Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Dilution solvent applications

Chemical equilibrium in homogeneous systems—Dilute solutions—Applicability of the Gas Laws—Thermodynamic relations between osmotic pressure and the lowering of the vapour pressure, the rise of boiling point, the lowering of freez ing point of the solvent, and change in the solubility of the solvent in another liquid—Molecular weight of dissolved substances—Law of mass action—Change of equilibrium constant with temperature and pressure... [Pg.121]

In certain cri-butadiene processes, the volume of the diluting solvent is sufficiently high that cooling is achieved by feeding cold diluent solvent to the reactor. For an end-use application, the final polymer concentration was 10%. The specific heat of the solvent is 0.96 Btu/lb°F. If the final reaction temperature is 122°F, at what temperature should the solvent be fed into the reactor so as to remove all of the heat of polymerization ... [Pg.288]

Absolute measurements of viscosity are not required in dilute solution viscometry since it is only necessary to determine the viscosity of a polymer solution relative to that of the pure solvent. Application of Equation (3.166) leads to the following relation for the relative viscosity... [Pg.201]

SOCCI 3500 is a 10% formulation of solubilized copper 8-quinolinolate. SOCCI 3500 can be used, in solvent applications, for the mildewproofing of textiles and can be diluted with common organic solvents such as mineral spirits, Stoddard solvent or naphtha. Where fast drying is required, VMP naphtha or an aromatic similar to xylol is suggested. Compatible waxes, flame retardants, organosols and other textile treatments can also be used in combination with SOCCI 3500 to achieve the desired finish. [Pg.188]

The cryoscopic constant Kj gives the depression of the melting point AT (in degrees Celsius) produced when 1 mol of solute is dissolved in 1000 g of a solvent. It is applicable only to dilute solutions for which the number of moles of solute is negligible in comparison with the number of moles of solvent. It is often used for molecular weight determinations. [Pg.1081]

Suitable organic solvents, such as ether, benzene, naphtha and the like, are more soluble than in water. This makes it possible to separate them from other substances which may accompany them in the water solution but which are not soluble in the solvents employed. Hence, one application of solvent extraction is the analytical determination of unsaponifiable oils and waxes in admixture with fatty material by submitting the mixture to vigorous saponification with alcoholic potash or, if necessary, sodium ethylate, and to dilute the product with water and extract with petroleum ether. The soaps remain in the aqueous solution while the unsaponifiable oils and waxes dissolved in the ether. The addition of a salt to an aqueous solution prior to extraction is sometimes practiced in some processes. In older processes, SOj is employed in the separation of aromatic and highly saturated hydrocarbons, taking advantage of the much greater solubility of the solubility of the aromatics and... [Pg.324]

Polymethyl Methacrylate (PMMA), This material has exceptional optical clarity and resistance to outdoor exposure. It is resistant to alkalis, detergents, oils and dilute acids but is attacked by most solvents. Its peculiar property of total internal reflection is useful in advertising signs and some medical applications. [Pg.15]

Molecular Weight Determination by Application of Raoult s Law. If a small amount (m in grams) of a nonvolatile, nonionized substance (solute, 2) is dissolved in m, grams of a volatile liquid (solvent, 1), it experiences a lowering of vapor pressure from the pure solvent value (P ) to the solution value (P) at the system temperature. This is a consequence of Raoult s law because the total vapor pressure of the dilute solution (x 1) is given by P = x P + x P = 1 -... [Pg.348]

It is difficult to point to the basic reason why the average-potential model is not better applicable to metallic solutions. Shimoji60 believes that a Lennard-Jones 6-12 potential is not adequate for metals and that a Morse potential would give better results when incorporated in the same kind of model. On the other hand, it is possible that the main trouble is that metal solutions do not obey a theorem of corresponding states. More specifically, the interaction eAB(r) may not be expressible by the same function as for the pure components because the solute is so strongly modified by the solvent. This point of view is supported by considerations of the electronic models of metal solutions.46 The idea that the solvent strongly modifies the solute metal is reached also through a consideration of the quasi-chemical theory applied to dilute solutions. This is the topic that we consider next. [Pg.137]

The poor solubility of coelenterazine in neutral aqueous buffer solutions often hampers the use of this compound in biological applications. The simplest way to make an aqueous solution is the dilution of a methanolic 3 mM coelenterazine with a large volume of a desired aqueous buffer solution. If the use of alcoholic solvents is not permitted, dissolve coelenterazine in a small amount of water with the help of a trace amount of 1 M NaOH or NH4OH, and then immediately dilute this solution with a desired aqueous buffer solution. However, because of the rapid oxidation of coelenterazine in alkaline solutions, it is recommended that the procedure be carried out under argon gas and as quickly as possible. [Pg.167]

The study of carbonate complexes of Pu is complicated by various experimental difficulties. The low solubility of many carbonates (7), leaving a very dilute Pu concentration in solution, results in difficulties to the experiments with electrochemical or spectrophotometric methods. However, the radiometric method with solvent extraction or solubility measurement is easily applicable for the purpose. Unlike the solution with anions, like Cl, N03 etc., the concentration of which can be varied at a constant pH, the preparation of solutions with varying carbonate concentration accompanies indispensably the change of pH of the solution. As a result, the formation of carbonate complexes involves accordingly the hydrolysis reactions of Pu ions in solutions under investigation. It is therefore prerequisite to know the stability constants of Pu(IV) hydroxides prior to the study of its carbonate complexation. [Pg.316]

The number of solute particles present in a given amount of solvent causes the temperature changes described by Equations and. When an ionic salt dissolves in water, each mole of salt produces two or more moles of ions. A dilute solution of sodium chloride (NaCl), for example, contains two moles of ions for every mole of NaCl—one mole of Na cations and one mole of Cl anions. The proper application of Equations and takes this into account by viewing as the toto/number of moles of particles per kilogram of solvent. When this is done, however, the predicted values of A Tf or A 7ti are higher than experimental values. This is because some of the cations and anions in aqueous solutions form ion pairs, reducing the total number of solute particles. [Pg.862]

See other pages where Dilution solvent applications is mentioned: [Pg.932]    [Pg.932]    [Pg.287]    [Pg.779]    [Pg.108]    [Pg.287]    [Pg.278]    [Pg.315]    [Pg.818]    [Pg.468]    [Pg.390]    [Pg.336]    [Pg.278]    [Pg.108]    [Pg.305]    [Pg.432]    [Pg.87]    [Pg.660]    [Pg.128]    [Pg.438]    [Pg.323]    [Pg.326]    [Pg.360]    [Pg.568]    [Pg.98]    [Pg.162]    [Pg.187]    [Pg.698]    [Pg.514]    [Pg.46]    [Pg.83]    [Pg.67]    [Pg.580]    [Pg.157]    [Pg.270]    [Pg.270]    [Pg.514]    [Pg.213]    [Pg.332]   
See also in sourсe #XX -- [ Pg.850 ]



SEARCH



Solvents dilutability

Solvents dilution

© 2024 chempedia.info