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Improved process control by surface temperature-controlled drying on the example of sweet potatoes

Bantle, M.; Kopp, C. and Claussen, I.C. (2019) Improved process control by surface temperature-controlled drying on the example of sweet potatoes. In: Proceeding of Eurodrying 2019, July 10-12, 2019, Torino, Italy.

[thumbnail of PaperEuroDrying11.06.2019_Bantle_PrePrint.pdf] PDF - Submitted Version - English


Convective drying of food has a big impact on the quality of the product in terms of sensory quality and energy consumption. The temperature of the product during the drying process is a major parameter since exceeding can cause damages to the product. The surface temperature of the product can be measured non-disruptive and contact-free with IR-sensors and this information is used as input parameter for the dryer control. A convective drying chamber was modified with modern sensors and a smart control system to control the surface temperature during the drying process and evaluate the influences on the product in terms of sensory quality parameters like shrinkage, deformation and colour alternation. The dehydration rate in the first drying period of the constant surface temperaturecontrolled methods is about 1.5 to 2.5 times faster than the conventional method where the air temperature is kept constant and the quality parameters are not significant affected.

EPrint Type:Conference paper, poster, etc.
Type of presentation:Paper
Keywords:Convective drying, Smart drying, Surface temperature, optical change, energy efficiency, SusOrgPlus
Subjects: Food systems > Food security, food quality and human health
Food systems > Processing, packaging and transportation
Research affiliation: European Union > CORE Organic Cofund > SusOrgPlus
Norway > SINTEF
Horizon Europe or H2020 Grant Agreement Number:727495
Related Links:https://projects.au.dk/coreorganiccofund/core-organic-cofund-projects/susorgplus/, https://www.susorgplus.eu/
Deposited By: von Gersdorff, Gardis J.E.
ID Code:36583
Deposited On:12 Nov 2019 09:50
Last Modified:29 Jan 2020 11:15
Document Language:English
Refereed:Peer-reviewed and accepted

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