A novel approach to improve operation and performance in flow field-flow fractionation

## Abstract Since hollow‐fiber flow field‐flow fractionation (HF FlFFF) utilizes a cylindrical channel made of a hollow‐fiber membrane, which is inexpensive and simple in channel assembly and thus disposable, interests are increasing as a potential separation device in cells, proteins, and macromol

The performance of flow field-flow fractionation FlFFF was studied in the particle size analysis of dairy products including whey proteins, casein micelles, and fat globules, over a wide size range. The products investigated were full-fat milk, skim milk, cream, ice cream, powdered milk, nonlactose

## A theoretical analysis is presented of the motion and spreading of a probe containing particles in a transversal potential field. This arises in the vicinity of the flat channel walls as a laminar flow of carrier fluid moves in the channel. Parameters that characterize the process of fractionat

Field-flow fractionation is a separation technique for macromolecular species; over more than 2 decades, it has been studied mostly for enhancing its separation capabilities in terms of wider applicability, improved selectivity, and reduced analysis time. Most of the efforts have been focused on qua