SU1471955A3 - Plant for reheating disulfurized flue gases - Google Patents

Abstract

The invention can be used in the metallurgical and chemical industries. The purpose of the invention is to reduce energy consumption while ensuring the reliability of the installation. The main air heater (VP) 1 is included in the air path 2 in front of the combustion chamber, and in the gas duct 3 - in front of the successively installed filter 4 and desulfurization device 5. An additional VP 6 is pre-connected to the main VP 1 in the air duct 2 connected after VP 1 by the bypass line 7 to the flue 3 behind device 5 along the gas path. VP 6 is pre-switched on in flue 3 of device 5. After device 5, some clean air heated in VP 1 and 6 is mixed in with flue gases, which prevents low-temperature corrosion of the chimney. The installation allows varying over a wide range the temperature of the flue gases introduced into the device 5. 1 sludge.

Description

one

The invention relates to the power industry and can be used in the machine-building, metallurgical and chemical industry in installations for re-heating of sweetened flue gases. I

The aim of the invention is to reduce energy consumption while ensuring reliable operation of the installation.

The drawing shows the installation, general view.

The unit for reheating of the desulfurized gases containing the main air heater 1 is connected to the air duct 2 in front of the combustion chamber, and the gas duct 3 is re-installed in series by the filter 4 and the desulfurization device 5 and an additional air heater 6, pre-connected to the main air heater 1 in the air path 2, connected after the air preheater 1 by the overflow line 7 to the flue 3 behind the device 5, gasification along the gas path. An additional air heater 6 is pre-connected in the flue 3 to the desulfurization device 5. An exhaust fan 8 can be installed between the filter 4 and the additional air heater 6. The additional air heater 6 and the vacuumization device 5 can be equipped with bypass lines 9 and 10, respectively. I

On the air path 2, a fan 11 and a steam air heater 12 can be installed.

Between the bypass line 7 and the air path 2 at the inlet there is a connecting pipe 13 with a regulating or shut-off body 14. Regulatory or shut-off bodies 15

also installed on the bypass lines 9 and 10. The additional air heater 6 on the air side can also be equipped with a bypass line 16 with the regulator 17.

If necessary, a dust removal filter 18 can be installed in the bypass line 7. In addition to the TOR, a regulator 19 is installed on the bypass line 7 in front of the junction with the flue 3.

The installation works as follows.

Untreated flue gases flow from the furnace first into the air heater 1, where they are cooled and heat the already preheated air to a temperature suitable for introduction into the combustion chamber, and then the flue gases enter the dust filter 4 and exhaust fan 8, reducing or leveling occurrence of pressure loss. Thereafter, the flue gases in the additional air preheater 6 are cooled until they reach a temperature suitable for introducing them into the desulfurization unit 5. After exiting this device 5, the fume 1e gases are, though purified, but too cold for their release through the gas pipe into the atmosphere, since their temperature reaches almost the dew point. Therefore, after the desulfurization device 5, a portion of the heated clean air is mixed in with the flue gases, which has passed through the air path 2 with two air heaters 1 and 6 and is heated to the temperature required for supply to the furnace. Thus, a low-temperature corrosion pipe is prevented.

The proposed installation allows em | vary over a wide range the temperature suitable for introducing flue gases into the desulfurization unit 5, while always ensuring a high coefficient of efficiency of the installation.

Claims (1)

Q invention Installation for reheating of the sweet-flue gas containing the main air heater included in the air path in front of the combustion chamber, and in the gas duct in front of 55 sequentially installed filter and desulfurization device, and an additional air heater, connected to the main air heater in the air duct connected after the last bypass line to the flue pipe behind the desulfurization device along the gas flow, which is due to the reduction of energy consumption while ensuring reliability , the additional air heater is pre-connected to the air supply unit in the gas duct.