RU2175996C1 - Surfactant-supplemented colloidal stannite electrolyte - Google Patents

Abstract

FIELD: nonferrous hydrometallurgy. SUBSTANCE: invention relates to electrolytic production of tin from wastes and its refining. In order to enable regeneration and reuse of tin, stannite electrolyte contains tin chloride, sodium hydroxide, water, and organic surfactant, in particular condensation product of thiourea, polyethylenepolyamine, and formaldehyde. EFFECT: reduced power and materials consumption, and improved quality of tin precipitates.

Description

 The invention relates to applied electrochemistry, in particular to hydrometallurgy, and is intended to reduce material and energy costs during the regeneration of tin, improve the quality of the resulting tin precipitation.

 Known stannite electrolyte, which contains tin chloride, sodium hydroxide and water [1].

The disadvantage of this electrolyte is that the deposited tin precipitates are porous, dendritic and spongy, which requires further processing costs. In addition, such an electrolyte operates at elevated temperatures (60 - 90 ^o C), which affects the additional energy consumption for its heating. In addition to everything, there is a consumption of materials, in particular water, due to its evaporation and entrainment of the components of the electrolyte solution with water vapor.

 The technical result of the invention is to reduce energy and material costs while improving the quality of the resulting tin sediments.

 The indicated result is achieved by the fact that in the stannite electrolyte an organic surfactant is used as an additive — the condensation product of thiourea, polyethylene polyamine and formaldehyde — NPI-89.

 Obtained using the above components, the stannite electrolyte colloid (tin bichloride 34.0 - 40.0 g / l (in terms of metal tin), sodium hydroxide 120.0 - 130.0 g / l, additive NPI-89 surfactant 0.250 - 0.30 g / l) provides the maximum conductivity of the solution and the quality of the obtained tin precipitates, which are well adhered to the base, have light colors and do not require further processing. In addition, this electrolyte in comparison with the known [1] operates at room temperature. Moreover, this electrolyte is operated with the least loss of its constituent components and with the least risk during operation.

Investigations of this electrolyte conducted in the laboratories of UR-GTU (NPI) and SHI YURGTU (NPI), revealed its high technical and economic indicators, efficiency and reliability in the processes of tin regeneration from production wastes, as well as optimal electrolysis modes: cathodic current density 0, 50 - 0.80 A / dm ² , temperature 18 - 35 ^o C.

Literature
1. Liner V.I. and other Foundations of electroplating, GNTI literature on ferrous and non-ferrous metallurgy, M., 1943, c. 463.

Claims (1)

 Stannitic electrolyte for the regeneration and utilization of tin, containing tin chloride, sodium hydroxide and water, characterized in that it additionally contains an organic additive, a surface-active condensation product of thiourea, polyethylene polyamine and formaldehyde.