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Enhancement of Solubility and Mass Transfer Coefficient of Benzoic Acid Through Hydrotropy

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Prakash D. G., Kumar S. T., Gandhi N. N.
Polish Journal of Chemical Technology
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2013
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vol. 15
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issue 1
46-50
EN
The effect of hydrotropes such as sodium salicylate, sodium benzoate, and nicotinamide on the solubility and mass transfer coefficient of benzoic acid has been investigated. The solubility studies were carried out under a wide range of hydrotrope concentrations (0 to 3.0 mol/L) and different system temperatures (303K to 333K). It has been observed that the solubility and mass transfer coefficient of benzoic acid increases with an increase in hydrotrope concentration and also with system temperature. A Minimum Hydrotrope Concentration (MHC) was found essential to initiate a significant increase in the solubility and the mass transfer coefficient. The maximum enhancement factor (φs), which is the ratio of the solubility value in the presence and absence of a hydrotrope, has been determined for all sets of experimentations. The solubility of benzoic acid has been enhanced to 19.98 times in the presence of 2.5 mol/L concentration of sodium salicylate hydrotrope at 333K.The effectiveness of hydrotropes was measured in terms of Setschenow constant Ks and the highest value has been observed as 0.502 for sodium salicylate.
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Production of phosphate biofertilizers from bones by phosphate-solubilizing bacteriaBacillus megaterium

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Wyciszkiewicz M., Saeid A., Chojnacka K., Górecki H.
Open Chemistry
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2015
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vol. 13
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issue 1
EN
In this paper, the production of phosphate biofertilizers from bones by phosphate-solubilizing bacteria Bacillus megaterium is presented. The biofertilizers used in this study contain phosphorus compounds that are in available form to plants as well as components of growth medium. The solubilization was performed under two conditions; with chlorides and with sulphates instead of chlorides. Three biofertilizer forms are proposed in relation to the doses of bones applied in the solubilization process (4, 10 or 20 g L-1). The solubilization degree varied according to the bacterial medium formulation and the bones doses. The replacement of chlorides with sulphates yielded a lower growth rate, and resulted, in a lower solubilization. The specific growth rate of the cells of B. megaterium in a sulphate medium was lower than compared with the specific growth rate of cell culture in a medium of chlorides of about 22.4, 39 and 14%, for 4, 10 and 20 g L-1 of bones concentration, respectively. In the stationary phase, the solubilization factor (SF) was higher (61.7%) for the solubilization process conducted in a medium with chlorides − Cbone 4 g L-1, compared with the solubilization process conducted in the medium of sulphates (52.7%).
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The effect of hydrotropes on the solubility and mass transfer coefficient of 2-nitrobenzoic acid

100%
Thenesh-Kumar S., Gnana-Prakash D., Nagendra-Gandhi N.
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EN
A comprehensive investigation on the solubility and mass transfer coefficient enhancement of 2-nitrobenzoic acid through hydrotropy, has been undertaken. The solubility and mass transfer coefficient studies were carried out using hydrotropes such as sodium acetate, citric acid and nicotinamide under a wide range of hydrotrope concentrations (0 to 3.0 mol/L) and different system temperatures (303 to 333 K). It was found that the solubility and mass transfer coefficient of 2-nitrobenzoic acid increases with an increase in hydrotrope concentration and also with system temperature. All hydrotropes used in this work showed an enhancement in the solubility and mass transfer coefficient to different degrees. The maximum enhancement factor value has been determined for both the solubility and mass transfer coefficient. The effectiveness of hydrotropes was measured in terms of Setschnew constant Ks and reported for all the hydrotropes used in this study.
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