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Clarification of pear juice by hollow fiber ultrafiltrationKortekaas, Marjan G. 02 May 1980 (has links)
Graduation date: 1980
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An improved method of concentrating fruit juices with special reference to apple juiceRolfsness, Stanley Cornelius 06 1900 (has links)
Graduation date: 1939
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The ascorbic acid, dehydroascorbic acid and diketogulonic acid content of canned and frozen juices and beverages in relation to costJarvis, Helen Wilma 31 July 1959 (has links)
Graduation date: 1960
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Interrelationships among changes in flavor and aroma, and composition of stored strawberry juice concentrateLundahl, David S. 27 January 1989 (has links)
Sensory evaluation and instrumental methods were applied to the
evaluation of strawberry juice concentrate (68°Brix) stored at
20°C which had been produced both commercially (C-SJC) and in a
pilot plant (SJC). Sensory evaluation included taste and aroma
ratings by intensity scaling and time-intensity of taste, and visual
colorimetry by matching Munsell color chips. Instrumental analyses
included tristimulus colorimetry (i.e. Hunter colorimeter),
spectrophotometric colorimetry for pigment analyses, titrametric
analyses for acidity (pH and titratable acidity) and free α-amino
acids (formol number), and headspace gas analyses for CO₂ and O₂.
During six days storage of C-SJC, a decrease in concentration of
anthocyanins and increase in polyphenolics (tannin) was associated
with an increase in astringency. Free α-amino acids were
observed to decrease, while CO₂ was released. These changes were
associated with an increase in musty/moldy and pungent aromas. Free
sugars and titratable acidity did not change.
The pilot plant SJC was processed from blanched and unblanched
fruit to evaluate the relative importance of oxidase activity (i.e.
polyphenoloxidase) prior to pasteurization. The blanching treatment
increased the astringency and sourness in unstored SJC. These
affects were associated with an increase in concentration of
polyphenolics (tannin). During storage, the blanch treatment
decreased the rate of anthocyanin loss and decreased the release rate
of CO₂, yet degradation rates were still high. The 0₂
concentration in headspace did not change significantly during
storage indicating that polyphenoloxidase (PPO) activity during
storage was low. The musty/moldy and pungent aromas increased
similarly to C-SJC.
A chemical mechanism accounting for these changes is proposed
where products from the oxidative degradation of ascorbic acid
contribute directly or indirectly to the degradation of anthocyanins
to yield browning. Further, high initial concentrations and
subsequent decreases during C-SJC storage of free α-amino acids
indicate that Strecker degradation is a participating mechanism.
Associations of browning with the development of off-flavors suggest
this chemical mechanism forms odor-active volatile compounds. / Graduation date: 1989
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Influence of processing and storage on the phenolic composition of apple, pear and white grape juiceSpanos, George A. 29 July 1988 (has links)
Methodology for characterization of the phenolic profile of
apple, pear and grape juice was developed. It utilized High
Performance Liquid Chromatography (HPLC) for separation of
individual phenolic compounds and Diode Array Detection for
recording the Ultra-violet (UV) spectrum of chromatographic
peaks. The high resolution achieved and the ability of recording
more than one wavelength simultaneously, allowed for
quantitation of phenolic acids (cinnamics and benzoics), flavonol
and dihydrochalcone glycosides, arbutin and hydroxymethylfurfural
(HMF) with minimum sample preparation. Quantitation of
procyanidins, however, required preliminary isolation and
analysis in a separate run. Procyanidin isolation based on
Sephadex IH-20 resulted in high recoveries and degree of
reproducibility.
The methodology was applied to study the influence of
variety, post-harvest storage, SO₂, initial high temperature short time (HTST) heat treatment, enzymatic clarification,
fining, bottling, concentration and storage on the phenolic
composition of apple, pear and grape juice. Processing with SO₂
inhibited extensive phenolic oxidation during pulping and
resulted in increased phenolic yields. Initial HIST treatment
protected phenolics extracted in the juioe from degradation
during processing. Cinnamic hydrolysis occurred during enzymatic
clarification. The hydrolytic activity was removed with fining
or bottling. There was no appcirent reduction of phenolics with
fining. Procyanidins were sensitive to the heat applied during
bottling and concentration. Storage of juice concentrates for
nine months at 25°C resulted in formation of HMF, considerable
degradation of cinnamics and dihydrochaloones and total loss of
procyanidins and flavonols.
