UA137369U - FILTER MIXTURE FOR WATER PURIFICATION - Google Patents

Abstract

A filter mixture for water purification containing an inert polymeric material, an anion exchange resin immobilized on an anion exchange resin, a product of oxidative copolymerization of dihydroxybenzenes with natural humic substances, a mineral of silicon and a strong acid cation exchange resin.

Description

The useful model belongs to filter mixtures for complex purification or further purification of drinking or technical water from surface or underground sources of water supply, in particular centralized and non-centralized water supply.

The problem of drinking water in Ukraine is quite acute. Water from both centralized and local artesian sources does not meet the standards for drinking water and is characterized by the presence of a wide range of mineral and organic compounds, as well as their complexes.

The main problems of water from artesian wells are the presence of various forms of iron, manganese, carbonate hardness, organic substances of natural origin. Drinking water, even after centralized purification, is characterized by an increased content of iron, manganese, aluminum, organic substances of natural origin, carbonate hardness, etc.

The reason for this is insufficiently effective purification of the central water supply system using outdated equipment, a complete lack of appropriate equipment in small settlements, and repeated contamination of purified water with various impurities after passing through the system of worn water pipes, the length of which reaches tens of kilometers.

The most urgent problems in the preparation of drinking water are bringing organoleptic indicators to the norm, reducing color and turbidity, removing iron, manganese, ammonium, carbonate hardness and organic substances of natural origin.

In recent years, a number of filter mixtures for complex water purification have been developed. Ukrainian patent No. 53167 described a filter mixture for complex water purification, containing sorption material of natural origin in the amount of 5-10 wt. 9o, sorption inert polymer material in the amount of 5-10 wt. 956, low basic anionite in the amount of 4-12 wt. 95, low-base anionite, impregnated with humic substances, in the amount of 4-12 wt. 95, strongly acidic cationite - the rest.

The disadvantage of the known composition is the insufficient degree of purification of water from iron and manganese.

In 2014, Ukrainian Patent No. 112785 proposed a filter mixture for complex water purification, containing an inert polymer material, a low-base anionite, a solid-phase iron scavenger, and a strongly acidic cationite, where as a solid-phase iron scavenger, the mixture contains a product of the oxidative copolymerization of dihydroxybenzenes immobilized on a low-base anionite with natural humic substances and additionally

From flint mineral with the following ratio of components, mass. Fo: inert polymer material 4-6 low basic anionite immobilized on low basic anionite product 5-15 oxidative copolymerization of dihydroxybenzenes with natural humic substances 5-15 mineral flint 4-6 strong acid cationite the rest.

As a low-base anionite in the proposed filter mixture, anionites of the following brands were used: Yuoueh MUMA-1, Rygoye A-5 100, Rygoye A-845 and Iema MP-62, among which Iemzhai MP-62 was predominant. But this low-basic anionite is intended for laboratory use, which determines its significant cost, and accordingly, significantly affects the cost of the filter mixture and the final cost of water purification.

Considering the significant need for clean water and the possibility of access to it by broad sections of the population, there is an urgent need for effective and cheap means of water purification.

Therefore, the task of a useful model was to develop an alternative filter mixture that would have a lower cost of production and at the same time provide the same or similar degree of water purification from iron, manganese, organic compounds of natural origin, hardness salts, etc.

After careful research, it was decided to replace low-base anionites with medium-base anions, which have a much lower cost but comparable water purification properties.

The task was solved using a filter mixture for water purification containing an inert polymer material, anionite, a product of the oxidative copolymerization of dihydroxybenzenes with natural humic substances immobilized on the anionite, the mineral flint and strongly acidic cationite, where the anionite is used as an anionite with the following ratio of components, mass . 9 o'clock:

inert polymer material 4-6 moderately basic anionite 5-15 immobilized on moderately basic anionite, the product of oxidative copolymerization of dihydroxybenzenes with natural humic substances 5-15 mineral flint 4-6 strongly acidic cationite the rest.

Anions are bases and absorb negative ions and exchange them for other negative ions.

Anionites are divided into the following subtypes:

Strongly basic - can exchange ions in environments with an acidic, neutral and alkaline reaction. Low basic - can exchange ions only in environments with an acidic and neutral reaction. Medium basic anionites contain groups that are characteristic of strongly basic anionites and groups that are characteristic of weakly basic anionites.

