جستجوی مقالات مرتبط با کلیدواژه "آب آلبالو" در نشریات گروه "دامپزشکی"

Non-thermal processes such as ultraviolet radiation can be used for maintaining the beneficial and nutritious compounds of juices. This study was investigated the effect of pasteurization (LTLT) and UV-C radiation at doses of 8, 15 and 30 W on ascorbic acid, anthocyanins, total phenol and antioxidant capacity changes of cherry juice immediately after processing, and some chemical ( pH, acidity and color) and microbial properties for 120 days at room temperature (25 °C). Based on the results, irradiation at 10 minutes caused a significant increase in pH value. The titratable acidity level increased during the storage period and confirmed the pH results. Cherry juice treated with UV-C radiation had higher content of ascorbic acid, anthocyanin, total phenol and antioxidant activity compared to pasteurized samples. Increasing the dose and time irradiation had a positive effect on increasing the ascorbic acid, anthocyanins, total phenol and antioxidant activity. The brightness (L*) and redness (a*) indexes in irradiated samples were significantly higher than the pasteurized samples. Among the different treatments, irradiated samples at a dose of 30 W for 6 and 10 minutes were superior to other treatments in terms of qualitative and microbial properties. At the end of the storage period, the lowest count of mold and yeasts was obtained in the irradiated sample at a dose of 30 W for 10 minutes. Overall, it can be concluded that UV-C radiation is suggested as a suitable alternative to the pasteurization process (LTLT) of cherry juice.

Non-thermal methods can be used to reduce the adverse effects of conventional thermal pasteurization on food. The purpose of this study was to investigate the ultrasound method regarding the effect of the three variables of ultrasound power (10, 105, and 200 watts), ultrasound temperature (0, 30, and 60 °C), and ultrasound duration (2, 6 and 10 min) on microbial load as well as total phenol content of sour cherry juice. According to the results, the most effective treatment in preserving the quality characteristics and the highest phenol content of all sour cherry juice samples was the pasteurized treatment by ultrasonic method with 10-watt power, 0 °C, and 6 min. It was assumed that by increasing the ultrasound power from 10 to 200 watts, the ultrasound temperature from 0 to 60 °C, and the ultrasound duration from 2 to 10 min, the total microbial count and the populations of coliforms, and mold and yeast decreased significantly (p <0.05) in the pasteurized cherry juice. Ultrasound pasteurization of cherry juice at the power of 109 watts, 60 °C and 9.5 min had the best results in terms of preserving phenolic compounds and reducing microbial load. The results revealed no significant difference between the microbial load of pasteurized cherry juice with the two methods. In terms of bioactive compounds and quality properties, the optimal ultrasonic treatment was more favorable than the pasteurized sample at 90 °C for 30 seconds.

The purpose of this study is to investigate the effect of thermal sonication in comparison with the usual pasteurization method on the bioactive compounds and their contents in sour cherry juice.The treatments were: controlled sample, pasteurized sample (90 °C, 30 sec), heated sample at 60 °C for 4,8,12 min, ultrasound sample without heating for same times with amplitudes of 24.4, 42.7, 61µm (50, 75, 100%), ultrasound sample with heating (60 °C) for same times and amplitudes. Pasteurization treatment caused a significant decrease of 31.7% in vitamin C content, 22.9% of phenolic content, 19.4% in the antioxidant content, 6.2% in anthocyanin content of the sour cherry juice. At maximum thermal ultrasound intensity and time of 12 minutes, 20.8% of vitamin C content was decreased. With increasing temperature, intensity and time of ultrasound, phenol content decreased. High intensities of ultrasound caused a significant decrease in anthocyanin content, in a way that in the intensity of 61 µm, 4 min and 60 °C, the anthocyanin content was reduced by 6.6%, respectively. In general, the results of this study indicate that increasing the intensity of ultrasound, temperature and treatment time reduced the positive effect of these treatments on qualitative properties and even reduced the bioactive compounds, that with regard to the combined results, 42.7 µm (75%) amplitude at 60 °C can be the most effective treatment in maintaining the qualitative characteristics of sour cherry juice compared to the pasteurization method