DE4318953A1 - Device for moistening power station filter ash - Google Patents

Abstract

The invention relates to a device for moistening power station filter ash with an ash chute, an annular nozzle acted on with mixing water and a following elastic mixing section which is guided to a transfer point. The aim consists in designing the device in such a manner that a defined ash moisture is guaranteed already directly after the beginning of the ash loading and no damage to the environment occurs. This is achieved according to the invention by an emergency closing slide (3) followed by a dosing member (5) and subsequently a quantity-measuring arrangement (6) being integrated into the ash chute (1) after the ash removal funnel (2), a shut-off (8) to the water system and subsequently a flow-measuring device (9) and a control valve (10) being provided in the supply line (7) for the mixing water, the control valve (10) and the quantity-measuring arrangement (6) being interconnected by circuitry, an extractor hood (14) being arranged at one or more transfer points on a central transport belt (13) or in a wagon, and a suction pipe (15) being guided from this hood to a wet separator (16). <IMAGE>

Description

The invention relates to a device for moistening Power plant filter ash with an ash fall pipe, one with Mixing water charged ring nozzle and one itself subsequent elastic mixing section, which on a Transfer point is guided.

According to DE 41 27 447, there is already one method and one Device for moistening power plant filter ash known in which the filter thing from the ash bunker over a Ash fall pipe into one loaded with water Ring nozzle formed water cone introduced with the water wetted and by an elastic mixing section on a Transfer point is promoted.

The disadvantage of this solution is that the dosage of Amount of ash and the required mixing water by hand must be made, reaching and adhering to an optimal mix of many subjective influences is dependent and certain operating experience of the Operators required.

There are irregularities, especially when starting off with ash humidification, because it takes a certain amount of time until the desired is achieved by adjusting both components complete mixing is achieved.

In addition, there is one at the transfer point Bridge formation and a discharge of fine fly ash particles in the atmosphere. Besides pollution, the environment is too the view of the operating personnel during the loading process impaired.

The invention has for its object a device for moistening power plant filter ash with a  Ash downpipe, one loaded with mixing water Ring nozzle and a subsequent one on one Transfer point guided elastic mixing section so train that immediately after the start of the Ash loading a defined ash moisture is guaranteed and there is no pollution of the environment.

This is achieved in that in that Ash fall pipe after the ash removal funnel Emergency gate valve, then a dosing device and subsequently a quantity measuring device is integrated in the feed line for the mixing water a barrier and a control valve are provided, the control valve and the quantity measuring device with each other in terms of circuitry are connected at one or more transfer points a central conveyor belt or in a wagon Extractor hood arranged and from this a suction pipe to one Wet separator is guided.

The emergency shut-off valve is manually operated and between the Emergency shut-off valve and the dosing device is also a pneumatically operated emergency shut-off valve provided.

In a further embodiment of the device, the barrier is off a manually operated butterfly valve and a pneumatic one actuated butterfly valve formed.

The dosing process is from a pinch valve or a Metering slide formed.

A radiometric or a mechanical measuring device and as a flow meter after the differential pressure principle or one based on the inductive Measuring principle working measuring device provided.

The wet separator is made of a container with a  Water supply, a fresh water supply into the container, a drain pipe from the tank, one Level measuring device and one to the container connected fan, preferably a Ultrasonic measuring device is used.

The invention is intended to be based on an exemplary embodiment are explained in more detail. The accompanying drawing shows the Device in a schematic representation.

The power plant filter ash to be moistened is withdrawn from the ash removal hopper 2 of the fly ash silo via an ash fall pipe 1 in free fall. A manually operated emergency shut-off valve 3 , then a metering element 5 and subsequently a quantity measuring device 6 are integrated into the ash fall pipe 1 . The emergency shut-off valve 3 is intended for silo shut-off for repair purposes. Either a pinch valve or a metering slide can be used as metering device 5 for ash metering. As an additional safety device, a pneumatically operated emergency shut-off valve 4 is provided between the emergency shut-off valve 3 and the metering device 5 . A radiometric quantity measuring device 6 , which works on the principle of radiographic measurement with cesium 127, is used to measure the quantity of ash. However, a mechanical quantity measuring device 6 can also be used, e.g. B. a flapper scale.

