖蜜酒精废水

    The treatment of wastewater from fermented molasses using a HGMS

  7. 采用在线磁分离技术回收催化裂化平衡催化剂再利用

    Recovery and recycling of FCC equilibrium catalyst by online magnetic separation technology

  8. 粗粒弱磁性矿物磁分离技术研究

    Study on magnetic separation techniques for coarse feebly magnetic mineral

  9. 高梯度磁分离技术在除尘方面具有很好的应用前景。

    High gradient magnetic separation technology has good application foreground in dust removal .

  10. 磁分离技术在连铸连轧废水处理中的应用研究

    Application of Magnetic separation technology in metallurgy Wastewater

  11. 高梯度磁分离技术用于工业烟气除尘的研究

    Study on dust removal of industrial fule gas by high gradient magnetic separation technology

  12. 磁分离技术处理食品发酵工业废水

    Application of Magnetic Separation in the Treatment of Wastewater from Food and Fermentation Industry

  13. 煤炭脱硫技术现状及高梯度磁分离技术在脱硫中的应用

    Present Technology of Coal Desulfurization in our Country and Application of HGMS Technology for Coal Desulfurization

  14. 干式高梯度磁分离技术的发展

    The development of dry HGMS Technology

  15. 大气污染控制中高梯度磁分离技术的研究与应用

    Research and Application of High Gradient Magnetic Separation ( HGMS ) Technology to Air Pollution Control

  16. 超导磁分离技术的应用

    Application of superconducting magnetic separation

  17. 目前,生物磁分离技术正在成为科学研究的一个重要手段。

    With the rapid progress of life sciences and biotechnology , magnetic separation technique has become an indispensable tool .

  18. 与传统的分离方法相比,基于功能化磁性粒子为载体的磁分离技术,具有简单、快速、无污染的优点。

    Compared with the conventional separation methods , the magnetic separation technology is simple , fast , and environmentally friendly .

  19. 高梯度磁分离技术在饮用水净化中的应用研究&最佳工艺流程与参数的探讨

    Study on Application of the High Gradient Magnetic Separation ( HGMS ) Technology to Drinking Water Purificaton & Optimized Process Flow and Parameters

  20. 本文制得的磁性膨润土产品可以用磁分离技术非常容易地从溶液中分离出来,而且制备工艺简单,反应条件温和,在实际生产中具有广阔的应用前景。

    The synthesized magnetic bentonite can be easily separated from solution with magnetic technology , and has simple preparation technology and moderate reaction conditions .

  21. 综上实验结果显示,采用絮凝-磁分离技术深度处理炼油厂含盐废水技术、经济上可行。

    Summing up all results conclude that it is technology and economically viable by using flocculation - magnetic separation technology for treating refinery wastewater with salts content .

  22. 简述了高梯度磁分离技术在双液冷磁选机上的应用以及双液冷磁选机的工作原理与主要技术参数。

    The paper briefly introduces the application of high Gradient Magnetic Separation technique in the double liquid cooling magnetic cobber as well as its working principle and main technology parameters .

  23. 同时,还可以通过磁分离技术大大提高泥水分离效果,缩短沉降时间,这对减少占地面积有很大意义。

    At the same time , the magnetic separation technology can improve the effect of spate separation and shorten the sedimentation time , it does makes a lot of sense for reduce the land occupied .

  24. 介绍了磁分离技术应用于污水处理的基本原理、分离方法、设备以及特点,简要讨论了该技术的应用情况并展望了该技术的发展前景。

    Fundamental principle , separating method , equipment and characteristics of magnetic separation technology applied in polluted water treatment are introduced . Applications are discussed and foreground is prospected in magnetic separating treatment of industrial polluted waters .

  25. 在采用振动选形技术的基础上,对应用磁分离技术、引入重液分离技术、探索浮选技术和应用选择性破碎原理及强化筛分分级几方面进行了探讨。

    Elementary discussion is made separately on improving the vibration sorting , introducing the magnetic separation , applying the heavy liquid separation , exploring the floatation technology and using the selective fragmentation principle and intensifying the screen sizing .

  26. 随着生命科学和生物工程的快速发展,磁分离技术以其简便而快速的分离应用,适于多样化的样品基质,易自动化和微型化的特性正成为生命科学领域不可缺少的手段。

    With the rapid progress of life sciences and biotechnology , magnetic separation technique has become an indispensable tool because of its ease of use , rapid separation , being compatible with variety of sample matrices and amenable to automation and minimization .

  27. 本文概述了高梯度磁分离技术在燃煤脱硫除灰、烟气除尘方面的应用与研究进展以及超导磁分离技术在燃煤脱硫方面的研究,并展望了超导磁分离技术在环境保护中的应用前景。

    This paper summarizes the improvement of HGMS for sulfur and ash removal from coal , smoke dust elimination and coal desulfurization by superconducting magnetic separation technology . In addition , application prospects of superconducting magnetic separation technology for environmental protection are analysed .

  28. 从炼油厂催化裂化生产中面临的重金属影响催化剂选择性和活性的实际出发,介绍了催化裂化废催化剂脱金属回收的必要性以及化学再生技术和磁分离技术脱金属回收方法的原理和发展历程。

    Because heavy metal has great influence on the activity and selectivity of Catalyst in the FCC process , this article introduces the necessity to recover metals from waste FCC catalyst . The principle and development course of chemical regeneration and magnetic separation technologies for catalyst recovery were introduced .

  29. 综述了高梯度磁分离技术在水处理、燃煤脱硫、烟气除尘及固废处理中的应用现状及研究进展,展望了该技术的应用前景。

    E paper summarizes the applied present status and developed conditions of high gradient magnetic separation technology in water treatment , desulfurization , fume . Combining with the application of the new developed technology and superconduction technology in controlling pollution , its future applied prospect has been looked forward to .

  30. FCC平衡催化剂磁分离回收技术

    Recovering of FCC Equilibrium Catalyst by Magnetic Separation Technology