Prediction of powder stickiness along spray drying process in relation to agglomeration

Particulate Science and Technology

Volumn 27, Issue 5, 2009, Pages 415-427

  Gianfrancesco, A ^a   Turchiuli, C ^a   Dumoulin, E ^a   Palzer, S ^b  

^a Université Paris Saclay   (France)

^b NESTLÉ RESEARCH CENTER   (Switzerland)

Author keywords

Agglomeration; Glass transition; Spray drying; Stickiness

Indexed keywords

AIR FLOW-RATE; AIR TEMPERATURE; CONVECTIVE DRYING; DROP SURFACE; DRYING AIR; DRYING BEHAVIOR; DRYING CONDITION; DRYING DROPS; GLASS TRANSITION TEMPERATURE; HOT AIR; LIQUID DROPLETS; LIQUID FLOW RATES; MALTODEXTRINS; PROCESS PARAMETERS; ROTARY ATOMIZERS; RUBBERY STATE; SORPTION ISOTHERMS; SPRAY DRYERS; SPRAY DRYING PROCESS; STICKINESS; TEMPERATURE AND RELATIVE HUMIDITY; TWO-PRODUCT; VISCOSITY INCREASE; WATER ACTIVITY;

AGGLOMERATION; ATMOSPHERIC HUMIDITY; ATMOSPHERIC TEMPERATURE; CARBOHYDRATES; CURING; DEWATERING; FLAVORS; GLASS; LIQUIDS; SORPTION; SPRAY DRYING; WATER CONTENT;

GLASS TRANSITION;

CARBOHYDRATE; MALTODEXTRIN; RUBBER;

ADHESION; AIR TEMPERATURE; AIRFLOW; AQUEOUS SOLUTION; ARTICLE; FLOW RATE; GLASS TRANSITION TEMPERATURE; HUMIDITY; POWDER; PRIORITY JOURNAL; SPRAY DRYING; VISCOSITY;

EID: 70249084529     PISSN: 02726351     EISSN: 15480046     Source Type: Journal    
DOI: 10.1080/02726350903129987     Document Type: Article

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