RU2100711C1 - Flue gas cooling plant - Google Patents

Abstract

FIELD: power engineering and other industries. SUBSTANCE: plant includes main smoke flue 1, smoke stack 2, bypass smoke flue 3 on which water economizer 4 is fitted, reversible smoke flue 5 with nozzle 6 mounted along axis of bypass smoke flue 3. Main smoke flue 1, bypass smoke flue 3 and reversible smoke flue 5 are provided with gates 7, 8, 9. EFFECT: enhanced efficiency. 2 dwg

Description

 The invention relates to installations for the deposition of flue gases and can be used in the energy and other industries for additional cooling of flue gases before they are emitted into the chimney after heat-using plants, for example, boilers.

 A known installation for cooling flue gases, comprising a main chimney going from the boiler to the chimney, a bypass chimney, on which a water economizer is installed, a flip chimney between the main and bypass chimneys, while the inlet end of the bypass chimney is cut into the boiler flue between the steps of the air heater, and the outlet to the dust preparation system, the inlet end of the cross over chimney is cut into the main chimney between the boiler and the chimney, and its outlet end is cut into a free chimney, after the water economizer , (ed. St. USSR N 1048238, class F 22 B 33/18, 1982).

 Due to the fact that the inlet end of the bypass chimney is cut into the boiler flue between the steps of the air heater, the water economizer does not cool the gases entering the chimney after the boiler, i.e. does not produce additional cooling.

 Due to the fact that the outlet end of the bypass chimney is cut into the dust preparation system, and a small amount of combustion products can be supplied through the cross over chimney, only a small part of the heat of the combustion products moving from the boiler to the chimney is additionally used.

 The closest to the claimed technical essence and the achieved effect is the installation containing the main chimney going from the boiler to the chimney, a bypass chimney, the inlet end of which is cut into the main chimney and on which a water economizer is installed, a cross over chimney between the main and bypass chimneys, the output end of the free chimney is cut into the main chimney in front of the chimney, the input end of the cross over chimney is cut into the free chimney in front of the water economizer, and its output end is cut into the main chimney between the places of insertion of a free chimney (ed. St. N 1128063, F 24 H 1/10, 1983).

 This installation has a significant drawback: the complex transition of work on the main chimney to work on a bypass chimney.

 Due to the fact that the outlet end of the bypass chimney is cut into the main chimney in front of the chimney, when switching from working on the main chimney to working on the bypass chimney, when the chimney exhaust drastically decreases due to a decrease in the temperature of the flue gases in the water economizer, cold flue gases would lock the entrance to the chimney and this switchover is slow and painful, i.e. time consuming.

 Due to the fact that the inlet end of the cross-over chimney is cut into the bypass chimney in front of the water economizer, and its outlet end is cut into the main chimney between the places of the bypass chimney cut-in, the cross-over chimney sucks out cold air, which cools the flue gases in the main chimney, further complicating the switching of operation on the main chimney to work on a bypass chimney.

 The objective of the invention is to simplify the transition of the installation from work on the main chimney to work on the bypass chimney (in terms of reducing time and labor costs).

 To solve the problem in the installation for cooling flue gases, containing the main chimney going from the boiler to the chimney, a bypass chimney, the inlet end of which is cut into the main chimney and on which a water economizer is installed, a cross over chimney between the main and bypass chimneys, according to the invention, an outlet the end of the bypass chimney is cut into the chimney above the main chimney, while the inlet end of the cross-chimney is cut into the main chimney before the bypass chimney, and its outlet end is cut into the bypass minutes after the water economizer chimney, mounted on the bridging flue axis and provided with a nozzle.

 Due to the fact that the outlet end of the bypass chimney is cut into the chimney above the main chimney, when switching from the main chimney to the bypass, cold flue gases are fed above the supply of hot gases that raise them, and a smooth and quick transition from the main chimney to the bypass is carried out.

 Due to the fact that the inlet end of the cross-over chimney is cut into the main chimney before the bypass chimney, and its outlet end is cut into the by-pass chimney after the water economizer, it is installed along the axis of the by-pass chimney and is equipped with a nozzle, pressure flue gases flow from the nozzle to the cross-over chimney and flow out from the nozzle to the outlet end of the bypass chimney, creating a tray of gases through the economizer through the bypass chimney to the chimney. This greatly simplifies the transition from the main chimney to the bypass in terms of time and labor.

 In FIG. 1 shows the installation, in plan; in FIG. 2 installation, side view.

 The flue gas cooling installation comprises a main chimney 1 coming from a boiler (not shown) to a chimney 2, a bypass chimney 3, the inlet end of which is cut into the main chimney 1, and the outlet end into a chimney 2, and on which a water economizer 4 is installed , a cross over chimney 5, the inlet end of which is cut into the main chimney 1 before the bypass chimney 3, and the outlet end of which is cut into the bypass chimney 3 after the water economizer 4, is installed along the axis of the bypass chimney 3 and is equipped with a nozzle 6. In this case, the main, bypass and cross over chimneys 1, 3, 5 are equipped with gates 7 9 respectively.

 Installation works as follows.

 When working on the main chimney 1, the gate 7 is open, and the gate 8 and 9 are closed. When switching from work from the main chimney 1 to work bypass chimney 3, the gate 7 gradually closes, and the gate 8 and 9 open. In this case, part of the flue gas passes through the bypass chimney 3 through the water economizer 4, while cooling significantly. Cold gases falling into the chimney 2 above the level of supply of hot gases from the main chimney 1 are laid on them and rush up with them. In this case, a new stream is gradually organized. Hot gases flowing from the nozzle 6 also contribute to the creation of an organized flow through the bypass chimney 3 through the economizer 4 into the chimney 2.

 At the end of the switching process, the gate 7 is closed by a cavity, and the gate 8 and 9 are fully open. After stabilization of the flow regime bypass chimney 3, the gate 9 is closed.

 The gate 9 can be ajar during operation along the main chimney 1 to prevent flue gases from entering the economizer from above, which prevents moisture from falling on its surface and its corrosion.

Claims (1)

 Installation for cooling flue gases, comprising a main chimney going from the boiler to the chimney, a bypass chimney, the inlet end of which is cut into the main chimney and on which a water economizer is installed, a cross over chimney between the main and bypass chimneys, characterized in that the outlet end of the bypass chimney is inserted into the chimney above the main chimney, while the inlet end of the cross over chimney is cut into the main chimney in front of the bypass chimney, and its outlet end is cut into the bypass chimney after water saving Zera, installed along the axis of the bypass chimney and is equipped with a nozzle.

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