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Raisin is a principal traditional export product of Iran and has occupied a special position in the foreign trade of the country. During storage period, the product turns sticky and hard due to exudates syrup and moisture loss. To overcome this problem the application of edible coating suggests being of proper assistance. Edible coating may enhance the boundary layer resistance resulting enhanced shelf life of product. In this research the method of Accelerated Shelf Life Testing (ASLT) used for evaluation of storage and sensory properties (texture, colorو taste and overall acceptability) of raisin .Raisin was treated with coating materials based on lipid (glyceryl monoestearate and carnauba wax) with 150 ppm essential oil of thyme (thymus vulgaris) and stored at 20, 35 and 50^oC for 12 weeks. During this period of storage sensory properties were evaluated and estimate the modeling shelf life of raisin. Results showed that coating, affect on texture and color significantly and caused increasing shelf life of raisin. Temperature and storage time also showed significant effects on total sensory attributes. Maximum shelf life (394 days) determined at 20 ^oC for carnauba wax coating with essential oil of thyme based on overall acceptability   and linear regression and second order function had best fit with R²≥0.94 for all of treatments.  

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The Juice clarification is an important operation in the fruit processing industry. Sour Orange is a source of vitamin C that is cultivated in the north of Iran. Since turbidity of this fruit after juice extraction affects on quality, shelf-life and concentration of juice; clarification and removing of turbidity-causing factors is important. In this study, the effect of membrane parameters including pressure (1.2-2.2 bar) and temperature (25-35 ºC) on the quality characteristics of sour orange during membrane clarification was investigated. The response surface methodology (RSM) by Design-Expert Software was used to optimize the clarification conditions. Results of the experiments showed that the Browning index was raised by increasing of temperature, but vitamin C content, Total antioxidant activity value and clarity was decreased in this condition. The Browning index was decreased by increasing of pressure; however, no significant effect was observed on the other quality characteristics. Results of process optimization indicated that the best condition to maximize of vitamin C content, total antioxidant and clarity and to minimize of Browning index achieved at 25 ºC and 1.7 bar. In this condition the vitamin C content, Browning index, Total antioxidant activity and clarity was 24.9 (mg/100 cc juice), 0.106, 87.97% and 97.1%, respectively.

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Sour orange is a citrus with high antioxidant content (mainly ascorbic acid and phenolic compound). Its juice is consumed as a food seasoning. Thermal pasteurization is a common way to improve safety of sour orange juice. By considering the high thermal sensitivity of ascorbic acid and phenolic compounds, the aim of this study is the investigation of the effect of thermal processing on ascorbic acid, total phenol and an antioxidant capacity of sour orange juice at 70, 75, 80, 85 and 90 °C in 76, 66, 48, 35 and 21 min, respectively. Ascorbic acid and total phenolic content were measured according iodine titration and Folin- Ciocalteu methods, respectively. Ascorbic acid and total phenol degradation during thermal processing were evaluated by Arrhenius and Eyring models. Enthalpy of ascorbic acid degradation changed slightly due to its high thermal resistance (29.15°C) and free energy (101.11-102.64 kJ/mole). With  5°C increase in temperature, the half-life of ascorbic acid and the total phenol content decreased about 1.31 to 1.80 and 1.39 to 2.05 times, respectively. Also there was a good correlation between total phenol content and DPPH of sour orange juice (R²> 0.97).

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  This research carried out in order to corn kernels drying by using a discontinuous rotary drum dryer. This research evaluated the effect of drying air temperature and velocity of the rotating cylinder parameters on the drying time, breakage percentage, cracking, burn kernels and the disruptive energy of corn kernels. For this purpose, a batch dryer rotating cylindrical drum rotation is designed and developed. Intake air temperature parameter Was considered at four levels of 40, 60, 80 and 100 °C and the drum rotation speed at three levels of 2, 6 and 10 rpm. The results indicated significant interaction effect of temperature and speed rotation cylinder on maize grain drying. The lowest time kernels corn drying and the cylinder rotation speed was at 100 °C and 2 rpm, respectively. With increasing temperature of dryer from 40 to 100 °C, grain drying time is reduced to less than a quarter but; with increasing rotation speed of the cylinder drying time was increases. During the drying process, the interaction of temperature and rotation speed of the cylinder has no significant effect on broken kernels-corn. The maximum percentage of broken grains of corn is in 10 rpm rotation speed. Interaction of temperature and rotation speed of the cylinder is significant at the one percent level on cracked and burned grains. The More of the cracks and burn is in 100 °C temperature and 2 rpm of rotation speed.  

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Wild medlar fruit (Mespilus germanica) is rich in sugars and organic acids. In this study, wild medlar concentrates in four concentrations of 14, 28, 42 and 56 %(°Brix), preparation and physicochemical properties including pH, acidity, density and color, and rheological properties (at 20, 30, 40, 50, 60 and 70 ° C) were studied. The pH was in the range from 3.37 to 3.62 and acidity according to citric acid was in the range of 1.05 to 3.90 %. Density of concentrated sample (56 %) was 1277 kg/m³. Color of samples was analyzed using image processing technique and image parameters including L*, a* and b* for the sample with a concentration of 56% was 20.54, 1.69 and 1.36, respectively. With increasing in concentration, the sample was darker and L* index decreased. Concentrate used in all concentrations showed Newtonian behavior and viscosity increases with increasing concentration. With increasing in temperature from 20 to 70 ° C, the viscosity of the concentrate (56 %), decreased from 2517 to 223 mPa.s. The magnitude of activation energy was found in the range of 9.59–43.39 kJ/mol K.

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In this study, the combination of infrared - hot air dryer was used for drying of button mushroom. The effect of infrared lamp power (150, 250 and 375 W), hot air temperature (50, 60 and 70 °C) and hot air rate (1, 2 and 3 m/s) on drying of button mushroom were investigated. The results of infrared-hot air drying of button mushrooms showed that by increasing of lamp power from 150 to 375, the drying rate increased. With the increase in hot air temperature from 50 to 70 °C, and hot air rate from 1and 3 m/s, weight loss increased 10.3% and 13.9%, respectively. Also process modeling were done with the genetic algorithm–artificial neural network (GA-ANN) method with 4 inputs (lamp power, hot air temperature and rate, drying time) and 1 outputs for prediction of weight loss. Sensitivity analysis results by optimum GA-ANN showed the drying time of mushroom was the most sensitive factor for controlling of weight loss. The results of modeling by GA-ANN showed that a network with 7 neurons in the hidden layer with sigmoid activation function can predicted the weight loss (R=0.99) of button mushrooms dried by infrared system-hot air method.

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Purpose: The purpose of the current research is to dry apples using a solar dryer with an absorbent cycle in two modes of direct-convective radiation and indirect-convective radiation. Two types of direct and indirect drying methods with and without moisture absorbers and drying in open air were used. The pre-prepared apple slices (flavored with cinnamon) were placed on a piece of mesh with certain dimensions, the initial weight of the samples was measured and inside the solar dryer with an absorbent cycle in two modes of direct-convective radiation and indirect-convective radiation. It was placed; And during the drying process, the rate of evaporation, texture, wrinkling, water reabsorption rate, retention rate of vitamin C (ascorbic acid) and color change and sensory characteristics at different levels of treatment (30% sucrose and without sucrose and zero, 0.5, 1 and 2% of cinnamon) and also some samples were dried by solar dryer without flavoring with cinnamon alone. Data analysis was done with the completely random factorial design statistical method and using SPSS version 26 statistical software.