RU2764160C1 - Diaphragmatic electrolyser - Google Patents

Abstract

FIELD: electrolysis.SUBSTANCE: invention relates to a diaphragmatic electrolyser containing a body, a cathode and an anode separated by a porous diaphragm and connected with a voltage source. The electrolyser is characterised by the fact that the body is made in the form of a cylinder; the cathode is made in the form of a stainless steel plate and installed along the inner wall of the body; the anode is placed in the centre of a cylindrical container of a smaller diameter installed coaxially inside the body, holes are made on the side wall of the container, and a fabric is placed along the surface, serving as a porous diaphragm; the body and the container are made of a material, corrosion-resistant to hexavalent chromium.EFFECT: increase in the quality of purification of waste water from hexavalent chromium.4 cl, 1 dwg, 1 tbl, 1 ex

Description

The invention relates to devices for the purification of waste and natural waters from hexavalent chromium and can be used for the purification of galvanic wastewater from machine-building plants, in various industries, including mining, chemical, etc.

There are a number of devices and methods for cleaning wastewater from hexavalent chromium, such as: reagent method, biochemical, electrochemical, sorption, combined, etc. However, the above standard methods for cleaning solutions from hexavalent chromium are accompanied by a number of disadvantages, such as: a significant consumption of metal soluble anodes , passivation of anodes, the need for large excesses of the reagent (iron salts), large amounts of sediment and the complexity of its dehydration, the high cost and scarcity of sorbents, high consumption of reagents, long-term settling of water.

Known electroactivator for wastewater treatment, including a housing made in the form of a rectangular container with a partition placed in it, anode electrodes and cathodes with current leads, inlet and outlet pipelines. The baffle is made semi-permeable from a dense tarpaulin and is placed in a tank at the beginning of the start-up of galvanic wastewater, and the anodes and cathodes are installed vertically in front of the baffle and after it in the direction of movement of galvanic wastewater from the inlet pipeline to the outlet pipeline with the possibility of forming acidic galvanic wastewater in front of the baffle, and after the baffle - alkaline (RF patent for utility model No. 144016).

Known electric activator for wastewater treatment using two partitions, the first - along the electric activator, made of thick tarpaulin, the second - perforated partition, installed at the beginning of the tank housing, and the anode and cathode with current leads are installed on both sides along the first partition in the direction of movement of electroplating to the discharge pipeline after electroactivation of galvanic wastewater (RF patent for utility model No. 144 069).

Known household diaphragm cell (RF patent for the invention No. 2344996) for water purification. The electrolyzer contains two porous diaphragms dividing the space of the body-vessel into three chambers: cathode, intermediate and anode, the distance between the porous diaphragms is chosen to be greater than the distance that the fastest cations, detached by the electric field from the surface of the anode electrode. The technical effect is to improve the quality of the catholyte. The invention is selected as a prototype.

The disadvantages of the above technical solutions are the complexity of manufacturing and cumbersome installations; labor intensity, insufficient degree of purification and duration of wastewater treatment processes, high energy costs.

The technical problem of the present invention is to improve the quality of wastewater treatment from hexavalent chromium.

The technical problem is solved due to the fact that the diaphragm cell contains a housing, a cathode and an anode, separated by a porous diaphragm, connected to a voltage source, while the housing is made in the form of a cylinder; the cathode is made in the form of a stainless steel plate and is installed along the inner wall of the housing; the anode is located in the center of a cylindrical container of smaller diameter, coaxially installed inside the body, holes are made on the side wall of the container, and a fabric is placed along the surface, which acts as a porous diaphragm; body and container are made of corrosion-resistant material to hexavalent chromium.

The analysis of the state of the art carried out by the applicant, including searching through patent and scientific and technical sources of information and identifying sources containing information about analogues of the claimed invention, made it possible to establish that the applicant did not find a source characterized by features identical to all essential features of the claimed invention. Therefore, the claimed invention meets the condition of "novelty".

The essence of the invention is illustrated by drawings, where in Fig. 1 shows the experimental installation of a diaphragm electrolyzer in the section.

In addition, the results of experimental testing for water purification from hexavalent chromium are given in the table, which shows the total chromium content in samples of chromium-containing liquid before and after purification.

