Multiscale structure characterization of sawdust-waste water sludge extrudates dried in a pilot-scale fixed bed

Li, Jie; Plougonven, Erwan; Fraikin, Laurent; Salmon, Thierry; Toye, Dominique; Nistajakis, Emmanuel; Léonard, Angélique

Multiscale structure characterization of sawdust-waste water sludge extrudates dried in a pilot-scale fixed bed

2015

Convective drying of waste water sludge and sawdust-sludge mixtures in a pilot-scale fixed bed was studied. Drying was performed in a cross-flow convective dryer using 500 g of wet material extruded through a disk with circular dies 12 mm in diameter. The structure of the bed mainly shows volume shrinkage and crack formation during drying. Several characterization techniques were used over a wide range of scales from nm up to mm. The overall bed structure was imaged with X-ray macrotomography, at a resolution of 0.36 mm per pixel. Single extrudates were scanned with X-ray microtomography, at a resolution of 41 μm per pixel. Pore structure of the dried samples were characterized by mercury porosimetry (7.5 nm < dp < 150 μm). Results show significant structural changes on all scales with increasing amounts of sawdust: shrinkage decreases, crack formation increases, and the pores become larger. This confirms the benefits of sawdust addition for sludge drying applications.

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