Measurements and modeling of electrical conductivity (EC) of selected fruit juices were done during continuous ohmic heating. Ten-cm long acrylic heating cell with 3.8 cm internal diameter was utilized to measure the juice electrical conductivity. The variation in electrical conductivity of lab-squeezed juice of orange, pineapple and tomato fruits purchased from different retail markets were measured and modeled in terms of juice properties, such as total soluble solids and pH. EC of all juices had a linear variation with temperature as they were heated continuously to 80°C. EC of juice was affected by fruit maturity: 9-months old oranges had lower EC value of 0.392 S/m at 25°C, whereas 12 months old oranges had 0.475 S/m. The electrical conductivity of lab-squeezed orange juice from fresh fruits from different locations showed a 10% variation in the mean value of 0.343 S/m at 25°C and 0.971 S/m at 80°C. Mean electrical conductivity values for pineapple and tomato juice at 25°C, were 0.295 S/m and 0.504 S/m with maximum variations due to location at about 20% and 18.3%, respectively. These variations in EC of juices studied were observed to be higher at higher temperatures. The observed electrical conductivities for three juices were modeled in terms of temperature and total soluble solids with very high goodness-of-fit values.
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机译:在连续的欧姆加热过程中,对选定果汁的电导率(EC)进行了测量和建模。利用内径为3.8 cm的10 cm长的丙烯酸加热池测量果汁的电导率。对从不同零售市场购买的橙汁,菠萝汁和番茄果实的实验室压榨汁液的电导率变化进行了测量,并根据汁液性质(例如总可溶性固形物和pH)建模。连续加热至80°C时,所有果汁的EC随温度呈线性变化。果汁的EC受到水果成熟度的影响:9个月大的桔子在25°C下的EC值较低,为0.392 S / m,而12个月大的桔子的EC值为0.475 S / m。来自不同位置的新鲜水果的实验室榨橙汁的电导率在25°C下的平均值为0.343 S / m,在80°C下的平均值为0.971 S / m,变化了10%。菠萝和番茄汁在25°C时的平均电导率值为0.295 S / m和0.504 S / m,由于位置分别在20%和18.3%处而出现最大变化。在较高的温度下观察到所研究果汁的EC的这些变化较高。根据温度和总可溶性固形物(具有非常高的拟合优度值)对三种果汁的观测电导率进行建模。
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