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High-pressure solubility of light gases in heavy n-alkanes from apredictive equation of state: Incorporating Henry’s law constant intobinary interaction parameterNasrifar, K., Rahmanian, Nejat 28 August 2014 (has links)
No / Using fugacity coefficient of a cubic equation of state, Henry’s law constant of a solute in a solvent isincorporated into binary interaction parameter of the classical attractive parameter mixing rule. Thedeveloped equation is a function of temperature. The binary interaction parameter is evaluated by purecomponent critical properties and acentric factors of the solute and the solvent and the Henry’s lawconstant of the solute in the solvent. The developed model accurately describes the solubility of gasesincluding methane, ethane, nitrogen, carbon dioxide and hydrogen sulphide in heavy n-alkanes from lowto high pressure for wide range of temperature. The solubility of methane and carbon dioxide in wateris also predicted adequately.
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An investigation of complex species in silver chloride solutions I. Solubility measurements ; II. Ion exchange methodsHecht, Harry G. 30 April 1959 (has links)
The complex species in silver chloride solutions have been investigated by solubility measurements and by ion exchange methods in this work. The solubility of silver chloride in solutions of varying chloride ion concentrations was determined by radioassay techniques. The method of least squares was used to evaluate the constants for the formation of the aqueous silver chloride and the dichloro-complex species; the values being 1.99 x 103 and 2.98 x 104, respectively, at 25.00°C. Aqueous solver chloride has been shown to be sorbed by Amberlite IR-120 from silver chloride solutions which have an ionic strength of 0.2. This sorption has been found to follow the Freundlich, as well as the Langmuir adsorption equations. The sorbed species is postulated to be associated silver chloride molecules, the degree of association being about 4, 5, or 6.
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Interactions of Lanthanides and Liquid Alkali Metals for "Liquid-Like" Lanthanide Transport in U-Zr FuelIsler, Jeremy Payton 03 August 2017 (has links)
No description available.
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IMPACT OF NONIONIZABLE GLYCOL SOLUBILIZERS EXHIBITING DIFFERENT SURFACE ACTIVITIES ON INTESTINAL MEMBRANE PERMEABILITYTRISAL, PREETI 14 July 2005 (has links)
No description available.
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The Modeling of SolubilityCampanell, Frank Christopher January 2006 (has links)
No description available.
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Low-temperature dry scrubbing reaction kinetics and mechanisms: Limestone dissolution and solubilityMaldei, Michael January 1993 (has links)
No description available.
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Formulation of a fast-acting ibuprofen suspension by using nicotinamide as hydrotropic agent - application of DSC, spectroscopy and microscopy in assessment of the type of interactionOberoi, Lalit M. 25 May 2004 (has links)
No description available.
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ELUCIDATING THE FUNDAMENTALS OF LASER ELECTROSPRAY MASS SPECTROMETRY AND CHARACTERIZATION OF COMPOSITE EXPLOSIVES AND CLASSIFICATION OF SMOKELESS POWDER AND ITS RESIDUE USING MULTIVARIATE STATISTICAL ANALYSISPerez, Johnny Joe January 2016 (has links)
This dissertation expounds growing insight of the electrospray droplet ionization mechanism following ablation of dried hydrophobic and hydrophilic molecules using femtosecond laser pulses and mass analysis of the gas phase ions. Both hydrophobic and hydrophilic molecules were laser vaporized into an electrospray solvent opposite in polarity revealing appreciable ion intensity for all samples in contrast to ESI-MS and DESI measurements were solubility of the analyte in the spray solvent is a prerequisite. Quantitative analysis of equimolar protein solutions was established using LEMS reporting over three decades of quantitave response with little evidence of ion suppression. In contrast, ESI-MS measurements of similar equimolar protein solutions revealed severe ion suppression eliminating ion current from one of the protein analytes. Finally, the nature of an analyte following nonresonant laser vaporization has been the subject of debate. Aqueous trypsin was laser vaporized into an electrospray solvent containing either buffer or acid with substrate. LEMS measurements using buffer revealed enzyme-substrate intermediate charge states and continued enzymatic activity while the lack of enzyme-substrate intermediates and stymied enzymatic activity observed using acid suggests nonresonant laser vaporization preserves solution phase structure. This dissertation also extends considerably the use of LEMS for identification and characterization of energetic materials in their pre- and post-blast forms without sample preparation. The use of mulivarate analysis for the classification of large sample sets was also demonstrated showing high fidelity assignment of commercial formulations to their manufacturer. Five unburnt smokeless powders investigated using LEMS revealed unique combinations of organic molecules such as stabilizers and plasticizers using a simple electrospray solvent. Principal component analysis (PCA) provided exact classification of the mass spectra with respect to the manufacturer of the ordinance. LEMS measurements were then obtained from five commercial gunshot