23 research outputs found
The Effect of Soy Flour on Cookie Quality
Cookies are a popular confectionery product with a unique texture and taste, long shelf life and a relatively cheap price; therefore, it is a widespread snack among people of all generations. Nevertheless, cookies are usually made of wheat flour and most formulations are highly caloric and have a low fiber content. Soy flour is an excellent source of proteins, fibers, vitamins and minerals and it is being considered as a great supplement to wheat flour because it increases nutritive characteristics of the final product. By their digestibility and amino acid content, soy proteins are very similar to proteins derived from animals. They also contain many essential amino acids, which are deficient in most of the cereals. The purpose of this work was to determine the effect of soy flour on quality of cookies. Wheat flour was supplemented with 35% of soy flour (full-fat toasted, low-fat toasted, defatted lightly toasted, toasted and soy protein concentrate). The supplementation of wheat flour with soy flour had affected nutritive value and sensory characteristics of cookies
Statistical analysis of the basic chemical composition of whole grain flour of different cereal grains
Abstract. Samples of whole grain flour of five cereals (wheat, rye, barley, oats and buckwheat) were analysed for ash, starch, fat, cellulose and protein content. Coefficient of variation shows that within the same sample of whole grain flour variation of starch, protein, fat and ash content is relatively small, rarely exceeding 3%. The variability of the cellulose content is relatively high. The significance of the difference between chemical compositions of two independent samples of the same whole grain flour has been tested by Student's t-test. With the exception of protein content, the difference between two samples of buckwheat whole grain flou
Influence of fatty acid composition of sunflower kernel on quality and shelf-life of cookies
Sunflower kernel is a rich source of nutritively valuable components like proteins, essential fatty and amino acids, vitamins and mineral matters and as such, is a convenient raw material for the production of enriched cookies, biscuits, crackers as functional food. The influence of high-oleic type sunflower kernel on quality and stability of cookies was investigated, compared to products with standard confectionary sunflower kernel, with dominating polyunsaturated linoleic acid. The optimal keeping time of cookies with standard confectionary sunflower kernel is 4 months, and of cookies with high-oleic sunflower kernel is significantly longer than 5 months
Chocolate as a carrier for cocoa's functional ingredients
The aim of this chapter was to introduce chocolate as a cocoa carrier of probiotics and bioactive whey protein hydrolysate. This research examined the influence of additional ingredients on the functional properties and rheology of the final product. The chocolate prepared with L. rhamnosus HN001 strain at 40°C achieved the highest survivability, which was above 90% (viable cell count of about 8.1 log (CFU/g)) after 6 months of storage. This strain could be selected for high-quality probiotic chocolate production. The addition of probiotic L. rhamnosus HN001 significantly improves the rheological properties of probiotic chocolate. The addition of bioactive whey protein hydrolysate did not show significant changes in the total content of polyphenols or ABTS radical scavenging activity. However, DPPH radical scavenging activity showed an increase of 1.28 times during storage and about 1.46 in relation to the control sample and the sample supplemented with unhydrolyzed whey proteins. The bioactive whey protein hydrolysate affects chocolate rheology by increasing the thixotropic loop 8.02 times in relation to the control sample, and 1.57 times compared to the sample supplemented with unhydrolyzed whey proteins. Based on the results, the addition of probiotics and bioactive whey protein hydrolysate powder in industrial conditions, which was done in the mixing tank (at 40°C) before the chocolate shaping phase, provides preservation of both functional ingredients as key components for this type of product. The addition of probiotics improves the rheological properties of chocolate, while the addition of whey protein hydrolysate leads to undesirable viscosity increase that can be avoided using a more efficient emulsifier
Optimization of the formula of bread enriched with sugar beet fibres
Research on the effects of additives produced from sugar beet is aimed at satisfying the daily intake of dietary fibre in the range of 25–35 g. Bakery products are usually consumed several times a day and this offers the possibility of incorporating dietary fibres from sugar beet. The addition of this additive to white flour can eliminate the negative effect of phytic acid, present in whole-grain cereal products, which inhibits the mineral intake. In the aim to decrease and eliminate adverse effects of sugar beet fibres on dough rheology and bread quality, optimal quantities of shortening and milk powder to the recipes were tested in order to counter addition of balance such effects. The influence of shortening and milk powder on characteristics of dough enriched with fibres (proving time and dough level) and parameters of bread quality (volume and crumb quality) was traced in two groups of samples: first without and second with 5% of added gluten. Applying regression analysis on measured parameters a mathematical model was defined. Based on presented data and regression analysis concerning samples with and without gluten, it can be stated that fibres enriched bread of the best quality can be made with gluten, shortening and milk powder at the level of 5%, 5% and 2%, respectively