Medium-base anionites mainly absorb anions of strong acids, but in small amounts they can also absorb anions of weak acids. Moderately basic anionites have a greater exchange capacity than strongly basic ones. Medium-base anionites have selectivity for ions of polyvalent metals, such as iron, chromium, manganese, aluminum, etc. Medium-base anions are used together with cations for water desalination.

It was decided to use the company's products as the preferred medium basic anionites

Gaphe55 Oeshi5spiapa st'n, namely: I euhaiy 5 4428 and I ema 5 4468.

These medium-base anionites are much cheaper than previously used low-base anionites, but at the same time provide a comparable quality of water purification as filter mixtures containing low-base anions.

The following ingredients were used to prepare the developed filter mixture: an inert polymeric material based on polyvinyl chloride - Rygoye IRU9, obtained from the company

Rygoije (ju.

Medium-base anionite I eulaii 5 4428 or I emshai 5 4468, obtained from the company

And aphe55 Oetsi5spiapa tn. Medium-basic anionite I euhaiy 5 4428 and anionite I euuayy 5 4468 differ only in the size of the polymer particles. I em/aiy 5 4468 is a macroporous, monodisperse, medium basic anion exchange resin (tertiary and quaternary amino groups) of food quality based on styrene-divinylbenzene copolymer. The macroporous structure and balanced connection between weakly and strongly basic groups ensures very good adsorption of organic substances (eg, dyes) and organic acids and mineral acids.

Enamel 5 4428 is a heterodisperse resin with polymer particles of different sizes.

Strong acid cationite Ieumai 5 1567, obtained from the company Gaphe55 Yueschi5spIapa

From SurtrnN.

The flint used in the filter mixture was obtained from a natural deposit of the flint mineral in the city of Kreminna, Kremenets district, Luhansk region, Ukraine, and was used in the form of a finely ground mixture with a fraction size of 1-5 mm and a density of 2.0-2 .7 g/cm3.

The product of oxidative copolymerization of dihydroxybenzenes with humic substances immobilized on a solid matrix was obtained as follows:

The initial humate in the amount of 100.00 g was suspended in 300 ml of water, 30.0 g of dihydroxybenzene was added, and then 100 ml of 30 95 H2O". Then, with constant stirring, a solution of 100 ml of 10 95 ferrous sulfate (He5O4-7H2gO) was added dropwise. The resulting solution was transferred to a flask equipped with a reflux condenser, a mechanical stirrer was introduced and heated for approximately 4 hours at a temperature of 70 °C. Then the reaction mixture was cooled to room temperature and acidified by adding 0.1 M HCl until a precipitate of modified humic derivatives was released. After several hours, the sediment was processed in a centrifuge and washed with a solution of 0.1 M NOI, and then with an excess of distilled water.The substance was isolated in solid form by drying in a vacuum cabinet at room temperature.

As humic substances, compounds containing 20-70 wt. 95 carbon, 2-10 wt. 95 hydrogen, 15-55 wt. 95 oxygen, 0-10 wt. 9o nitrogen and 0-50 wt. 95 ashes. Sometimes humic substances can contain 0-10 wt. 95 sulfur.

As dihydroxybenzenes in this useful model, hydroquinone, produced by the company Aa Aezag OtrN 4. Co., was used. KO, Germany, or pyrocatechin, produced by the Kpoaia company,

France. A mixture of dihydroxybenzenes can also be used.

To immobilize the obtained products of oxidative copolymerization of dihydroxybenzenes with humic substances, substances with anion exchange groups were used on their surface. Such substances were, for example, medium-basic anions I em/aiy 5 4428 or I em/aiy 4468. Immobilization on a solid matrix of the products of the oxidative copolymerization of dihydroxybenzenes 5 with humic substances was carried out as follows: the solid product of the oxidative copolymerization of dihydroxybenzenes with humic substances obtained by the above method was homogenized in an alkaline solution at a concentration of 2 g/l. The resulting alkaline solution was acidified to pH 7-8 using a mineral acid, for example, hydrochloric acid.

The obtained solution is used to saturate the solid matrix of the medium-basic anionite I em/aiy 5 4428 or I emlaiy 5 4468 to the level of 30 mg/ml by means of ordinary impregnation followed by drying of the obtained immobilized product.

The filter mixture, according to the useful model, was obtained by simple mixing of the components in the stated quantities under normal conditions.

