Add to ORKGZeolites have potential to increase efficiency of medium-temperature drying in the food industry. This work concerns the comparison between conventional dryers and dryers using air dehumidified by zeolite. Steady-state mass and energy balances have been used and the work concerns drying temperatures ranging from 52 to 70°C. Process integration based on pinch analysis has been applied and nine different heat exchanger networks for energy recovery are compared. Results indicated that dryers using air dehumidifier by zeolites are 10-18% more efficient than conventional dryers
Drying is a basic operation in wood, food, pharmaceutical and chemical industry. The operation is im...
This work discusses the evaluation of multi-stage adsorption dryers with air dehumidification by zeo...
Low-temperature drying is important for heat-sensitive products, but at these temperatures conventio...
Zeolites have potential to increase efficiency of medium-temperature drying in the food industry. Th...
Developments in low temperature drying of food products are still an interesting issue; especially w...
Drying is an energy intensive process, with low efficiencies, particularly at low drying temperature...
Drying is a basic operation in wood, food, pharmaceutical and chemical industry. Currently, several ...
Drying is a basic operation in wood, food, pharmaceutical and chemical industry. Currently, several ...
Abstract: The demand of high quality dry products closing to the fresh condition increases significa...
Efficient drying is still an important issue in industry. This work concerns the potential of adsorp...
Although drying takes a significant part of the total energy usage in industry, currently available ...
This work assesses the energy efficiency of dehumidification drying vis-à-vis conventional convectiv...
This work presents the evaluation of multi-stage adsorption dryers with air dehumidification by zeol...
AbstractThis work assesses the energy efficiency of dehumidification drying vis-à-vis conventional c...
Low-temperature drying is important for heat-sensitive products, but at these temperatures conventio...
Drying is a basic operation in wood, food, pharmaceutical and chemical industry. The operation is im...
This work discusses the evaluation of multi-stage adsorption dryers with air dehumidification by zeo...
Low-temperature drying is important for heat-sensitive products, but at these temperatures conventio...
Zeolites have potential to increase efficiency of medium-temperature drying in the food industry. Th...
Developments in low temperature drying of food products are still an interesting issue; especially w...
Drying is an energy intensive process, with low efficiencies, particularly at low drying temperature...
Drying is a basic operation in wood, food, pharmaceutical and chemical industry. Currently, several ...
Drying is a basic operation in wood, food, pharmaceutical and chemical industry. Currently, several ...
Abstract: The demand of high quality dry products closing to the fresh condition increases significa...
Efficient drying is still an important issue in industry. This work concerns the potential of adsorp...
Although drying takes a significant part of the total energy usage in industry, currently available ...
This work assesses the energy efficiency of dehumidification drying vis-à-vis conventional convectiv...
This work presents the evaluation of multi-stage adsorption dryers with air dehumidification by zeol...
AbstractThis work assesses the energy efficiency of dehumidification drying vis-à-vis conventional c...
Low-temperature drying is important for heat-sensitive products, but at these temperatures conventio...
Drying is a basic operation in wood, food, pharmaceutical and chemical industry. The operation is im...
This work discusses the evaluation of multi-stage adsorption dryers with air dehumidification by zeo...
Low-temperature drying is important for heat-sensitive products, but at these temperatures conventio...