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Published in

Elsevier, Talanta, (130), p. 137-141, 2014

DOI: 10.1016/j.talanta.2014.06.062

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Self-adjustable channel for split-flow lateral-transport thin separation of micrometer size particles

Journal article published in 2014 by Tomasz Kowalkowski ORCID, Albert Szparaga, Bogusław Buszewski
This paper is available in a repository.
This paper is available in a repository.

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Abstract

A new construction of split-flow transport-thin fractionation (SPLITT) channel has been developed. The channel is designed to work in full-feed depletion mode. Through the use of fixed and different diameters of outlets, the channel has ability to self-adjust the velocity of sample flow at the outlets. Thus the entire fractionation is achieved with one adjustable parameter, namely the flow rate at the inlet to the channel simple to set by low pulsation pump. Moreover, only one splitter at the end of separation cell was applied to enhance the sample throughput. The system performance was tested with silica particles suspension during both short and long term fractionations. Additionally, natural zeolite was used to check the feasibility of channel to separate other materials. The particle size distribution in obtained fractions and initial suspensions were measured with laser diffraction particle sizer. The results confirm a good resolution of the separation during an hour of permanent use. After 48 h the separation still occurs, however, the resolution is significantly decreasing. Intersection of particle size distribution curves of separated fractions obtained from particle sizer can be used to check an agreement between theoretical and practical value of cut-off diameter.