Dehydration and rehydration of apples

Singh, Harsharan Jit

January 2011

Digitized by Kansas State University Libraries

Food--Preservation

Fruit--Drying

Dehydration characteristics of plantain (Musa, AAB)

Johnson, Paa-Nil Torgbor

January 1996

No description available.

664

Fruit drying

Adaptive use of greenhouse structures for fruit drying

Gutierrez Medina, Jose Antonio Alejandro

January 1981

No description available.

Fruit -- Drying.

Greenhouses.

The effects of dehydration methods upon physical characteristics of apples

Date, Waman Bhaskar

06 1900

Graduation date: 1948

Fruit -- Drying

Apples

A method of preparing fruit concentrates for use in enology

Filz, William Francis

06 1900

Graduation date: 1949

Fruit -- Drying

Wine and wine making

Evaluation of a hybrid dryer for the production of apple chips

Adonis, M., Kahn, M.T.E

January 2009

Published Article / The paper highlights the design, development and evaluation of a hybrid convective-far-infrared (FIR) dehydrator for the purpose of drying fruit. The methodology followed is based on an experimental and practical approach. The application of the dryer for this study is aimed at the production of apple chips as well as other types of fruit chips and the more common dried fruit. The fruit dryer proposed uses both infrared energy and convective heating to effectively and efficiently dehydrate apple slices to produce dried apple chips. The apple chips are produced in very short time frames and accomplished by using relatively low heater power. These types of apple chip snacks also contribute to the more healthy variety of snacks available on the market.

Hybrid dryer

Infrared-convective dryer

Fruit drying

Apple chips

The Home Curing of Fresh Dates in Arizona

Hilgeman, R. H., Albert, D. W.

08 1900

This item was digitized as part of the Million Books Project led by Carnegie Mellon University and supported by grants from the National Science Foundation (NSF). Cornell University coordinated the participation of land-grant and agricultural libraries in providing historical agricultural information for the digitization project; the University of Arizona Libraries, the College of Agriculture and Life Sciences, and the Office of Arid Lands Studies collaborated in the selection and provision of material for the digitization project.

Dates (Fruit) -- Arizona.

Fruit -- Drying -- Arizona.

Fruit -- Preservation -- Arizona.

The Home Curing of Fresh Dates in Arizona

Hilgeman, R. H., Albert, D. W.

08 1900

This item was digitized as part of the Million Books Project led by Carnegie Mellon University and supported by grants from the National Science Foundation (NSF). Cornell University coordinated the participation of land-grant and agricultural libraries in providing historical agricultural information for the digitization project; the University of Arizona Libraries, the College of Agriculture and Life Sciences, and the Office of Arid Lands Studies collaborated in the selection and provision of material for the digitization project.

Dates (Fruit) -- Arizona.

Fruit -- Drying -- Arizona.

Fruit -- Preservation -- Arizona.

Aroma detection and control in passive and dynamic food systems for superior product

Li, Zhenfeng, 1968 Oct. 9-

January 2008

Passive (static) and dynamic studies have shown aroma to be an important aspect of food quality, which can be used to differentiate, classify, and grade foodstuffs, and in some cases it can be used to predict other quality characteristics. Monitoring and control of food aroma changes during food processing can significantly improve the quality of the final product in terms of flavour, color, taste, and overall appearance. Hence, it is a prominent and urgent field of study in the post production systems. / Passive aroma detection of unprocessed foods and dynamic aroma detection during food processing was undertaken using a fast GC analyzer -- zNose. During the study on the passive aroma detection, the aroma of Chinese spirits (Fenjiu) and mango (Mangifera indica L.) fruits, (i.e., liquid and solid states, respectively) was analyzed. In the study of Chinese spirits, aroma profiles of Fenjiu liquor samples of different quality levels were acquired and used for quality classification and prediction. Measurements of dielectric properties of the samples were also conducted to estimate alcohol concentration. In the study of mango fruits, aroma changes of mango samples were monitored during their shelf life and used to evaluate mango quality. Ripening and rots were detected with 80% and 93% accuracy, respectively. / During the study of dynamic aroma detection, a real-time aroma monitoring and control system was developed for use during microwave drying. Aroma signals of a processed food item were detected with zNose and analyzed with a fuzzy logic algorithm to determine the optimal food drying temperature. Phase control was used to adjust the microwave power level to meet temperature requirements. Carrot (Daucus carota L.) and apple (Malus domestica Borkh) were selected as representatives of vegetables and fruits. In carrot drying, samples could be dried in a short time at high temperatures but the interior of some sample cubes was burnt. Drying at a lower temperature extended the drying process, but led to a great loss of aroma in the finished product.' The best results were obtained at 60°C. Based on these results, a fuzzy logic controller was designed and employed to control the drying process according to carrot aroma changes. To investigate the possibility of aroma improvement without zNose assistance, a linear control method was developed whereby a temperature control profile imitated the fuzzy logic control, but aroma control was not included. With these new control strategies, the carrot color and flavour were significantly improved and less time and power were consumed. Similar results were achieved when apple was microwave-dried. Apple aroma was monitored online during microwave drying processes and controlled with similar fuzzy and linear control strategies. Apple color, aroma, and overall appearance remained intact with the new strategies and less time and power were consumed. In contrast to the carrot drying, a different linear temperature profile was required for apple drying in terms of aroma retention.

Food -- Odor -- Analysis.

Microwave drying.

Fruit -- Drying.

Vegetables -- Drying.

Aroma detection and control in passive and dynamic food systems for superior product

Li, Zhenfeng, 1968 Oct. 9-

January 2008

No description available.

Vegetables -- Drying.

Fruit -- Drying.

Microwave drying.

Food -- Odor -- Analysis.