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High-pressure homogenized citrus fiber cellulose dispersions: Structural characterization and flow behavior

M. Raquel Serial, E. V. Velichko, Tatiana Nikolaeva, Ruud den Adel, Camilla Terenzi, Wim G. Bouwman, John van Duynhoven

2021Food Structure20 citationsDOIOpen Access PDF

Abstract

Functionalized biomass waste sources of cellulose have drawn attention due to their high availability and sustainability properties. In this work we characterize the structural and flow properties of high-pressure homogenized citrus fiber cellulose dispersions, employing SAXS, rheology and rheo-MRI techniques. The high-pressure treatment disrupts the microfibrillar network within the citrus fibers, but leaves the individual microfibrils intact. Under moderate shear (0.1-100 s-1) in a confined (<1 mm) geometry, these functionalized citrus fiber cellulose dispersions exhibit thixotropic shear-banding behavior accompanied by cooperative flow of microfibril flocs with correlation lengths ξ ~ 100 μm. The presented findings form a basis towards understanding and manipulating the structural and rheological properties of non-wood biomass cellulose microfibrils under industrially-relevant conditions.

Topics & Concepts

ThixotropyRheologyCelluloseMaterials scienceMicrofibrilFiberCellulose fiberSmall-angle X-ray scatteringComposite materialShear (geology)Chemical engineeringScatteringOpticsPhysicsEngineeringAdvanced Cellulose Research StudiesPolysaccharides Composition and ApplicationsPolysaccharides and Plant Cell Walls
High-pressure homogenized citrus fiber cellulose dispersions: Structural characterization and flow behavior | Litcius