ChemInform Abstract: STUDY OF THE THERMAL DECOMPOSITION OF MSO4 (M = ZINC(II), CADMIUM(II), MERCURY(II)) IN A SODIUM NITRATE-POTASSIUM NITRATE MELT

The Seebeck coefficient, εT, of the thermocell Ag(T)/AgNO3 in NaNO3 − KNO3/Ag (T + ΔT) was measured as a function of silver nitrate concentration and temperature. Extrapolation of the results to unit mole fraction, N, of AgNO3 gave the value εT0 = − 277.5 − 0.136T °C (µV deg−1).For several mixed melts of AgNO3 and an alkali nitrate the function [Formula: see text] was calculated and shown to be linear in N. P was extrapolated to finite values for the pure alkali nitrates.

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Extractive crystallization of salts in the ternary systems sodium (potassium, cesium) nitrate – water – triethylamine

Izvestiya of Saratov University New Series Series Chemistry Biology Ecology ◽

10.18500/1816-9775-2021-21-2-159-168 ◽

2021 ◽

Vol 21 (2) ◽

pp. 159-168

Author(s):

Veronika V. Danilina ◽

◽

Dmitry I. Chernov ◽

Dmitry G. Cherkasov ◽

Konstantin K. Il’in ◽

...

Keyword(s):

Sodium Nitrate ◽

Nitrate Solution ◽

Maximum Yield ◽

Ternary Systems ◽

Potassium Nitrate ◽

Cesium Nitrate ◽

Sodium Potassium ◽

Metal Nitrates ◽

Amine Content ◽

Water Salt

A comparative analysis of the results of our polythermal study of the ternary systems sodium (potassium, cesium) nitrate – water – triethylamine has been carried out to estimate the efficiency of the use of triethylamine in the extractive crystallization of alkali metal nitrates from water–salt solutions containing 43.0, 44.0, 45.0, 46.0, and 47.0 wt. % sodium nitrate in the range of 10.0–25.0°C, 20.0, 21.0, and 22.0 wt.% potassium nitrate and 18.0, 19.0, 20.0 and 21.0 wt. % cesium nitrate in the range of 20.0–25.0°C. The dependences of the yield of these salts on the amount of triethylamine added and temperature have been found. It has been established that the maximum yield of sodium nitrate (79.4%) is observed for the aqueous solution with 47 wt.% salt upon the introduction of 90 wt.% triethylamine at 25.0° C. The maximum yield in the systems potassium (cesium) nitrate – water – triethylamine was 68.9% (22 wt. % potassium nitrate solution) and 66.2% (21 wt. % cesium nitrate solution) at 20.0° C and 90 wt. % amine content.

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Thermophysical properties of the equimolar mixture sodium nitrate-potassium nitrate from 300 to 600.degree.C

Journal of Chemical & Engineering Data ◽

10.1021/je00029a012 ◽

1982 ◽

Vol 27 (3) ◽

pp. 269-273 ◽

Cited By ~ 34

Author(s):

Donald A. Nissen

Keyword(s):

Sodium Nitrate ◽

Thermophysical Properties ◽

Potassium Nitrate ◽

Equimolar Mixture

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Density, viscosity, and electrolytic conductivity of concentrated aqueous electrolyte solutions at several temperatures. Alkaline-earth chlorides, lanthanum chloride, sodium chloride, sodium nitrate, sodium bromide, potassium nitrate, potassium bromide, and cadmium nitrate

Journal of Chemical & Engineering Data ◽

10.1021/je00035a016 ◽

1984 ◽

Vol 29 (1) ◽

pp. 45-52 ◽

Cited By ~ 152

Author(s):

Toshiaki Isono

Keyword(s):

Sodium Chloride ◽

Sodium Nitrate ◽

Alkaline Earth ◽

Aqueous Electrolyte ◽

Electrolyte Solutions ◽

Potassium Nitrate ◽

Potassium Bromide ◽

Lanthanum Chloride ◽

Cadmium Nitrate ◽

Alkaline Earth Chlorides

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The Temperature Dependence of the Isotope Effect for Electromigration of Potassium Ions in Molten Potassium Nitrate

Zeitschrift für Naturforschung A ◽

10.1515/zna-1968-1114 ◽

1968 ◽

Vol 23 (11) ◽

pp. 1779-1782

Author(s):

Arnold Lundén ◽

Alf Ekhed

Keyword(s):

Thermal Decomposition ◽

Temperature Dependence ◽

Isotope Effect ◽

Separation Factor ◽

Mass Effect ◽

Potassium Nitrate ◽

Relative Difference ◽

Potassium Ions ◽

Heavy Isotope ◽

Significant Enrichment

The relative difference (Δb/b) between the electromigration mobilities of 39K and 41K in molten KNO3 has been measured over the range 354° to 586°C. The mass effect, μ= (Δb/b)/(Δm/m), becomes larger when the temperature is increased, following the relation—,u =0.0385+0.000124 (t-337)where t is the temperature in °C. Due to thermal decomposition, the nitrate is partly converted to nitrite, but it is proved by performing experiments with different initial concentrations of nitrite, that the isotope effect for potassium is not influenced noticeably by the concentration of the anions.The experiment is designed to give an enrichment of the heavy isotope 41K in a small anode compartment and in the upper part of the separation tube. However, it was possible to establish that a slight, but significant, enrichment of the light isotope 39K was obtained in the lower part of the separation tube, i. e. just above the opening into the large cathode compartment. A separation factor of 1.003 was estimated for this enrichment effect, which is due to non-ideal conditions of the experiment.

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