SU991129A1 - System for cleaning heat exchanger pipes - Google Patents

Description

The invention relates to heat engineering, namely to cleaning the tubes of a heat exchanger, mainly condensers.

The known system for cleaning the tubes, for example ^5, a heat exchanger which comprises a heat exchanger connected to the circulation - with pressure circuit and the drain water conduits, filter and magist- _f ral compressed gas, e.g., air. connected to the heat exchanger on the pressure side of the duct. A battery and _{| 5} pump for feeding a fine-grained additive from the battery into the circuit. In front of the pump. a gas-liquid separator with a level regulator is installed. A compressed gas, such as air, line is connected to the battery outlet in front of the discharge conduit, in which the flow of the fluid, gas, such as air is mixed [1 J. _

A disadvantage of the known system is that it does not provide equally high-quality cleaning of all the tubes of the heat exchanger, since the water-air mixture formed in the pressure pipe is supplied by it to the water chamber of the heat exchanger and is distributed unevenly throughout it. Most of the air with such a system for supplying the air mixture to the water chamber enters the tubes located near the discharge water duct, and either less air or one water flows through the remaining tubes, respectively, they are not cleaned efficiently enough.

The purpose of the invention is to increase the cleaning efficiency by creating a uniformly distributed throughout the tube bundle water-air flow.

This goal is achieved by the fact that in the system for cleaning tubes, a heat exchanger containing a pressure pipe connected to it AND a compressed gas line, the compressed gas line has a

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perforated tubes installed inside the heat exchanger behind the inlet of the pressure pipe.

Connecting perforated tubes to the compressed gas line allows _{5 to} disperse the flow of exhaust gas, and installing them behind the inlet of the pressure pipe to the heat exchanger allows air bubbles to be evenly distributed over the entire volume of liquid located in the water chamber of the heat exchanger, which ensures equally high-quality cleaning of all tubes at the same time. heat exchanger.

In FIG. 1 shows a system for cleaning heat exchanger tubes; in FIG. 2 is a view A in FIG. 1.

The cleaning system consists of perforated tubes 1 connected to the compressed air line 2 and installed behind the inlet of the pressure pipe 3 into the water chamber 4 of the heat exchanger 5. The compressed air line 2 is equipped with a check valve 6 and a gate valve 7. 25

The system for cleaning the tubes of the heat exchanger without shutting it down from operation works as follows.

Open the valve 7 of the compressed air line 2 and the air enters the perforated tubes 1. Through the openings in the tubes 1, the air enters the water chamber 4 of the heat exchanger 5 and mixes with the liquid, which is supplied to the heat exchanger 4 by a pressure pipe 3 ”The resulting water-air mixture enters all tubes and removes deposits from their surface.

Heat exchanger tubes are cleaned continuously.

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The proposed system for cleaning the tubes of the heat exchanger increases the efficiency of cleaning the tubes by creating a uniformly distributed throughout the tube bundle water-air flow. In addition, the possibility of continuous cleaning of the tubes of the proposed system allows you to keep the tubes constantly clean, which helps to maintain a normal working vacuum in the heat exchanger for a rather long time.

The proposed system provides a cleaning efficiency sufficient for the normal operation of the heat exchanger, for example a condenser, this allows you to abandon the known system that uses a large number of elements. The proposed system is simple in design and easy to operate.

Claims (1)

(54) SYSTEM FOR CLEANING THE PIPES OF HEATER LOADERS The invention relates to heat engineering, in particular to cleaning the heat exchanger tubes, mainly the condensers. A known system for cleaning tubes, for example, a heat exchanger, which is connected to a heat exchanger circulation circuit — a circuit with pressure and drain conduits, a filter and a compressed gas line, for example, air. connected to the heat exchanger from the side of the pressure conduit. Between the pressure and drain conduits are connected in parallel to the heat exchanger, an accumulator and a pump for feeding the fine-grained additive from the accumulator into the circuit. In front of the pump, a gas-liquid compressor is installed with a level regulator. A compressed gas, for example, air line is connected to the outlet of the battery in front of the porous pipe, which mixes the flow of liquid with gas, for example, air G1 J. A disadvantage of the known system is that it does not ensure the same quality cleaning of all tubes of the heat exchanger, since the water / air mixture formed in the discharge pipe is fed into the water chamber of the heat exchanger and is distributed unevenly throughout the entire volume. With this air supply system, most of the air into the water chamber enters the pipes located near the pressure conduit, and through the other pipes either less air or one water flows, respectively, they are not efficient enough. The purpose of the invention is to increase the cleaning efficiency by creating an even water flow that is distributed throughout the tube bundle. This goal is achieved by the fact that in a system for cleaning tubes, a heat exchanger containing a pressure conduit and a compressed gas pipeline, and a compressed gas pipeline has perforated tubes installed inside the heat exchanger behind the inlet of the pressure conduit. Connecting perforated tubes to the compressed gas line allows the outflow of the outgoing gas to be dispersed, and installing them behind the inlet of the pressure pipe into the heat exchanger allows air bubbles to evenly distribute throughout the entire volume of liquid in the heat exchanger water chamber, which ensures equally high-quality cleaning at the same time of all tubes of the heat exchanger. FIG. 1 shows a system for cleaning heat exchanger tubes; in fig. 2 — view A in FIG. 1. The cleaning system is perforated tubes 1 connected to the compressed air line 2 and installed behind the inlet of the water line 3 to the water chamber 4 of the heat exchanger 5. The line 2 of the compressed air is provided with a check valve 6 and slide valve 7. The system for cleaning the tubes of the heat exchanger without shutting it down from work works as follows. The valve 7 of the compressed air line 2 is opened and the air enters the perforated tubes 1. Through the holes in the tubes 1, the air enters the water chamber 4 of the heat exchanger 5 and mixes with the mixer, which is fed into the heat exchanger 4 by the pressure water conduit 3. The resulting water-air mixture enters all tubes and removes deposits from their surface. The heat exchanger tubes are cleaned continuously. O 6 The proposed system for cleaning the heat exchanger tubes increases the cleaning efficiency of the tubes by creating an air-flow stream evenly distributed throughout the tube bundle. In addition, the possibility of the continuous cleaning of the tubes by the proposed system makes it possible to keep the tubes constantly clean, which helps to maintain the normal working vacuum in the heat exchanger for quite a long time. The proposed system ensures the efficiency of cleaning the tubes sufficient for normal operation of a heat exchanger, for example a condenser, this allows one to abandon the known system using a large number of elements. The proposed system is simple in design and convenient to operate. Claims The system for cleaning heat exchanger tubes containing a pressure conduit connected to it and a compressed gas pipeline, characterized in that, in order to increase the cleaning efficiency by creating a gas-inlet flow stream uniform over the heat exchanger section, the compressed gas pipeline has perforated tubes that are installed. inside the heat exchanger behind the inlet of the pressure conduit. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 63,1102, cd. F 28 G 9 / OO, 1977. Bu9a 7V