Effects of the amount of soy milk on thermorheological, thermal and textural properties of chocolate with soy milk
Chocolate is a two-phase rheological system. The solid phase, consisting of
non-fat cocoa particles, sugar and soy milk is wrapped in a fat phase - cocoa
butter. Physical, thermal, textural and organoleptic properties of chocolate
depend on the composition of the ingredients, manufacturing process and a
properly conducted pre-crystallization phase. For this study, two chocolate
masses were produced in a ball mill: one with 15% of soy milk powder (R1) and
the other with 20% of soy milk powder (R2). The chocolate mass was produced
at different milling times (30, 60 and 90 min), and pre-crystallization
temperature (26, 28 and 30oC). The aim of the study was to evaluate the
changes caused by different amounts of soy milk powder on the quality of the
chocolate. The quality of chocolate was evaluated by comparing the
nutritional composition, hardness, thermorheological and thermal properties
of the chocolate mass. The results show that chocolate mass R2, due to the
presence of higher amounts of soy milk proteins, should be milled longer, and
also needs lower temperatures for pre-crystallization. [Projekat Ministarstva
nauke Republike Srbije, br. TR 31014
Effect of soya milk on nutritive, antioxidative, reological and textural properties of chocolate produced in a ball mill
Chocolate is a complex rheological system in which non-fat cocoa particles and sugar particles are enveloped by crystal matrix of cocoa butter. Physical properties of chocolate depend on ingredient composition, method of production and properly performed pre-crystallization phase. In this work, chocolate was produced in an unconventional way, i.e. in a ball mill applying variable refining time (30, 60 and 90 min) and pre-crystallization temperature in chocolate masses (26, 28 and 30⁰C). Two types of chocolate were produced: chocolate with 20% of powdered cow’s milk (R1) and chocolate with 20% of soya milk powder (R2). The quality of chocolate was followed by comparing nutritive composition, 23 polyphenol content, hardness of chocolate, solid triglyceride content (SFC) and rheological parameters (Casson yield flow (Pa), Casson viscosity (Pas), the area of the thixotropic loop, elastic modulus and creep curves). The aim of this paper is determining changes caused by replacing cow’s milk with soya milk powder in respect of nutritive, rheological and sensory properties, as well as defining optimal parameters: precrystallization temperature and refining time of soya milk chocolate in order to obtain suitable sensory and physical properties identical to those of milk chocolate mass. The results show that replacing powdered cow’s milk with soya milk powder affects the increase in nutritive value of soya milk chocolate. R2 chocolate mass showed the increase in essential amino acids and fatty acids. This chocolate mass also showed the increase in total polyphenols by 28.1% comparing to R1 chocolate mass. By comparing viscosity, yield stress, shear stress and the area of the thixotropic loop, it can be observed that R1 chocolate mass represents a more organized and simpler system than the mass with soya milk (R2), as it shows lower values for all the above mentioned parameters, regardless of the refining time and pre-crystallization temperature. Viscoelastic behavior of R2 is also evident, as a consequence of soya protein presence. In order to maintain optimal hardness as well as melting resistance of chocolate, in case of R2 chocolate mass it is necessary to apply pre-crystallization temperature of 26⁰C, while for the chocolate mass R1 it is 30⁰C
The impact of the manufacturing process on the hardness and sensory properties of milk chocolate
The aim of this paper was to examine the impact of the manufacturing process on the textural characteristics and sensory properties of milk chocolate. The research was conducted on the samples of chocolate produced in a ball mill during 30, 60 and 90 minutes of refining, each of them being pre-crystallized at 26, 28 and 30°C. A chocolate mass of identical ingredient composition was also produced using a standard manufacturing process at the same pre-crystallization temperatures. Chocolate hardness was examined using a piece of equipment called Texture Analyser, measuring the stress intensity which leads to chocolate crushing. Sensory analysis was performed using the point scoring method. The new manufacturing process, i.e. the manufacturing of chocolate in a ball mill improves sensory properties and hardness of milk chocolate. [Projekat Ministarstva nauke Republike Srbije, br. TR 31014