Application Note

Liquid-Liquid Mixing Without Vortex Formation

Source: Cytiva
Pall

Mixing of miscible liquids of similar characteristics is a common requirement in bioprocessing. Pall and a customer joined forces to determine appropriate mixing conditions for selected mixing technologies. For such processes, the typical requirement is that the mixing impeller speed be high enough to reach homogeneity in a generally acceptable timeframe (≤ 5 minutes), while being low enough to avoid vortex formation (which can damage products sensitive to air-liquid interface interactions).

This application note describes liquid-liquid homogenization conditions which meet these requirements at various filling levels in the 50 L Allegro mixer, the 100 L LevMixer system, the 400 L LevMixer system and the 1500 L Magnetic Mixer.

Magnetic Mixer and LevMixer systems utilize the same tanks, with mixing impellers with the same dimensions. Therefore, the results from the LevMixer system are also deemed applicable to the Magnetic Mixer system and vice versa.

In order to cover most typical biotech sensitive applications, the tests were conducted under stringent conditions in terms of density of the spiking solution and bulk. As the impellers are bottom mounted, addition from the top of a low-density liquid to a high-density bulk solution was considered to be a worst-case scenario. Glucose (24.3% w/w aqueous solution, density of 1.098 kg/L) was chosen as the bulk solution, and NH4Cl (10% w/w aqueous solution, density of 1.029 kg/L) was used as the spiking solution.

access the Application Note!

Get unlimited access to:

Trend and Thought Leadership Articles
Case Studies & White Papers
Extensive Product Database
Members-Only Premium Content
Welcome Back! Please Log In to Continue. X

Enter your credentials below to log in. Not yet a member of Bioprocess Online? Subscribe today.

Subscribe to Bioprocess Online X

Please enter your email address and create a password to access the full content, Or log in to your account to continue.

or

Subscribe to Bioprocess Online