Next, examples of compositions of the claimed filter mixture are given, which confirm the possibility of practical implementation of the claimed useful model.

Example 1

The filter mixture was prepared by ordinary mixing of the components using a mixer and obtained a mixture with the following composition of components, wt. 9o: inert polymer material

Rigoiye IR9 5 medium basic anionite

It is eumaii 5 4428 10 immobilized on medium basic anionite

Yi enamel 5 4428 product of oxidative copolymerization of dihydroxybenzenes with natural humic substances 10 mineral flint 5 strongly acidic cationite

Her enamel 5 1567 70

Filter mixtures of Examples 2-5 were obtained in the same way as Example 1.

Example 2 inert polymer material

Rigoiye IR9 5 medium basic anionite

It is eulay 5 4468 10 immobilized on medium basic anionite

Enamel 5 4468 product of oxidative copolymerization of dihydroxybenzenes with natural humic substances 10 mineral flint 5 strongly acidic cationite

It is 5 1567 70

Example C is an inert polymer material

Rigoiye IR9 5 medium basic anionite

Eulay 5 4468 5 is immobilized on medium basic anionite

Enamel 5 4468 product of oxidative copolymerization of dihydroxybenzenes with natural humic substances 15 mineral flint 5 strongly acidic cationite

It is 5 1567 70

Example 4 inert polymer material

Rigoiye IR9 5 medium basic anionite I em/aiy 5 4468 15 immobilized on medium basic anionite

Enamel 5 4468 product of oxidative copolymerization of dihydroxybenzenes with natural humic substances 5 mineral flint 5 strongly acidic cationite

It is 5 1567 70

Example 5 inert polymer material

Rigoiye IR9 5 medium basic anionite

I eulay 5 4468 15 is immobilized on medium basic anionite

Enamel 5 4468 product of oxidative copolymerization of dihydroxybenzenes with natural humic substances 8 mineral flint 5 strongly acidic cationite

Her enamel 5 1567 67

Tests of mixtures for the degree of water purification obtained according to Examples 1-5 were carried out by passing water in the direction from top to bottom through a device in the form of a cylinder filled with a filter mixture according to Examples 1-5 and equipped with inlet and outlet nozzles. The water flow rate through the device was from 1 to 10 l/min.

The obtained results of water purification measurements are given in Table 1.

The research used water that had the following indicators of pollution before cleaning. ZZh (total hardness) - 7.3 mmol/l; PO (permanganate oxidizability) - 7.8 mg/l;

Ee - 3.4 mg/l; Mp - 1.3 mg/l; AI - 0.1 mg/l; Ne5 - 0.1 mg/l.

Table 1

Characteristics of purified water 71. 03 | 33 | 01 | "005 | 001 | 00 772 | 01 | 32 | 009 | "005 | 002 | 00 3 | 005 | 29 | 006 | "005 | 00 | 00 74 | 02 | with | 008 | "005 | 001 | 00 75 | oh 32 | 008 | "005 | 00 | 00

All of the above compositions provide high quality purified water and fulfill the task. The composition according to Example 3, containing immobilized on medium basic anionite

Eulaii 5 4468, a product of oxidative copolymerization of dihydroxybenzenes with natural humic substances and the medium-basic anionite I eulaii 5 4468 in a ratio of 3:11 provides high efficiency of water purification in all parameters, which are similar to the data obtained with previously proposed filter mixtures.

Claims (4)

USEFUL MODEL FORMULA 1. A filter mixture for water purification containing an inert polymer material, anionite immobilized on anionite, a product of the oxidative copolymerization of dihydroxybenzenes with natural humic substances, flint mineral and strongly acidic cationite, which is characterized by the fact that the anionite is used as an anionite with the following ratio of components, mass 9: inert polymer material 4-6 moderately basic anionite, 5-15 immobilized on moderately basic anionite, the product of oxidative copolymerization of dihydroxybenzenes with natural humic substances 5-15 mineral flint 4-6 strongly acidic cationite, the rest. 2. The filter mixture for water purification according to claim 1, which differs in that the medium basic anionite is selected from I enamel 5 4428 or I eugaii Z 4468. 3. The filter mixture for water purification according to claim 1, which is characterized by the fact that it contains polyvinyl chloride as an inert polymer material. 4. The filter mixture for water purification according to claim 1, which is characterized by the fact that it contains cationite of the Hemaiyy 5 1567 brand as a strongly acidic cationite.