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 Cake is a favorite snack of the consumer's broad spectrum of age, which has high levels of fat and sugar in its formula, which results in high calorie foods. Inulin is one of the best carbohydrate-based fat substitutes. Inulin is characterized by the ability to form microcrystals in water. It is very suitable for the formation of creamy texture and providing a feeling similar to the fat. One of the ways to reduce the sugar intake is the use of fruit juice with a sweet taste. Due to its natural sweetness and distinctive taste, easy digestion and high levels of sugar in various food products, dates have been considered. The aim of this study was to investigate the replacement of sugar with date palm and the replacement of fat with inulin on the physical and chemical properties of oil cake and optimization of formulation in order to produce pericyclic product with reduced fat and lower content of sucrose. In this study sugar cake formulation was replaced in four levels including 0, 20, 40 and 60% with date syrup. The oil was replaced with four levels of 0, 20, 40 and 60% with inulin. Replacing cake oil with inulin, in addition to reduce the textural parameters of the cake, increase the pH of the cake and and brightened the cake crust, while reducing the yellowness of the crust. Optimization results showed that formula sugar up to 19% with date syrup and oil up to 34% can be replaced with inulin.

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Cakes are one of the products in which fat substitutes can be used to reduce calories. Fat replacer Gel (FRG) is a compound that has the same functional properties, stability, physical and chemical properties as fats, but produces fewer calories per gram than fats. The fat replacement gel is composed of a combination of fat, fat substitute premix (FRP) and water. Fat replacer premix containing WPC, maltodextrin and inulin, and different concentrations of premix were used in the cake batter. The response surface statistical method was used to optimize the formulation and the dough viscosity and cake hardness were used to evaluate the model and select the optimal formula. Under optimal conditions, the results of dough viscosity, specific dough density, cake volume and sensory evaluation were evaluated using SPSS software. The variables of water, FRP and fat were linearly and quadratically affected by dough viscosity and hardness, respectively. Interaction was observed between water and FRP and there was no significant difference between dough viscosity and measured and predicted hardness. Optimal production conditions were determined as 70.42% water, 1.50% FRP and 10.28% fat. Some physical and chemical properties of dough and cake were compared with the control sample under optimal conditions. The results showed that the viscosity and specific density of the optimal dough were higher than the control. The optimal cake volume and moisture content was higher compared to the control sample. There was no significant difference between control and optimal cake in terms of hardness and color and sensory evaluation. The results showed using fat replacer gel (FRG) as a fat substitute can reduce the amount of fat by about 76% of its initial amount, without causing undesirable quality changes in the final product.

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The purpose of this research is to investigate the replacement of different levels of chickpea flour (0, 25, 50, 75 and 100%) with quinoa flour and the addition of monoglyceride emulsifier at levels of 0, 0.5 and 1% to the formulation of gluten-free cookies. In this research, the amount of ash, protein, moisture, specific volume, firmness and sensory properties (form and shape, surface, texture, cheweness, odor and taste, and overall acceptance) of the samples were evaluated. The results showed that the moisture, ash and fat content of quinoa flour was higher and its protein content was lower than chickpea flour. By increasing the level of replacing chickpea with quinoa flour in the formulation of gluten-free cookies, the amount of moisture and ash was increased and the amount of protein was decreased. The sample containing 25% quinoa flour and 0.5% monoglyceride emulsifier had the highest specific volume (0.98 ml/g) and the lowest firmness (31.37 N). The presence of quinoa flour and the increase of its level in the formulation showed L* value decreased and a* value increased. The sensory evaluation showed the sample containing 25% quinoa flour (without emulsifier) and the sample containing 25% quinoa flour and 0.5% monoglyceride emulsifier had better than other samples. It should be noted that the samples containing 50% quinoa flour in the presence of 0.5% monoglyceride emulsifier were of high quality and quantity, and the overall acceptance score and physicochemical characteristics of these samples were favorable. Therefore, samples containing 25  quinoa flour and 0.5% monoglyceride emulsifier are introduced as the best samples of gluten-free cookies in this research.
 

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Quinoa is a valuable food source that has attracted many people attention today. For this purpose, in this research, the effect of types of quinoa flour (raw, roasted and flaked) and its partial replacement with roasted rice flour (zero, 15 and 30%) were investigated on physicochemical (protein, ash, water activity, texture and color) and sensory characteristics of compact food bars. The results showed that the flaking and roasting applied on quinoa while improving the quality of the product led to a decrease in water activity and color components L* and b* and an increase in ash, texture firmness and color component a*. This was while the process of roasting and flaking led to a decrease and an increase in the protein of the produced samples, respectively, compared to the samples containing raw quinoa flour. On the other hand, by increasing the rice flour percentage in the formulation, the amount of protein, ash and color component a* decreased and the values ​​of texture firmness and color components L* and b* increased. The results of the sensory evaluation also showed that the processing done on quinoa and the presence of rice flour in the formulation led to an increase in the score of sensory characteristics and finally the overall acceptance of the final product. Finally, the sample produced with quinoa flaked flour and containing 30% of rice flour (5.74% protein, 0.781% ash and overall acceptance score of 4.52) was introduced as the best sample.