RU2793617C1 - Method for electroflotation extraction of sparingly soluble copper compounds from ammonia systems - Google Patents

Abstract

FIELD: electronic equipment.

SUBSTANCE: methods for the electroflotation extraction of sparingly soluble copper compounds from ammonia systems. Invention can be used in the production of electronic circuit boards. The method includes the introduction of the composition at a mass ratio of [NH₃ ⁺ ]:[Cu²⁺]:[composition] equal to 1:[0.2-1]:[0.005-0.01]. The composition contains didecyldimethylammonium chloride, ethylene glycol and a cationic flocculant based on highly polymerized polyacrylamide at a mass ratio equal to 1:[0.3]:[0.25]. Electroflotation is carried out at a current density of 0.4 A/l, pH=9-11 for 15 minutes.

EFFECT: increased degree of extraction of sparingly soluble copper compounds from ammonia systems and the rate of electroflotation purification process while expanding the range of initial concentrations of ammonia (NH₃ ⁺) and copper (Сu²⁺).

1 cl, 2 tbl, 2 ex

Description

The invention relates to methods for the electroflotation extraction of sparingly soluble copper compounds from ammonia systems and can be used in the production of electronic circuit boards.

Etching solutions based on NH ₄ OH, NH ₃ and NH ₄ Cl are widely used in the production of printed circuit boards in electronics. Copper ions at a concentration level of 50-200 mg/l, as well as ammonia complexing agent 100-500 mg/l, enter the washing water after the etching operation. The pH value of these waters is at the level of 8-10.

A known method (Kolesnikov V.A., Gubin A.F., Kolesnikova O.Yu., Kondratieva E.S. Electroflotation extraction of sparingly soluble copper compounds from washing water in the production of printed circuit boards. // Theoretical foundations of chemical technology. 2016. Volume 50, No. 4, pp. 393-401). In this method, the efficiency of extraction of copper ions from the system Cu ²⁺ - H ₂ O - electrolyte - (NH ₃ ) _izb . in the presence of surfactants of anionic nature reaches 92-98%.

The closest in technical essence and the achieved result is the method (V. A. Kolesnikov, A. F. Gubin, O. Yu. surfactants and flocculants // Journal of Applied Chemistry, 2017, V. 90, Issue 5, pp. 598-603). It is shown that the process of electroflotation extraction of copper ions in the presence of an excess of ammonia in the form of complex compounds proceeds with a degree of extraction of copper ions of 95-99% with the addition of a cationic surfactant and a cationic flocculant.

The disadvantage of the method is a significant decrease in the degree of extraction with increasing concentrations of ammonia (NH ₃ ⁺ ) and copper (Cu ²⁺ ).

The technical objective of this invention is to develop a method for the electroflotation extraction of sparingly soluble copper compounds from ammonia systems, which makes it possible to increase the degree of purification and the speed of the electroflotation purification process while expanding the range of initial concentrations of ammonia (NH ³⁺ ) up to 100-1000 mg/l and copper (Cu ²⁺ ) up to 50-200 mg/l.

The problem is solved by introducing the composition into the purified water containing the copper-ammonia complex at a mass ratio of [NH ₃ ⁺ ]:[Cu ²⁺ ]:[composition] equal to 1:[0.2-1]:[0.005 -0.01]. The composition contains didecyldimethylammonium chloride, ethylene glycol and a cationic flocculant based on highly polymerized polyacrylamide at their mass ratio to each other 1:[0.3]:[0.25]. The resulting solution is kept to form a flotation complex for 10 minutes, and then the electroflotation process is carried out at pH=9-11, volumetric current density 0.1-0.3 A/l, time 15 minutes.

Analysis of the phase composition of the dispersed phase of the flotation complex based on copper compounds shows that, along with copper hydroxide, the main product of electroflotation extraction, there are compounds CuSO ₄ (OH) ₆ , Cu(OH) ₂ ⋅ CO ₃ , CuCl ₂ ⋅ Cu(OH) ₂ , Cu ₂ (OH) ₃ ⋅ NO ₃ and others.

The mechanism of the positive effect of the composition is that the cationic surfactant, which is part of it, is adsorbed on the dispersed phase of hydroxide and other copper compounds, the ξ-potential is shifted to the region of positive values to the isoelectric point, respectively, the degree of extraction of sparingly soluble copper compounds from ammonia systems.

