RU2303198C1 - Boiler plant - Google Patents

Abstract

FIELD: heat power engineering.

SUBSTANCE: boiler plant comprises boiler whose gas duct is connected with the chimney provided with ventilated air space between the load-bearing ferroconcrete shaft and lining that defines the gas discharging passage, heat exchanger for heating air, and fan for supplying air heated in the heat exchanger to the ventilated air space in the chimney. The heat exchanger and fan underlies the gas discharging passage of the chimney. The lining and the load-bearing shaft of the chimney are provided with inlet and outlet ports. The boiler plant is additionally provided with the duct for discharging heated air from the space of the chimney to the boiler for burning fuel. The discharging duct is composed of several sections. The ring section of the duct with varying width bounds the chimney from above at a level of outlet ports and is connected with the straight section of the duct mounted on the outer side of the chimney.

EFFECT: enhanced efficiency.

3 dwg

Description

The invention relates to the field of power engineering and can be used in boiler plants in thermal power plants.

A known analogue is a boiler installation (see Ryzhkin V.Ya. Thermal power plants. - M .: Energia, 1976. P.344), containing a boiler unit, the flue of which is connected to a chimney with a ventilated air gap between the bearing reinforced concrete barrel and the lining forming a gas outlet channel, a heater for heating the air and a fan for feeding air heated in the air heater into the ventilated air gap of the chimney installed under the gas outlet channel of the chimney, while in the lining and in the bearing reinforced concrete le chimney are respectively the input and output windows. This analogue is taken as a prototype.

The reason that impedes the achievement of the technical result indicated below when using the well-known boiler plant adopted for the prototype is that in the known boiler plant, heated air from the ventilated air gap of the chimney is vented to the atmosphere.

The invention consists in the following.

To increase the efficiency of the boiler plant, it is proposed to install a box of heated air ducts consisting of several sections from the ventilated air gap of the chimney to the boiler unit for burning fuel. In this case, the initial annular section of this duct, framing the chimney outside at the level of the exit windows available in the reinforced concrete trunk, is made variable in width so that the speed of air moving through it remains constant, and is connected to a straight section of the same duct located on the outside chimney surface.

EFFECT: increased efficiency of a boiler installation by utilizing the heat of heated air removed from a ventilated air gap of a chimney.

The specified technical result during the implementation of the invention is achieved by the fact that the known boiler installation comprises a boiler unit, the gas duct of which is connected to a chimney with a ventilated air gap between the bearing reinforced concrete barrel and the lining forming the gas exhaust channel, a heater for heating the air and a fan installed under the gas exhaust channel of the chimney for supplying heated air in the air heater to the ventilated air gap of the chimney, while in the lining and in bearing reinforced concrete In the chimney, there are inlet and outlet windows, respectively. The boiler plant’s peculiarity is that it is equipped with a duct consisting of several sections to remove heated air from the ventilated air gap of the chimney to the boiler unit for burning fuel, moreover, an annular section of this duct that is variable in width, framing the chimney outside on the level of the reinforced concrete the trunk of the exit windows is connected to a straight section of the same duct located on the outer surface of the chimney.

The drawings show: Fig. 1 is a diagram of a boiler installation; figure 2 is a section aa in figure 1; figure 3 is a section bB in figure 1.

The boiler installation contains a boiler unit (not shown in the diagram), the gas duct of which is connected to the chimney 1 with a ventilated air gap 2 between the bearing reinforced concrete barrel 3 and the lining 4, which forms the gas outlet channel 5, air heater 6 installed under the gas outlet channel 5 and a fan 7 for supplying heated air in the heater 6 to the ventilated air gap 2 of the chimney 1, while in the lining 4 and in the bearing reinforced concrete barrel 3 there are, respectively, input and output windows 8 and 9, consisting of of several sections of the duct 10 for the removal of heated air from the ventilated air gap 2 of the chimney 1 to the boiler unit for burning fuel, and an annular section of the duct that is variable in width, framing the chimney 1 outside at the level of the outlet windows 9 in the reinforced concrete trunk 3, is connected with a straight section of the same duct located on the outer surface of the chimney 1.

The operation of the boiler installation is as follows.

Atmospheric air is heated in the air heater 6 and fed by a fan 7 to the ventilated air gap 2 of the chimney 1. To protect the bearing reinforced concrete barrel 3 from corrosion in the ventilated air gap 2, the fan 7 maintains a static pressure exceeding the pressure in the exhaust duct 5 over its entire height. prevents the filtration and diffusion of aggressive components contained in flue gases to the bearing reinforced concrete barrel 3. In order to avoid cracking of the lining 4, it is fed into a ventilated air the gap 2, the air is heated in the heater 6 to the required temperature, which is taken from the condition for obtaining the permissible temperature difference in the lining structure 4. From the ventilated air gap 2, the heated air through the duct 10, consisting of several sections, is discharged into the boiler unit for burning fuel. Moving along the exhaust channel 5, flue gases are vented to the atmosphere.

Thus, in the claimed solution, the heated air after the ventilated air gap of the chimney through the duct, consisting of several sections, is sent to the boiler unit for burning fuel, due to this, its heat is effectively used, which reduces the heat loss of the boiler unit, and therefore increases it Efficiency.

Claims (1)

A boiler installation comprising a boiler unit, the gas duct of which is connected to a chimney with a ventilated air gap between a bearing reinforced concrete barrel and a lining forming a gas exhaust duct, air heaters installed under the gas exhaust duct of the chimney and a fan for supplying air heated in the air heater to the ventilated air gap the chimney, while in the lining and in the bearing reinforced concrete trunk of the chimney there are respectively input and output windows, characterized in that then it is equipped with a duct consisting of several sections to remove heated air from the ventilated air gap of the chimney to a boiler unit for burning fuel, and an annular section of this duct, widthwise framing the outside of the chimney at the level of the exit windows in the reinforced concrete trunk, is connected to a rectilinear a section of the same duct located on the outer surface of the chimney.

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