residue samples, or post-blast smokeless powder, revealing trace amounts of organics such as the stabilizers and large quantities of inorganic barium originating from the primer. Principal component analysis (PCA) again provided exact classification of the gunshot residue mass spectra with respect to the manufacturer of the ordinance. The use of a common transition metal complexation agent enabled full characterization of eight gunshot residue samples to include the heavy metals contained in the primer and the organics such as the stabilizers and plasticizers without any sample preparation or pre-concentration procedures. Principal component analysis (PCA) again provided high fidelity classification of the gunshot residue mass spectra with respect to the manufacturer of the ordinance after mass analysis with LEMS. Finally, highly energetic formulations such as composition 4 (C-4) and detonation cord subjected to nonresonant femtosecond laser vaporization enabled full characterization of these complex compositions identifying binders, stabilizers, the explosive ingredient and age-related decomposition derivative signature molecules with appreciable ion current detected using both positive and negative ion modes. / Chemistry
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The Formation of Pharmaceutical Co-crystals by Spray Drying. An Investigation into the Chemical and Physical Factors Affecting the Production of Pharmaceutical Co-crystals by Fast Evaporation and Spray DryingMehta, Bhanvi January 2016 (has links)
Crystal engineering study using spray dryer was performed for scale-up and rapid, continuous crystallisation of co-crystals from solution. The study emphasise on developing co-crystals of two structurally similar compounds, caffeine (CAF) and theophylline (THEO) with various di-carboxylic acids. The incongruently soluble pair of CAF and THEO with di-carboxylic acids acquires large solubility difference which is important to consider for its utility in product development. Based on previous assumption that maleic acid (MAL) elevates CAF’s solubility; solubility of the two similar compounds was tested in various dicarboxylic acids. Other solubility enhancement strategies such as introduction of surfactant and binary solvents were also scrutinised. A kinetically similar bench-scale technique, rotary evaporator (rotavap) was investigated as a pre-screening tool for the production of co-crystals via spray drying. Furthermore, various process parameters within the spray dryer were optimised to control the kinetic conditions which influence co-crystallisation and quality of the product. Another polymorphic co-crystal pair, CBZ (carbamazepine) and SAC (saccharin) was examined in various solvents and its degradation was evaluated over a period of few months. In this study, a two-step conversion of CBZ into its degradate was hypothesised. Rotavap delivered a true reflection of co-crystal favoured via spray drying apart from co-crystal pairs depicting polymorphism. Spray dryer offered a unique environment favouring metastable forms of co-crystals irrespective of the starting component stoichiometry; generating CAF:MAL 2:1. However, due to process limitation and solubility constraint, the impurity of CAF in CAF:MAL 2:1 co-crystals could not be abolished.
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Formation, Characterization and Stability of Natural Antimicrobial-Cyclodextrin ComplexesSamperio, Cristian 15 September 2009 (has links)
As a response of the need for a natural antimicrobial to replace sodium benzoate's use as a preservative in beverages, twenty eight compounds known to have antimicrobial activity were evaluated to quantify their solubility. Twenty three of the compounds evaluated are components of plant essential oils and the remaining five compounds are alkyl esters of para-hydroxybenzoic acid. The test compounds were evaluated for aqueous solubility as well as their solubility in an acid-based beverage mixture. The compounds were found to be practically insoluble (< 100 mg/L), very slightly soluble (100 mg/L – 1,000 mg/L) or slightly soluble (1,000 mg/L to 10,000 mg/L).
o-Methoxycinnamaldehyde, trans,trans-2,4-decadienal, cinnamic acid, and citronellol were complexed with α- and β-cyclodextrin and evaluated through phase solubility analyses. The complexes formed showed improved aqueous solubility for all compounds. Complexation with α-CD resulted in an increase of aqueous solubility of o-methoxycinnamaldehyde by 10-fold, trans,trans-2,4-decadienal by 3.2-fold, cinnamic acid by 6.3-fold, and citronellol by 8-fold. In addition, complexation with β-CD resulted in an increase of aqueous solubility of o-methoxycinnamaldehyde by 1.6-fold, trans,trans-2,4-decadienal by 3.1-fold, cinnamic acid by 1.7-fold, and citronellol by 1.6- fold.
The storage stability of the α-CD complexes of o-methoxycinnamaldehyde trans,trans-2,4-decadienal and citronellol were evaluated for 7 days in an acid-based beverage solution by SPME GC-MS. The complexes exhibited varying levels of degradation throughout the duration of the study all. The concentration of o-methoxycinnamaldehyde detected by SPME GC-MS decreased by 61.7%. Similarly, the concentration of trans,trans-2,4-decadienal and that of citronellol decreased by 62.7% and 43% respectively. Additionally, a comparison by UV/Vis of the storage stability of the complexes stored in glass and PET containers was performed. The storage stability comparison proved that absorption into the PET polymer membrane did not occur. / Master of Science
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