RU2109565C1 - Elementary mercury absorber - Google Patents

Abstract

FIELD: water treatment. SUBSTANCE: to absorb elementary mercury when treating water, electron-ion-exchanger is used constituting copper-modified cationite-based sorbent. EFFECT: facilitated removal of mercury. 2 tbl

Description

 The invention relates to the field of water purification from impurities, in particular to materials used for the purification of high purity water used in the energy sector, as well as in the electronic, medical, and other branches of science and technology, for example, from elemental mercury.

 Known ion-exchange materials for cleaning the water coolant of power plants from impurities (for example, anion exchange resin AV-17-8hs and cation exchanger KU-2-8hs) [1]. These materials are ineffective in the removal of mercury in elemental form.

 Activated carbon and activated carbon impregnated with silver are known [1-3]. The first does not provide irreversible absorption of mercury, the second is more expensive.

 The aim of the invention is to increase the efficiency of absorption of elemental mercury from high purity water, reducing costs and the primary area of its use.

 This goal is achieved by using the well-known electronic ion exchanger EI-21 for the first time as a mercury scavenger, for example, in the purification of aqueous media of power plants.

 Electron-ion exchanger EI-21 (OST V5.4377-82, TU-113-12-146-82) is a modified sorbent based on cation exchange resin containing metallic copper. In the practice of operating power plants, the EI-21 electronic exchanger is used to deoxygenate high purity water in the processes of water treatment and a water coolant under an uncorrected water-chemical regime.

 The appearance of mercury in high purity water can only be associated with random events. Thermodynamic calculations and experiments to determine the forms of existence of mercury have shown that, for example, under conditions of uncorrected and reducing water-chemical regimes, mercury is in an aqueous medium in an elemental (metallic) form. Depending on temperature and other conditions, mercury is distributed between the aqueous and gas-vapor phases and the surfaces of structural materials.

 The need for mercury removal is due to: the potential danger of mercury initiating corrosion damage to some structural materials (titanium, aluminum and alloys based on them); volatility and high toxicity of mercury.

 Example 1. It was experimentally established that when water containing metallic mercury is passed through a layer of an ion exchanger, mercury is absorbed by the sorbent. High purity water was previously brought into contact with metallic mercury, in which, immediately before passing through the EI-21 layer, the analytical concentration of mercury was determined by atomic absorption spectroscopy. The experimental results are given in table. 1 It can be seen from them that the analytical concentration of mercury in the water behind the filter is significantly lower than the maximum permissible concentration (MPC = 0.5 μg / kg) for discharge into open water bodies.

Example 2. The water coolant of a power plant contaminated with mercury was passed through an ion-exchange filter filled with an EI-21 electron-ion exchanger. The volume of the missed coolant was 6 m ^3. The concentration of mercury in the coolant was ≈ 20 μg / kg. At the output, the mercury content was monitored. The purified heat carrier corresponded to the water quality standards of power plants. The results are presented in table.2.

The use of the well-known electron-ion exchanger EI-21 as an absorber of elemental mercury from an aqueous heat carrier in comparison with known sorbents provides the following advantages:
effective irreversible absorption of mercury;
the possibility of returning the cleaned coolant directly to the circuit for its intended use.

Claims (1)

 The use of the EI-21 electron exchanger as an absorber of elemental mercury in water treatment.

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