📰 Article Summary: “Tulip Tank Case Study: The Unrecognized Role of Mixing During TFF” discusses the importance of mixing during tangential flow filtration (TFF) in bioprocessing. The study shows how using a new mixing design can significantly improve TFF performance and reduce process time. The findings highlight the need for better understanding and optimization of mixing parameters in TFF processes. 💡🔬👥
📢 Tulip Tank Case Study: The Unrecognized Role of Mixing During TFF
Introduction:
This article discusses the importance of mixing during tangential flow filtration (TFF) in the production of biopharmaceuticals
Main points:
- The article highlights the often overlooked role of mixing during TFF and explains how it can impact the efficiency and productivity of the process.
- It explains that efficient mixing is essential for achieving uniform concentration of the target molecule and preventing fouling of the filtration membrane.
- The article presents a case study of the Tulip Tank, a TFF system that incorporates advanced mixing technology to improve process performance.
- It discusses the benefits of the Tulip Tank, including reduced processing time, increased productivity, and improved product quality.
- The article also emphasizes the importance of considering mixing parameters such as impeller design, speed, and shear rate during TFF process development.
Conclusion:
Mixing plays a crucial role in TFF and can significantly impact the efficiency and productivity of the process. The case study of the Tulip Tank demonstrates the benefits of incorporating advanced mixing technology in TFF systems. Considering mixing parameters during process development is essential for optimizing TFF performance and ensuring the production of high-quality biopharmaceuticals.