Quality and Physiochemical Properties of Banana Paste under Vacuum Dehydration
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Aluck Thipayarat
This research aimed to develop a prototype of an evaporative dehydrator and demonstrate the effect of quick evaporative dehydration on the physiochemical properties of banana paste. The study was divided into 2 parts. The first part was focused on the development of the evaporative dehydrator prototype. After several modifications, the prototype of an evaporative dehydrator was successfully constructed to enable the variation of banana paste sample prior to evaporation using two types of evaporative stresses (i.e., atmospheric and vacuum conditions). The second part was to study the effect of evaporative dehydration on the physiochemical properties of banana paste comparing vacuum and atmospheric conditions. The temperature setting for the heating section was varied at 30, 40, 60, 80, 100 and 120 degree Celsius and the physiochemical alteration of the banana paste sample was monitored. The peroxidase enzyme was found to be active in all treatments. The evaporative cooling in the vacuum treatment caused the temperature of the final product to be lower than that of the atmospheric treatment. The moisture content also seemed to be lower and the water activity was less. Although the acidity remained stable and was not differentiable between the two treatments; the different evaporative conditions had a profound effect on other physiochemical properties, especially the external appearance of the final product. The visual appearance was determined by the Hunter indices (L, a, and b) and delta E (overall color change). As the operating temperature increased, the delta E in both treatments increased. The sample in the vacuum treatment became darker (lower L-value) and more intense in yellow color (higher b-value). This was hypothesized to be the result of product condensation due to moisture loss. The a-value decreased as the operating temperature increased and there was no significant difference between the two treatments. The viscosity of the final product had a unique profile regarding the operating temperature variation. It appeared to be more viscous than the fresh sample at low temperature. For the higher temperature setting, the viscosity decreased as the temperature increased. Enzymatic and non-enzymatic chemical reactions might be responsible for the alteration of the flow characteristics of dehydrated sample rather than the sole effect of moisture reduction.
©2011 Walter de Gruyter GmbH & Co. KG, Berlin/Boston
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Artikel in diesem Heft
- Shorter Communication
- Measurements of the Crystallization Rates of Amorphous Sucrose and Lactose Powders from Spray Drying
- Fuzzy Identification and Modeling of a Gum-Protein Emulsifier in a Model Mayonnaise Color Development System
- Quality of Wastewater of the Sudanese Fermentation Industry
- Effect of Pretreatment of Milk Quality Characteristics of Jibna-Beida (White Cheese)
- Article
- Development of a Permeability Model for Palm Fruit Cake
- Modelling of the Internal Cooling of Fish during Ice Storage
- Assessment of Decimal Reduction of Pathogens in Frozen Chicken Products Using Surface Pasteurization
- Quality and Physiochemical Properties of Banana Paste under Vacuum Dehydration
- Microstructural Characteristics of Dried Carrot Pieces and Real Time Observations during Their Exposure to Moisture
- Simplified Kinetics and Colour Formation in Sucrose Solutions Based on A-Dicarbonyl Compounds
- Interactions of WPI and Xanthan in Microstructure and Rheological Properties of Gels and Emulsions
- Moisture Sorption Behavior, and Effect of Moisture Content and Sorbitol on Thermo-Mechanical and Barrier Properties of Pectin Based Edible Films
- Combined Effects of Heat and PEF on Microbial Inactivation and Quality of Liquid Egg Whites
- An Investigation of the Stability of Double Fortified Salt during Storage and Distribution in Nigeria
- Extraction and Purification of C-Phycocyanin from Spirulina Platensis Employing Aqueous Two Phase Systems
- Critical Review
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