UA75461C2 - Method for removal of secondary scale deposit from tubular heat exchangers on the boiler rooms with physical water treatment - Google Patents

Abstract

The method for removal of secondary scale deposit from tubular heat exchangers on the boiler rooms with physical water treatment is proposed, including operation of closing the access of heat-transferagent in the heat exchanger of water-heating boiler with the help of the inlet and outlet gates, disconnection from the inlet to the heat exchanger of connecting branch. In this case, to the outlet of heat exchanger a washing connection with the hose is connected, second end of the hose is immersed into the washing container, then the outlet gate is sharply opened for a short time interval, after which it is sharply closed, while observing in the washing container the consistency of water, which is entered, the washing is repeated by opening-closing the outlet gate until complete cleaning of the wash water.

Description

Description of the invention

The invention relates to the field of cleaning heat exchange equipment: heat exchangers, water heaters, water 2 boilers, steam condensers, as well as those industrial sectors related to the evaporation of water from solutions.

A known means of protection using a liquid treatment device with the effect of using magnets, containing a magnetic system in the form of an empty cylinder with rectangular magnets fixed on its walls along the longitudinal axis, located between the ends of the inlet and outlet nozzles, while the walls of the nozzles are located in the middle casings made of perforated |11. 70 However, as the operation of such devices shows, magnetic treatment of the liquid alone is not always enough. In cases where the heat exchanger has a low flow rate, secondary scale may form.

Known as a prototype, a means of cleaning surfaces from various types of deposits and a device for its implementation, in which the surface to be cleaned is subjected to local elastic deformation by separate mechanical 12 pulses with an amplitude of oscillations no more than permissible in terms of mechanical stress, or extreme in terms of fatigue, or cyclic strength (21.

However, this method has the disadvantage that the boiler equipment experiences vibrations, which, ultimately, can reduce the service life.

The problem solved by the proposed invention is the cleaning of tubular heat exchangers from secondary scale in boiler rooms with physical water treatment.

To achieve this result, the access of the coolant to the heat exchanger of the water heating boiler is blocked with the help of inlet and outlet valves, the connecting pipe is disconnected from the inlet to the heat exchanger, a flushing fitting with a hose is attached to its place, the other end of the hose is lowered into the flushing tank, and then suddenly for a short time, boiler water is supplied to the heat exchanger by opening and closing the outlet valve, from 29 repeat washing until the washing water becomes clear. Go)

The drawing, as an example, schematically shows a fragment of a boiler room with a MH-120 heating module, the heat exchanger of which is cleaned by the proposed method. The fragment of the boiler room contains the network collector 1, the input 5 and output 2 modular collectors are connected to it, to which the heat exchanger 4 of the water heating boiler 11 is connected. The input 9 and output Z valves are designed to cut off the heat exchanger 4 from the heat network collector 1. During operation of the boiler, water is supplied to the heat exchanger 4 by the pump 10 through the connecting pipe "o b" and the inlet valve 9. The water heated in the boiler 11 flows through the output modular manifold 2 and the output valve Z into the same common manifold 1. The flushing fitting with the hose 7 and the flushing With a capacity of 8. oyu

The method of cleaning tubular heat exchangers on the specified system is implemented as follows. As can be seen from drawing 325, the input 5 and output 2 modular collectors are connected to the common collector 1 in places B and C, between which, as a rule, there is practically no pressure difference. Due to this, the flow of the heat carrier through the heat exchanger 4 is provided only by the pressure created by the boiler pump 10. The boiler pump 10 is selected in terms of performance from the condition of such a flow of the heat carrier in the heat exchanger, which ensures optimal heat transfer and the maximum efficiency. Unfortunately, this flow is not sufficient in speed for Z 70 complete removal of sludge formed during physical water treatment, due to which secondary scale is formed. c Secondary scale has the form of thin fragile petals of the mineral aragonite, formed on the inner

From" the surface of the heat exchanger. These petals, falling off, form plugs with openings that reduce the flow of water in the coolant, which further contribute to the formation of secondary scale.

To remove it according to the proposed invention, it is necessary to block the access of the heat carrier to the heat exchanger, for which 49 close the inlet 9 and outlet Z valves, after which remove the connecting pipe 6. In its place, connect the flushing fitting with the hose 7 at the place of disconnection of the connecting pipe 6. The second the end of the washing hose 4! lower into the washing tank 8. Next, to supply boiler water for washing the heat exchanger, sharply open and close the outlet valve 3. The washing time is 1-3 seconds, repeating the operation - 1-3 times. shk Now, when the outlet of the heat exchanger is connected to the atmosphere, the pressure drop in the heat exchanger is equal to the pressure in

Ge) 50 boiler rooms, i.e. 2-3 kgf/cm, which may be enough to wash out of the heat exchanger the plug formed by thin aragonite petals and aragonite ashes from the inner surface of the heat exchanger.

The washing operation must be carried out until the washing water becomes clear, because during washing, not only the plug is removed from the heat exchanger, but also the secondary scale that settled inside and did not have time to form petals. 59 Using the method of cleaning tubular heat exchangers when applying physical water treatment according to

GF) of the proposed invention forms a technology of water preparation and operation of boiler houses that does not require 7 chemical reagents to soften boiler water, acids for washing, that is, it is environmentally friendly, much cheaper, does not require electricity and is very simple to operate.

Sources of information 60 1. Patent KU 20100110 C1, 02 E1/48, published 30.03.94 2. Patent KU 2153403 C1, 78088, 7/02, published 22.12.02.

Claims (1)

The formula of the invention b5 The method of cleaning tubular heat exchangers from secondary scale in boiler rooms with physical water treatment, which includes the operation of blocking the access of the heat carrier to the heat exchanger of the water heating boiler with the help of inlet and outlet valves, disconnection of the connecting pipe from the inlet to the heat exchanger, which differs in that a flushing valve is connected to the outlet of the heat exchanger a fitting with a hose, the other end of which is lowered into the washing container, the outlet valve is sharply opened for a short period of time, after which it is also sharply closed, the consistency of the incoming water is observed in the washing container, the washing is repeated by opening and closing the outlet valve until the rinse water will not become light. 6) «- (Se) « IF) and - - and? -and 1 sh» (o) - name) 60 b5