Calculation of Oxygen Ion Activities in Sodium Silicate and Sodium Borate Melts

AbstractA new solidification technique using cement-glass, which is a mixture of sodium silicate, cement, additives, and initiator of the solidification reaction, was developed for sodium borate liquid waste generated from pressurized water reactor (PWR) plants. The cement-glass could solidify eight times as much sodium borate as cement could, because the solidifying reaction of the cement-glass is not hindered by borate ions.The reaction mechanism of sodium silicate and phosphoric silicate (initiator), the main components of cement-glass, was studied through X-ray diffraction and compressive strength measurements. It was found that three- dimensionally bonded silicon dioxide was produced by polymerization of the two silicates. The leaching ratio of cesium from the cement-glass package was one-tenth that of the cement one. This low value was attributed to a high cesium adsorption ability of the cement-glass and it could be theoretically predicted accordingly.

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Viscosity of the Sodium–Borate Melts Containing Mechanically Activated Samarium, Europium, Erbium, and Thulium Oxides

Russian Metallurgy (Metally) ◽

10.1134/s0036029521020105 ◽

2021 ◽

Vol 2021 (2) ◽

pp. 133-136

Author(s):

A. V. Ivanov ◽

V. V. Ryabov

Keyword(s):

Sodium Borate ◽

Borate Melts

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Unconventionally Made-Cellular Glass Aggregate

Journal La Multiapp ◽

10.37899/journallamultiapp.v2i6.511 ◽

2021 ◽

Vol 2 (6) ◽

pp. 21-31

Author(s):

Lucian Paunescu ◽

Sorin Mircea Axinte ◽

Felicia Cosmulescu

Keyword(s):

Calcium Carbonate ◽

Sodium Silicate ◽

Electromagnetic Waves ◽

Microwave Field ◽

Industrial Processes ◽

Sodium Borate ◽

Residual Glass ◽

Cellular Glass ◽

Glass Aggregate ◽

Fluxing Agent

Improving the original manufacturing process in microwave field of a cellular glass aggregate using a recipe containing colored consumed drinking bottle, calcium carbonate (CaCO3) as an expanding agent, sodium borate (borax) as a fluxing agent and sodium silicate (Na2SiO3) as a binder is shown in the work. The main adopted technological measures were the advanced mechanical processing of residual glass at a grain dimension below 100 μm and especially the use of a high electromagnetic wave susceptible ceramic tube with a wall thickness reduced from 3.5 to 2.5 mm for the protection of the pressed glass-based mixture against the aggressive effect of microwave field and, in the same time, to achieve a preponderantly direct heating with electromagnetic waves. Of the tested variants, a recipe with 1.6 % calcium carbonate, 6 % borax, 8 % sodium silicate and the rest residual glass was determined to be optimal. The cellular glass aggregate had the bulk density of 0.22 g/cm3, heat conductivity of 0.079 W/m·K and compression strength of 5.9 MPa. The specific consumption of energy was very low (0.71 kWh/kg) below the range of reported values of the industrial processes consumption (between 0.74-1.15 kWh/kg).

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