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Influence of mechanical integrity during pneumatic conveying on the bulk handling and rehydration properties of agglomerated dairy powders

Ryan Hazlett, C. Schmidmeier, James A. O’Mahony

2020Journal of Food Engineering25 citationsDOIOpen Access PDF

Abstract

Agglomerated powders are susceptible to breakdown on handling, most notably, during powder conveying. In this study, three agglomerated dairy powders (whey protein concentrate powder, WPC; fat-filled milk powder, FFMP and infant formula powder, IF) were conveyed through a custom-fabricated dispersion rig to understand the effects of agglomerate breakdown on dairy powder handling and application. All samples displayed significant breakdown on dispersion, evidenced by reducing particle size and increasing bulk density. The resulting flowability of these powders was impaired (flow index: WPC: 9.3 to 5.1, FFMP: 5.7 to 4.9 and IF: 16 to 10) via increased particle-particle interactions. The initial stages of rehydration were impeded by agglomerate breakage (42.9–47.0% wettability reduction and 7.22–16.4% dispersibility reduction), while powder solubility remained relatively unchanged. This study provides insights into the alterations of agglomerated dairy powder properties on agglomerate breakdown, while identifying the effects these alterations have on the functional properties of these powders.

Topics & Concepts

AgglomerateBreakageMaterials scienceDispersion (optics)Flow propertiesWhey proteinParticle sizeSolubilityParticle (ecology)Chemical engineeringComposite materialChemistryFood scienceOrganic chemistryOceanographyPhysicsMechanicsOpticsGeologyEngineeringGranular flow and fluidized bedsMicroencapsulation and Drying ProcessesFluid Dynamics and Heat Transfer
Influence of mechanical integrity during pneumatic conveying on the bulk handling and rehydration properties of agglomerated dairy powders | Litcius