Diaphragm electrolyzer is a set of cylindrical containers made of corrosion-resistant to hexavalent chromium material (stainless steel, ceramics, polymeric material, etc.) installed coaxially. Along the inner wall of the outer container 1, which is the body of the electrolyzer, there is a cathode 2 made of stainless steel - a material with corrosion resistance. Cathode 2 is a plate that repeats the shape of the housing. Numerous holes 4 are made on the side wall of the inner container 3, the diameter of the holes is chosen arbitrarily. The total area of the holes does not exceed 30% of the surface area of the container, because its excessive increase affects the decrease in the rate of diffusion of chromium ions during electrolysis. The distance between the holes and their diameter can be different. A graphite anode 6 is located in the center of the small capacity 3. Fabric 5 is placed along the surface, which acts as a diaphragm. As such a fabric, a material that is porous and resistant to hexavalent chromium, for example, tarpaulin or lavsan, is chosen.

Distance L between anode 6 and cathode 2 is a multiple of the chromium anion migration path per unit time t (s).

t = L / (1.3⋅E⋅b),

where E \u003d 2.04 V / cm is the electric field strength between the electrodes in the liquid,

b [CrO ₄ ] ^2- = 0.00074 cm ² / (s V) - anion mobility,

An example of the practical application of the invention.

The testing was carried out on an experimental setup. The outer diameter of the container is 1-114 mm, the inner diameter is 106 mm; container diameter 3 - 70 mm. Cathode 2 is made in the form of a stainless steel plate 12X18H10T; plate height - 105 mm, plate thickness - 1 mm. The diameters of twenty-one holes on the side wall of the container are 3-10 mm each, the diameters of two hundred and eighty small holes are 4 mm each. The diameter of the graphite anode is 6-12 mm. The volume of the poured solution is 0.65 l. A direct current source is used to connect the electrodes. To register the parameters of current and voltage on the electrolyzer, devices are used - multimeters FLUKE 179 and MASTECH MY-67.

The calculation of the electrolysis time was carried out according to the formula:

1.3⋅Е⋅b⋅t⋅≥ L ≥ 1.0⋅E⋅b⋅t, (1)

where: E is the electric field strength between the electrodes in the liquid, V/cm;

b is the anion mobility, cm ² V– ¹ s– ¹ ;

t - electrolysis time, s;

L is the distance equal to the anion migration path, see

From expression (1), the electrolysis time was determined, during which all chromium anions move from the cathode space to the anode space.

t = L / (1.3⋅E⋅b), (2)

at L = 4 cm; E = 2.04 V/cm; b [Cr O ₄ ] ^2- = 0.00074 cm ² / (s⋅B)

t = 29 min.

Work example

Cleaning of galvanic drains from hexavalent chromium was carried out on the water of the electroplating shop, taken from the bath with washing water, following the chromium plating bath with a chromium-containing solution in the production (coating) of aircraft parts.

The electrolyzer is filled with a chromium-containing solution in a volume of 0.65 liters. The electrodes are connected to a direct current source. When a voltage of 10V is applied to the electrode terminals with a current strength of 0.27-0.29 A, under the influence of an electric field, chromium anions migrate from the cathode chamber Vk (the space formed between the walls of containers 1 and 3) into the anode Va (the space inside the container 3). The concentrations of chromium anions were determined by atomic absorption spectroscopy. The average value of the migration path of the chromium anion, based on the size of the diaphragm electrolyzer, is 4 cm.

As can be seen from the table, when electrolysis is carried out for a time equal to 29 min. the degree of purification is 96%.

A method for cleaning electroplating waste from hexavalent chromium using the proposed technical solution ensures the achievement of a technical result - an increase in the degree of purification, namely, a degree of purification of more than 90% with low power consumption.

Diaphragm electrolyzer

table

Duration of the experiment, min. The concentration of chromium in the original solution, mg / dm ³ The concentration of chromium in the anolyte, mg / dm ³ The concentration of chromium in the catholyte, mg / dm ³ Purification degree of catholyte, % 15 7.0 12.9 1.09 84.4 twenty 13.3 0.62 91.1 29 13.3 0.29 95.86

Claims (4)

1. Diaphragm cell containing a housing, a cathode and an anode separated by a porous diaphragm, connected to a voltage source, characterized in that the housing is made in the form of a cylinder; the cathode is made in the form of a stainless steel plate and is installed along the inner wall of the housing; the anode is located in the center of a cylindrical container of smaller diameter, coaxially installed inside the body, holes are made on the side wall of the container, and a fabric is placed along the surface, which acts as a porous diaphragm; body and container are made of corrosion-resistant material to hexavalent chromium. 2. Diaphragm cell according to claim 1, characterized in that the body and container are made of stainless steel, ceramics or polymeric material. 3. Diaphragm cell according to claim 1, characterized in that the fabric that performs the function of the diaphragm is a porous and resistant to hexavalent chromium material, such as tarpaulin or lavsan. 4. Diaphragm cell according to claim 1, characterized in that the total area of the holes of the side surface of the container does not exceed 30% of its area.

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