化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2001年
3期
7-12
,共6页
吕秀菊%曲红波%丛威%欧阳藩
呂秀菊%麯紅波%叢威%歐暘藩
려수국%곡홍파%총위%구양번
磁场流化床%磁稳定流化床%生化工程%应用
磁場流化床%磁穩定流化床%生化工程%應用
자장류화상%자은정류화상%생화공정%응용
磁场流化床(Magnetically Fluidized Bed, 以下简称MFB)是将磁场引入普通流化床,采用磁敏性颗粒为床层介质的流固相处理系统。MFB利用磁场调节颗粒和流体的运动,使流化床具有更宽的操作范围和适应性。其中,在一定磁场和流动条件下形成的磁稳定流化床(Magnetically Stabilized Fluidized Bed,以下简称MSFB)更是兼有固定床的流固接触特性和流化床的压降低、传热传质效率高的优点,操作范围较普通流化床变宽。磁场流化床在生化工程领域已经应用于固定化生物反应器,发酵液固液分离,连续亲合色谱,细胞分离,以及植物细胞和酵母细胞培养等过程。本文介绍了磁场流化床的基本原理和特性及其在生化工程中的应用情况,并分析了该技术进一步应用所面临的困难和发展前景。
磁場流化床(Magnetically Fluidized Bed, 以下簡稱MFB)是將磁場引入普通流化床,採用磁敏性顆粒為床層介質的流固相處理繫統。MFB利用磁場調節顆粒和流體的運動,使流化床具有更寬的操作範圍和適應性。其中,在一定磁場和流動條件下形成的磁穩定流化床(Magnetically Stabilized Fluidized Bed,以下簡稱MSFB)更是兼有固定床的流固接觸特性和流化床的壓降低、傳熱傳質效率高的優點,操作範圍較普通流化床變寬。磁場流化床在生化工程領域已經應用于固定化生物反應器,髮酵液固液分離,連續親閤色譜,細胞分離,以及植物細胞和酵母細胞培養等過程。本文介紹瞭磁場流化床的基本原理和特性及其在生化工程中的應用情況,併分析瞭該技術進一步應用所麵臨的睏難和髮展前景。
자장류화상(Magnetically Fluidized Bed, 이하간칭MFB)시장자장인입보통류화상,채용자민성과립위상층개질적류고상처리계통。MFB이용자장조절과립화류체적운동,사류화상구유경관적조작범위화괄응성。기중,재일정자장화류동조건하형성적자은정류화상(Magnetically Stabilized Fluidized Bed,이하간칭MSFB)경시겸유고정상적류고접촉특성화류화상적압강저、전열전질효솔고적우점,조작범위교보통류화상변관。자장류화상재생화공정영역이경응용우고정화생물반응기,발효액고액분리,련속친합색보,세포분리,이급식물세포화효모세포배양등과정。본문개소료자장류화상적기본원리화특성급기재생화공정중적응용정황,병분석료해기술진일보응용소면림적곤난화발전전경。
This paper presents a review of applications of the magnetically fluidized beds (MFB) in biochemical engineering. MFB is formed when introducing a magnetic field into a fluidized bed which is filled with magnetically susceptible particles as bed matrix. This enables MFB an extensive operating range and good adaptability. In particular, magnetically stabilized fluidized bed (MSFB), which is formed at certain magnetic strength and fluid velocity of MFB, provides good solid-liquid contact character of packed bed yet maintains fluidized bed virtue of low pressure drop and high efficiency of mass transfer and heat transfer. MFB has now been used in immobilized bioreactors, solid-liquid separation of fermentation, continuous affinity chromatography, cell separation in immunology and culture of plant cells and yeast. In this paper, the theory and characteristics of MFB are introduced. Emphasis is put on current achievements and applications in biochemical engineering of MFB. The prospects and difficulties for wide using of MFB are also described.
