RU1781527C - Method of cleaning heat exchange surfaces - Google Patents

Abstract

The invention relates to energy, in particular to methods for cleaning heat-exchanging surfaces, for example, in turbine condenser process water systems. The goal is to increase the efficiency of cleaning the heat exchanger with cooling water. A method for cleaning contaminants from pollution uses a gas-saturated water solution. New in the method is the use of saturation of water with air gases by spraying it at a low ambient temperature and the evolution of gases on a heat exchange surface while maintaining the water temperature from 0 to 10 ° C.

Description

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The invention relates to energy, in particular to methods for cleaning heat exchange surfaces, for example, in turbine condenser process water systems.

A known method for cleaning heat transfer surfaces by supplying a gas-liquid medium in a bubble flow mode to the surface being cleaned. A known method of flushing a pipe by supplying a gas-liquid stream under pressure therein.

A known method for periodically cleaning the inner surface of heat exchanger tubes and a device for its implementation by applying a gas-liquid stream to the inlet in a mixture with treatment elements.

These methods include the use of abrasion

deposits by interface surfaces of air bubbles dispersed in a liquid.

The closest technical solution is a method for cooling process water in spray tanks.

However, the known method has the following disadvantages. When operating the system with spray pools, a mode is not provided that facilitates cleaning of the heat exchange surfaces of the equipment included in this system from pollution. Also, as a rule, spray basins are not used to cool the circulation water of turbine condensers.

The aim of the invention is to increase the cleaning efficiency of heat transfer surfaces, and as a result, increase the reliability and efficiency of the heat exchange equipment.

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Joint venture

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The proposed method for cleaning contaminants from pollution is carried out as follows.

In the winter water supply system, a spray pool is included for the cleaning period. The spray water contacts the surrounding air, cools and saturates it with gases. This water is supplied from the spray pool to a cleaned heat exchanger. Here, when heated, previously dissolved gases in the form of bubbles are released from water on the heat exchange surface. Due to the difference in the energies of surface bubbles and gas bubbles in the water stream when they are separated from the heat exchange surface, this energy in the form of a shock wave acts on the destruction of deposits.

Spraying process water at temperatures from zero to 10 ° C leads to an increase in dissolved volumes of gases and, accordingly, their release on the cleaned heat-exchange surface is 1.5-2.0 times more than in other modes.

The use of the proposed method of cleaning heat exchange surfaces from pollution provides in comparison with

existing methods the following advantages. More efficient effect of the released energy on the destruction of deposits due to the formation of

gas bubbles directly on the surface of the sediment. The use of a mechanism for shifting the equilibrium of gas solubility due to heating of the water flow is most realistic for implementation in heat exchanger / process water systems and allows cleaning of equipment without stopping, including turbine condensers. Lowering the temperature of the cooling water in the spray pool to values from zero to 10 ° C corresponds to the maximum solubility of gases and causes maximum cleaning efficiency.

Claims (1)

The claims A method for cleaning contaminants from heat exchange surfaces, comprising cooling water in a spray pool, saturating it with gas and then supplying gas-saturated water to a heat exchanger, characterized in that. in order to increase the cleaning efficiency, the temperature of the cooling water is maintained in the range from 0 to 10 ° C.