RU62688U1 - PRE-HEATING SECTION - Google Patents

Abstract

The utility model relates to the field of heat transfer technology and can be used in ventilation and air pre-heating systems in front of an air heater in power boilers using water vapor. The proposed utility model is aimed at simplifying the design, eliminating the likelihood of water hammer occurring during operation, which leads to an increase in the service life of the section and the possibility of changing the operating mode. The problem is solved in that in the section for preheating the air containing the inlet and outlet chambers located vertically, the heat-releasing elements made in the form of tubes with fins resting on special combs welded to the corners, as well as deflectors, the inlet and outlet chambers, are made in in the form of two inlet and two outlet chambers having a circular cross-section, providing one-way movement of the heating coolant, in which the ends of the heat-releasing elements are made, made in the form of finned x pipes, and the pipes are installed horizontally, resting on combs welded to the vertical posts, which are spacing elements and increase the rigidity of the structure, the non-finned part of the pipes is closed by deflectors, the inlet and outlet chambers are fixed by mounting scarves, ensuring their relative positioning. The heat-releasing elements are made of bimetallic steel with fins made of metal with a coefficient of thermal conductivity not lower than the coefficient of thermal conductivity of steel.

Description

The utility model relates to the field of heat transfer technology and can be used in ventilation and air pre-heating systems in front of an air heater in power boilers using water vapor.

Known air heater containing a housing with two groups of pipes placed inside, each of which is connected to the distributing and collecting compartments of the collectors located on the side walls of the housing and equipped with bypass compartments. On each side wall there are collectors of only one group of pipes, the distributing compartment of each group is located at the end of one collector, and the collecting one is located at the opposite end of the other collector. Each pipe is made serpentine and with external fins [1].

The disadvantage of this is the design complexity and metal consumption.

The closest in technical essence and technical task is the finned coil section, containing inlet and outlet chambers arranged vertically, heat-releasing elements made in the form of tubes with fins, supported by special combs that are welded to the corners, and also containing bends and tubers of finned tubes made smooth and closed by deflectors [2].

A disadvantage of the known one is the complexity of operation and changing the operating mode of the section in connection with the two-way execution of the design along the heating coolant.

The proposed utility model is aimed at simplifying the design, eliminating the likelihood of water hammer during operation, leading to an increase in the life of the section, the possibility of changing the operating mode.

The problem is solved in that in the section for preheating the air, containing the inlet and outlet chambers arranged vertically, heat transfer elements made in the form of tubes with fins, resting on special combs welded to the corners, as well as deflectors, according to the proposed utility model, the inlet and the outlet chamber is made in the form of two inlet and two outlet chambers having a circular cross-section, providing a one-way movement of the heating fluid, in which the ends of the heat transfer are fixed elements made in the form of finned tubes, the tubes being installed horizontally, resting on welded to vertical posts

combs, which are spacers and increase the rigidity of the structure, the non-finned part of the pipes is closed by deflectors, the inlet and outlet chambers are fixed with mounting scarves, ensuring their relative position. The heat-releasing elements are made of bimetallic steel with fins made of metal with a coefficient of thermal conductivity not lower than the coefficient of thermal conductivity of steel.

The implementation of two inlet and two outlet chambers, providing a one-way movement of the heating coolant, will eliminate the likelihood of water hammer during the operation of the section, which leads to an increase in its service life. The section can be operated as an independent product in ventilation or air heating systems. If necessary, sections are welded vertically in the panel. The presence of combs prevents vibration during operation of the section. Mounting kerchiefs facilitate assembly of the section in the panel and their transportation.

Figure 1 - shows a General view of a section of preheating air. On a section aa, figure 1 is an image of a comb.

The air pre-heating section of Fig. 1 contains two inlet 1 and two outlet 2 chambers having a circular cross section, in which the ends of the heat-releasing elements are fixed, made in the form of finned tubes 3 mounted horizontally, resting on the combs 5 which are welded to the vertical posts 4, which are distance elements and increase the rigidity of the structure, the non-finned part of the pipes 3 is closed by deflectors 6, the inlet 1 and outlet 2 chambers are fixed with mounting kerchiefs 7.

Section preheating air works as follows.

In each of the two inlet chambers 1, the coolant is supplied from above, which enters the horizontal pipes 3, the steam condenses in the pipes 3 and is discharged through two outlet chambers 2, while a one-way movement of the coolant is provided in each of the outlet chambers 2, from which it is removed from below to the system condensate collection. The air flow is laterally supplied and passed into the space between the pipes, due to contact with them it heats up and preliminary heating is provided.

List of references

1. A.C. 1384892 F 24 H 3/08. Heater

2. RU Utility model 30960 OJSC “Calorifer Plant” Section finned coil.

Claims (2)

1. Section pre-heating the air, containing the inlet and outlet chambers arranged vertically, heat transfer elements made in the form of tubes with fins, resting on special combs welded to the corners, as well as deflectors, characterized in that the inlet and outlet chambers are made in the form two inlet and two outlet chambers having a circular cross-section, providing a one-way movement of the heating coolant, in which the ends of the heat-releasing elements are made, made in the form of finned tubes, and the loss units are installed horizontally, combs welded to vertical posts, which are spacing elements and increase the rigidity of the structure, the non-finned part of the pipes is closed by deflectors, the inlet and outlet chambers are fixed by mounting scarves, ensuring their relative position. 2. The air pre-heating section according to claim 1, characterized in that the heat-releasing elements are made of bimetallic steel made with metal fins with a coefficient of thermal conductivity not lower than the coefficient of thermal conductivity of steel.