Flame Spray Drying Equipment, Mechanism, and Perspectives Advances in Drying Science and Technology Series
Auteurs : Sobulska Mariia, Zbicinski Ireneusz
Drying processes are among the most energy-consuming operations in industry. Flame spray drying (FSD) is a novel approach to reduce the energy supply needed for the spray drying process. Flame Spray Drying: Equipment, Mechanism, and Perspectives describes FSD technology and current developments in flame techniques and evaluates potential industrial implementation.
- Details advantages of FSD in terms of energy consumption and reduced drying time
- Promotes applications of biofuels for the drying process
- Analyzes the FSD method from CFD modelling to product quality
- Evaluates potential safety and product degradation risks
- Provides examples of potential applications of the FSD technique in drying of different materials
This book describes an important new technique that is useful to chemical and process engineering researchers, professionals, and students working with drying technologies.
1. Principles and Mechanism of Flame Spray Drying.
2. Applications of Flame Spray Drying.
3. Flame in Drying and Particle Synthesis Techniques.
4. Safety, Energy, Environmental Issues, and Perspectives of FSD Technique Development.
Date de parution : 09-2023
15.6x23.4 cm
Date de parution : 09-2021
15.6x23.4 cm
Thèmes de Flame Spray Drying :
Mots-clés :
SSD; Flame Synthesis; Combustion Chamber; Flame spray pyrolysis; Moisture Content; flame drying of textiles; Atomization Pressure; Remaflam process; Particle Residence Time; drying technology; Fuel Concentration; Air Flow Rate; Cfd Model; Solid Content; Pulse Combustors; Dryer Axis; Maltodextrin Powder; FSP; Maltodextrin Particles; Drying Tower; PC Drying; HMF Content; Average Particle Residence Time; Drying Chamber; PC; Color Index; Precursor Flow Rate; Flame Temperature; Spray Drying; Spray Core