Characterization of spray dried cellulose nanofibrils produced by disk refining process at different fineness levels

Author:

Hwang Sungjun1,Walker Colleen C.2,Ozcan Soydan3,Tekinalp Halil3,Han Yousoo1,Gardner Douglas J.1

Affiliation:

1. Advanced Structures and Composites Center, University of Maine

2. Process Development Center, University of Maine

3. Manufacturing Science Division, Oak Ridge National Laboratory

Abstract

Abstract Three types of wood pulp feedstocks were disk refined to produce cellulose nanofibrils at different fineness levels ranging from 50 to 100%, and the resulting aqueous suspensions of cellulose nanofibrils were spray dried. The spray drying experiments were carried out to examine different processing conditions for the different CNF feedstock types and fines level at various suspension concentrations to produce dry samples with free-flowing powder morphologies. The fineness levels and solids contents of CNF suspensions were set to 80% or more and 1.8% or less, respectively. If the solids content of the CNF solutions was high and the fibrillation level was low, plugging was experienced in the spray head because of the high viscosity of the suspensions, resulting in production of poor-quality powders. In terms of energy savings, even if the CNF suspension solids content was increased to 1.5 wt.%, the powder quality and the production yields were excellent. It was confirmed that high-quality powder under 20 µm were produced at a 90% fibrillation level of all CNF feedstocks. The resulting dry CNF powders were characterized to determine particle size distributions and morphological properties via a scanning electron microscope and a laser diffraction particle size analyzer. The particle sizes were smaller at higher fibrillation levels and lower solids content of the CNF suspensions. CNF suspension derived from bleached kraft pulp, the average particle size decreased by 43% and 33% with the lowered solids contents from 1.8–1%, and the increased fineness levels from 80–100%, respectively.

Publisher

Research Square Platform LLC

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