Schirmer Cedric, Maschke Rüdiger W, Pörtner Ralf, Eibl Dieter
Zurich University of Applied Sciences, School of Life Sciences and Facility Management, Institute of Chemistry and Biotechnology, Grüentalstrasse 14, 8820, Wädenswil, Switzerland.
Hamburg University of Technology, Bioprocess and Biosystems Engineering, Denickestraße 15 (K), 21073, Hamburg, Germany.
Appl Microbiol Biotechnol. 2021 Mar;105(6):2225-2242. doi: 10.1007/s00253-021-11180-7. Epub 2021 Mar 2.
No matter the scale, stirred tank bioreactors are the most commonly used systems in biotechnological production processes. Single-use and reusable systems are supplied by several manufacturers. The type, size, and number of impellers used in these systems have a significant influence on the characteristics and designs of bioreactors. Depending on the desired application, classic shaft-driven systems, bearing-mounted drives, or stirring elements that levitate freely in the vessel may be employed. In systems with drive shafts, process hygiene requirements also affect the type of seal used. For sensitive processes with high hygienic requirements, magnetic-driven stirring systems, which have been the focus of much research in recent years, are recommended. This review provides the reader with an overview of the most common agitation and seal types implemented in stirred bioreactor systems, highlights their advantages and disadvantages, and explains their possible fields of application. Special attention is paid to the development of magnetically driven agitators, which are widely used in reusable systems and are also becoming more and more important in their single-use counterparts.Key Points• Basic design of the most frequently used bioreactor type: the stirred tank bioreactor• Differences in most common seal types in stirred systems and fields of application• Comprehensive overview of commercially available bioreactor seal types• Increased use of magnetically driven agitation systems in single-use bioreactors.
无论规模大小,搅拌罐生物反应器都是生物技术生产过程中最常用的系统。一次性和可重复使用的系统由多家制造商提供。这些系统中使用的叶轮类型、尺寸和数量对生物反应器的特性和设计有重大影响。根据所需应用,可采用经典的轴驱动系统、轴承安装驱动或在容器中自由悬浮的搅拌元件。在有驱动轴的系统中,工艺卫生要求也会影响所使用的密封类型。对于具有高卫生要求的敏感工艺,建议使用近年来备受研究关注的磁力驱动搅拌系统。本综述为读者提供了搅拌生物反应器系统中最常见的搅拌和密封类型概述,突出了它们的优缺点,并解释了它们可能的应用领域。特别关注磁力驱动搅拌器的发展,其在可重复使用系统中广泛使用,在一次性系统中也变得越来越重要。
要点
• 最常用生物反应器类型的基本设计:搅拌罐生物反应器
• 搅拌系统中最常见密封类型的差异及应用领域
• 市售生物反应器密封类型的全面概述
• 一次性生物反应器中磁力驱动搅拌系统的使用增加