DE19723716B4 - Arrangement for a regenerative air preheater - Google Patents

Abstract

arrangement to avoid ash entry from the flue gas stream into the air system of a Regenerative air preheater above its Heizblechsegmente in a pulverized coal-fired power plant, characterized in that one an air preheater rotor (2) adapted Nozzle (11) arranged directly in front of a radial seal (14) of the regenerative air preheater and via an overflow channel (12) with a discharge nozzle arranged in an air outlet (8) of the air preheater rotor (2) (13) is connected.

Description

The The invention relates to an arrangement for preventing ash entry from the flue gas stream into the air system of a regenerative air preheater via its Heizblechsegmente in a pulverized coal-fired power plant.

Of the Regenerative air preheater does the job for to heat the combustion chamber required combustion air, wherein the heat contained in the flue gas is being used.

For this purpose, it is known to direct the flue gas stream and the combustion air in opposite directions through the regenerative air preheater, wherein the heat exchange takes place within rotating Heizblechsegmenten ( DD 59 602 ).

Out VGB Kraftwerkstechnik 66, Issue 12, December 1986, Pages 1123-1130, are gas preheaters as a regenerative heat exchanger at wet desulphurisation plants for reheating in one washer cooled Pure gases with the help of residual heat the raw gas known. These gas preheaters are partly using leak minimization systems equipped. It will be with an additional fan hot Clean gas after the gas preheater removed and rinsed the rotor chambers. This happens immediately before overspeeding the rotor chamber from the raw to the clean gas side. Also will be one Sealing chamber of the seals between raw and clean gas side charged, for a transition from raw gas to clean gas side to prevent.

It But it is disadvantageous that additional equipment expense for the installation and expenses of operation, maintenance and maintenance of an additional blower is required.

at Steam generators with combustion of ballast-containing fuels the flue gas is mixed with ash particles. Get these ash particles from the flue gas system into the air system of the regenerative air preheater, so they are with the hot air due to the high flow rate and promoted the high pressure in the hot air system.

adversely is that the Ash particles u. a. deposit on the Heizblechsegmenten. in the Range of baffles and internals, such as butterfly valves and diffusers, to lead to erosive erosion.

Of the Invention is based on the object with simple means and low expenditure on equipment, the penetration of ash in the hot air system to prevent.

This is characterized according to the invention achieved that a an air preheater rotor adapted nozzle immediately arranged in front of a radial seal of the regenerative air preheater and via an overflow with a arranged in an air outlet of the air preheater rotor sampling nozzle connected is.

The Ascheteilchen be on the flue gas side by means of a media jet blown out. The jet of hot air from the hot air duct of the Regenerative air preheater or purified flue gas formed after the electrostatic precipitator.

The overflow channel can advantageously be formed one or more channels be and over extend the entire width of a Heizblechsegmentes.

Based an embodiment below, the invention will be more closely understood explained become. In the corresponding Show drawing

1 : a section through the regenerative air preheater with overflow from the hot air system into the flue gas system

2 : A side view of the regenerative air preheater with extraction nozzle, overflow channel and radial seal

The regenerative air preheater has a rotor shaft 1 with an air preheater rotor 2 , a flue gas inlet 3 , a flue gas outlet 4 the flue gas duct 5 and an air intake 6 of the cold air duct 7 as well as an air outlet 8th of the hot air duct 9 on. The regenerative air preheater consists of a plurality of Heizblechsegmenten 10 , Each heater segment 10 is composed of memory elements.

In front of the heating plate segment 10 of the air preheater rotor 2 above the radial seal 14 is in the flue gas inlet 3 the flue gas duct 5 a segment-shaped nozzle 11 arranged, the height, width and shape of the Heizblechsegment 10 is adapted. The nozzle 11 is at the radial seal 14 arranged. The nozzle 11 is via an overflow channel 12 with a sampling nozzle 13 in the air outlet 8th of the hot air duct 9 integrated ( 1 and 2 ). The overflow channel 12 is one or more trained.

It can span the entire width of a Heizblechsegmentes 10 extend.

The mode of action is the following:
The with the flue gas in the Heizblechsegmente 10 of the air preheater rotor 2 registered ash particles 15 be by means of hot air in the flue gas outlet 4 and the subsequent flue gas channel 5 blown out.

The hot air required for this purpose is supplied via the extraction nozzle 13 from the air outlet 7 taken and over the overflow 12 the nozzle 11 fed. The above the radial seal 14 in the flue gas inlet 3 arranged nozzle 11 blows the hot air into the passing Heizplattensegmente 10 , This will be the registered ash particles 15 accelerated so much that they from the Heizblechsegmenten 10 in the flue gas outlet 4 leak out before the Heizblechsegmente 10 in the field of radial sealing 14 plunge.

Advantageous for the cleaning effect is the inventive design of the nozzle 11 in front of the heating plate segments 10 , The nozzle 11 must the entire width of the Heizblechsegmente 10 from the rotor shaft 1 spread to the circumferential seal.

The Advantages of the solution according to the invention are in reduction of erosive deterioration in hot air channels to the regenerative air preheater too see which without additional Mounting a fan and the associated effort is achieved. In addition, will by preventing deposits of ash particles an erosive Removal of material on the heating surfaces avoided and thus the expenses for reduces maintenance. Furthermore, the pollution excluded from Heizblechsegmenten the flue gas outlet.

1

rotor shaft

2

Air preheater rotor

3

Flue gas inlet

4

Flue gas outlet

5

Flue

6

air inlet

7

Cold air duct

8th

air outlet

9

Hot air duct

10

Heizblechsegment

11

jet

12

overflow

13

Tapping sockets

14

radial seal

15

ash particles

Claims (3)

Arrangement for preventing ash entry from the flue gas stream into the air system of a regenerative air preheater via its heating plate segments in a pulverized coal-fired power plant, characterized in that an air preheater rotor ( 2 ) adapted nozzle ( 11 ) immediately before a radial seal ( 14 ) of the regenerative air preheater and via an overflow channel ( 12 ) with one in an air outlet ( 8th ) of the air preheater rotor ( 2 ) arranged sampling neck ( 13 ) connected is. Arrangement according to claim 1, characterized in that the overflow channel ( 12 ) is formed one or more channels. Arrangement according to claim 1 or 2, characterized in that the overflow channel ( 12 ) over the entire width of a Heizblechsegmentes ( 10 ) is trained.