%, где

- степень извлечения. Контроль кислотности среды осуществлялся на рН-метре марки “И-160МИ”.The extraction of sparingly soluble copper compounds from ammonia systems was carried out in a non-flow electroflotation unit with insoluble metal oxide anodes. The studies were carried out in the concentration range for metal ions from 50 to 200 mg/l at room temperature (20±2°C). A NaCl solution with a concentration of 1 g/L was used as a supporting electrolyte, which made it possible to increase the electrical conductivity. The content of organic components of surfactants was determined by the Leite bichromate method and evaluated in units of chemical oxygen demand (COD). Analysis for the content of metal ions from _ref and from _con was carried out on a KVANT-AFA atomic absorption spectrophotometer. The cleaning efficiency was evaluated by the formula:

%, Where

- degree of extraction. The acidity of the medium was controlled using an I-160MI pH meter.

The invention is illustrated by the following examples.

Example 1. In 1 l of water containing 100 mg of copper (II) hydroxide, ammonium hydroxide (NH ₄ OH) is introduced in an amount of 100 mg/l. Next, the composition is introduced at a mass ratio of [NH ₃ ⁺ ]:[Cu ²⁺ ]:[composition] equal to 1:[0.2]:[0.005]. The composition contains didecyldimethylammonium chloride, ethylene glycol and a cationic flocculant based on highly polymerized polyacrylamide at their mass ratio to each other 1:[0.3]:[0.25]. The resulting solution is kept to form a flotation complex for 10 minutes, and then fed into an electroflotation apparatus to separate the formed particles from the water being purified at a current density of 0.4 A/l. The electroflotation process is carried out for 15 minutes. After electroflotation, a water sample is taken for analysis and the content of copper (II) ions is determined.

Example 2. In 1 l of water containing 200 mg of copper (II) hydroxide, ammonium flock (NH ₄ OH) is added in an amount of 500 mg/l. Next, the composition is introduced at a mass ratio of [NH ₃ ⁺ ]:[Cu ²⁺ ]:[composition] equal to 1:[01]:[0.01]. The composition contains didecyldimethylammonium chloride, ethylene glycol and a cationic flocculant based on highly polymerized polyacrylamide at their mass ratio to each other 1:[0.3]:[0.25]. The resulting solution is kept to form a flotation complex for 10 minutes, and then fed into an electroflotation apparatus to separate the formed particles from the water being purified at a current density of 0.4 A/l. The electroflotation process is carried out for 15 minutes. After electroflotation, a water sample is taken for analysis and the content of copper (II) ions is determined.

Similar experiments are carried out at different concentrations of ammonia (NH ₃ ⁺ ) and copper (Cu ²⁺ ) ions. The results obtained are shown in table 1.

To compare the effectiveness of the known and proposed methods, wastewater treatment was carried out using the same system of electrodes, the design of the electroflotation machine, the initial concentration of ammonia (NH ₃ ⁺ ) and copper (Cu ²⁺ ) ions, and the pH of the medium. The results obtained are presented in table 2.

The effectiveness of the proposed method is due to an increase in the degree of extraction of sparingly soluble copper compounds from ammonia systems up to 93-99%, with an increase in the initial concentrations of ammonia (NH ₃ ⁺ ) up to 1000 mg/l and copper (Cu ²⁺ ) up to 200 mg/l, reducing electroflotation time from 30 to 15 minutes and, accordingly, a 2-fold reduction in energy costs.

Table 1 С(Cu ²⁺ ), mg/l The degree of extraction of sparingly soluble copper compounds in the Cu-H ₂ O-NH ₃ system, α% С(NH ₃ ⁺ ), mg/l 100 200 300 400 500 600 700 800 900 1000 50 98 99 98 97 94 94 94 93 93 93 100 98 98 98 99 99 95 95 93 95 93 150 97 96 97 97 98 95 97 94 95 94 200 98 96 97 97 97 96 96 95 94 96

С(Cu ²⁺ ), mg/l Processing time, min The degree of extraction of sparingly soluble copper compounds in the Cu-H ₂ O-NH ₃ system, α% С(NH ₃ ⁺ ), mg/l 100 250 500 1000 Way original Proposed original Proposed original Proposed original Proposed 50 5 87 94 92 95 66 88 55 85 15 95 98 96 97 72 94 60 93 thirty 94 99 97 98 72 94 65 93

table 2

Claims (1)

A method for the electroflotation extraction of sparingly soluble copper compounds from ammonia systems, characterized in that the process of electroflotation extraction proceeds when the composition is added at a mass ratio of [NH₃ ⁺]:[Cu²⁺]:[composition] equal to 1:[0.2-1]:[0.005-0.01], while the composition contains didecyldimethylammonium chloride, ethylene glycol and a cationic flocculant based on highly polymerized polyacrylamide at their mass ratio to each other 1:[0.3]:[0 ,25], and electroflotation is carried out at a current density of 0.4 A/l, pH=9-11 for 15 minutes.