The effect of diffusion extraction at different teirperatures
on the phenolic composition of apple juice from different
varieties was also studied. Up to a three-fold increase in
cinnamics and a five-fold increase in dihydrochalcone glycosides
were measured in diffusion extracted juice relative to juice
extracted with conventional pressing. The increase in
procyanidins and flavonols was even higher. / Graduation date: 1989
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Orange juice authenticity using pyrolysis mass spectrometryGarcia-Wass, Febe January 2000 (has links)
No description available.
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Microwave heating of fruit juices : kinetics of enzyme inactivationmicrobial destruction and evaluation of enhanced thermal effectsTajchakavit, Sasithorn. January 1997 (has links)
No description available.
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Microwave heating of fruit juices : kinetics of enzyme inactivationmicrobial destruction and evaluation of enhanced thermal effectsTajchakavit, Sasithorn. January 1997 (has links)
Conventional thermal kinetics of enzyme inactivation and microbial destruction in fruit juices were studied in the pasteurization temperature range (50 to 90°C). Pectin methylesterase (PME), as the most heat resistant enzyme, in orange juice and Saccharomyces cerevisiae and Lactobacillus plantarum, as the most common spoilage yeast and bacteria, respectively, in apple juice used as indicators were subjected to heat treatment in a well-agitated water bath. Based on gathered time-temperature profiles, effective portions of the come-up (CUT) and come-down (CDT) times (lags) were determined for inclusion in kinetic data handling. The inactivation/destruction kinetics followed typical first-order rate of reactions. / A continuous-flow microwave heating system was set up and evaluated for obtaining kinetic parameters under microwave heating conditions. The outlet temperature was characterized as a function of fluid flow rate, heating volume and initial temperature. / Kinetics of enzyme inactivation and microbial destruction at various temperatures under continuous-flow microwave heating conditions were then evaluated using the technique established above. The rates of inactivation/destruction varied depending on temperature. Taking into consideration the effectiveness of the CUT and contributory thermal inactivation during the CDT, the D-values were found to vary from 38.5 s at 55°C to 1.32 s at 70°C (pH 3.7) for PME, 4.75 s at 52.5°C to 0.378 s at 60°C (pH 3.4) for S. cerevisiae (ATCC 16664) and 14.1 s at 57.5°C to 0.327 s at 65°C (pH 3.4) for L. plantarum (ATCC 14917). / Some non-thermal microwave effects were hypothesized to exist and responsible for such differences between the two heating modes. Enzyme inactivation and microbial destruction were then studied further to evaluate the non-thermal effects. A continuous-flow microwave heating system was developed operating at full power while maintaining sample temperatures below 40°C by circulating a microwave-transparent liquid (kerosene) for immediate removal of heat produced in the juice during microwave exposure. / In order to explain and better characterize the faster rate of inactivation/destruction associated with microwave heating conditions observed in kinetic studies, additional tests were carried out using the second set-up described above, but without the cooling heat exchanger. The temperature of samples of different sizes were allowed to progressively increase under carefully controlled conditions. Inactivation of PME in orange juice (pH 3.7) and destruction of S. cerevisiae in apple juice (pH 3.4) were again used as parameters. The results once again clearly demonstrated superior inactivation/destruction effects under microwave heating which increased with temperature and decreased with sample size. (Abstract shortened by UMI.)
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Effect of different preparation treatments of the flavor and ascorbic acid content of Mexican lime juice after frozen storageOsman, Hussein Osman Ahmed 02 December 1950 (has links)
Graduation date: 1951
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Objective determination for consistency of tomato juiceYue, Thomas Tah-yu 14 May 1953 (has links)
Graduation date: 1953
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