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Showing 3 results for Molasses

J. Keramt, S. Malek,
Volume 5, Issue 1 (4-2001)
Abstract

Molasses are produced in large amounts by sugar cane and sugar beet factories every year. However, they are considered as the waste product of the crystallization plants. Thus, although they contain significant amounts of materials with deep black colour which can be separated as food colour, molasses are very cheap and feasible to be used for this purpose. Aliquots of diluted molasses, after adjusting the pH, were passed through the column followed by extraction with acidified alcohol. The highest yield of extraction (76.3%) was obtained by using diluted molasses (10° BX) and 150 ml of Amberlite resins. The solvent was removed and the solid colour was obtained by evaporating the water using a freeze drying system.

 The colour was characterized by determining its solubility, amount of ash, and sugar content and its colouring ability. Also, the stability of the colour under different conditions of acidic pH, temperature, and visible light was investigated. In addition, the colour values of the colour solution were measured by Hunter lab system.

The colour was compared with the imported caramel which is used in the black soft drinks of Zam Zam. Both had almost the same values of λmax. Also, their sensitivities to pH changes were similar. Samples of soft drinks made by using the prepared colour were compared with those made by caramel under different conditions of storage such as temperature and light. On the whole, the colour was found to be a very suitable replacement for caramel in the production of black soft drinks.

 Also the colour was used as partial replacement for cocoa powder in making chocolate milk. The taste panel showed that cocoa powder can be replaced by the colour powder by 20% with almost no detectable differences. The caramel from molasses is safe and can be used as a food colour. The cost of production was estimated at about 10 Rials per gram of caramel. Thus, from an economical point of view, industrial production of caramel from molasses is profitable.


M. Alikhani, A. A. Alamooti, Gh. R. Ghorbani, N. Sadeghi,
Volume 9, Issue 3 (10-2005)
Abstract

Whole plant sunflower and sunflower without head were ensiled in plastic containers using additives in a 2×2×2×2 factorial arrangement in a completely randomized design with three replicates. Additives were molasses, urea (at 4 and 0.5 percent wet basis respectively), and a bacterial inoculant (Agros 6gr/ton of forage as manufacture’s instruction). Compared with silages without head, ensiling sunflower as whole plant resulted in lower pH, neutral detergent fiber (NDF) and ash versus higher concentrations of crude protein and ether extract (EE). No significant effect of seed was observed on lactic acid concentration and dry matter degradability (P<0.05). With the addition of molasses, the cell wall components and the EE concentrations reduced, but dry matter content increased. Highest degradability of dry matter was also observed in molasses-treated silages (average 58.04, P<0.007). With the addition of urea a significant increase was seen in CP content of either whole plant or headless silages (P<0.0001) with no effect on other fermentation characteristics. Bacterial inoculation of silages elevated the levels of lactic acid (2.81% DM) with more pronounced effect on headless than whole plant silages. Regardless of type of additives, butyric acid concentrations were ideally minimal (near to 2%) indicating least clostridial damage. The qualitative visual evaluation of the silage on the basis of scale of 1-20 for the smel, colour and structure of the silage and giving number to the mold damage on the basis of 1-10 placed all the treatment in an acceptable quality, although the mold damage was highest in silages without molasses. Results of this experiment indicated that better quality of silalges could be provided by adding molasses and ensiling whole plant sunflower. Improving quality of silages contained molasses might necesitate the additiion of a source of water-soluble carbohydrate at ensiling.
S. F. Hashemi, R. Zalaghi, N. Enayatizamir,
Volume 26, Issue 1 (5-2022)
Abstract

This study investigated the effect of the inoculation of the soil with some phosphorus solubilizing microorganisms (PSM) on inorganic P fractions in sandy soil enriched with inorganic and organic amendments. A factorial experiment arrangement was performed in a completely randomized design with three replications, using two factors: microorganisms (control, Entrobacter cloacae, Brevundimonas, and piriformospora indica) and amendments (control, (5%) apatite, (5%) apatite + (3%) zeolite, (5%) apatite + (1%) molasses). A 60-days incubation was performed after the application of treatments. Inorganic P fractionation and alkaline phosphatase activity of soil were measured at the end of the experiment. Phosphorus distribution in soil was as follow: octacalcium phosphate > apatite P > dicalcium phosphate > Olsen p > aluminium phosphate > iron phosphate. The application of apatite increased all of the P mineral fractions. The application of zeolite-appatie was very effective and although did not increase Olsen P (probably because of the low cation exchange capacity of soil), had a significant effect (p<0.05) on other P forms and caused dicalcium phosphate to increase (69.2%) and apatite P and octaclcium phosphate to decrease (34.8% and 60.0%, respectively) compared to apatite application. Application of molasses resulted in significant increases in dicalcium phosphate and octacalcium phosphate (48.9% and 29.3%, respectively) and decreases in apatite P and Olsen P (62.1% and 63.9%, respectively). Microbial inoculation resulted in a significant increase in Olsen P and dicalcium phosphate and a decrease in octacalcium phosphate and apatite P; showing the ability of these organisms to increase the phosphorus availability. Entrobacter and Piriformospora indica were more effective than Brevundimonas. It seems that microorganisms in different substrates had used different mechanisms; such that in apatite and apatite-molasses treatments microbial inoculation resulted in an increase in alkaline phosphatase activity, but in zeolite-apatite treatment, pH had decreased indicating the organic acid production by microorganisms. 


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