In the feed line 7 for the mixing water, a shut-off 8 to the water system and then a flow meter 9 and a control valve 10 are provided. The barrier 8 is formed from a manually operated butterfly valve 11 and a pneumatically operated butterfly valve 12 . As a flow meter 9 can be either one based on the differential pressure measuring principle or one based on the inductive measuring principle, e.g. B. an eddy current flow meter, working meter can be used. The control valve 10 is connected to the quantity measuring device 6 in terms of circuitry. The ash down pipe 1 and the feed line 7 open into an elastic mixing section 22 , the feed line 7 being integrated into a water chamber surrounding the ash down pipe 1 with an annular nozzle. The end of the elastic mixing section 22 is guided to a transfer point.

At one or more transfer points on a central conveyor belt or in a wagon, an extractor hood 14 is arranged, from which an intake pipe 15 is guided to a wet separator 16 . The wet separator 16 consists of a container with a water reservoir, into which a fresh water supply 17 is integrated and from which a drain line 18 is led out. The wet separator 16 is also equipped with a fill level measuring device 19 based on ultrasound and connected to a fan 20 via a pipeline 21 .

The device works as follows:
The to be moistened filter ash is withdrawn from the Entaschungstrichter 2 via an ash drop tube 1 in free fall substantially vertically and supplied via the metering of the quantity-5. 6 Here the amount of ash is recorded, which serves as a control variable for the control valve 10 for controlling and metering the mixing water via the feed line 7 . The control valve 10 controls depending on the ash flow, the amount of water detected by the flow meter 9 , which is to be supplied via the water chamber and the annular nozzle of the elastic mixing section 22 . In the mixing section 22 there is the actual mixing between the mixing water and the vertically falling filter ash. The contact of the mixing water with the healthy filter ash leads to the formation of vapors at the transfer points located below the mixing section 22 . This vapors are sucked off via the extractor hood 14 and the intake pipe 15 by the fan 20 and fed to the wet separator 16 . The vapor is sucked through the water reservoir, where the vapor condenses and the ash particles are separated. The wet separator 16 is supplied with fresh water as required and at the same time the same amount of blowdown water is removed. This ensures that the concentration of the ash content cannot increase. The wet separator 16 is rinsed at the end of each moistening process. In order to monitor and control the wet separator 16 , a fill level measurement is carried out using ultrasound.

Reference list

1 ash fall pipe
2 ash removal funnels
3 emergency shut-off valves
4 emergency shut-off valves
5 dosing device
6 quantity measuring device
7 supply line
8 barrier
9 flow meter
10 control valve
11 butterfly valve
12 butterfly valve
13 conveyor belt
14 extractor hood
15 suction pipe
16 wet separators
17 Fresh water supply
18 drain pipe
19 level measuring device
20 fan
21 pipeline
22 mixing section

Claims (12)

1. Apparatus for moistening power plant filter ash with an ash fall pipe, an annular nozzle loaded with mixing water and a subsequent elastic mixing section which is guided to a transfer point, characterized in that an emergency shut-off valve ( 3 ) is placed in the ash fall pipe ( 1 ) after the ash removal funnel ( 2 ) ), then a metering device ( 5 ) and subsequently a quantity measuring device ( 6 ) are integrated, in the feed line ( 7 ) for the mixing water a shut-off ( 8 ) to the water system and then a flow meter ( 9 ) and a control valve ( 10 ) are provided, the control valve ( 10 ) and the quantity measuring device ( 6 ) are connected to one another in terms of circuitry, at one or more transfer points a extractor hood ( 14 ) is arranged on a central conveyor belt ( 13 ) or in a wagon and from this a suction pipe ( 15 ) to a wet separator ( 16 ) is performed. 2. Device according to claim 1, characterized in that the emergency shut-off valve ( 3 ) is manually operated. 3. Apparatus according to claim 1 and 2, characterized in that between the emergency shut-off valve ( 3 ) and the dosing member ( 5 ) an additional pneumatically operated emergency shut-off valve ( 4 ) is provided. 4. The device according to claim 1, characterized in that the shut-off ( 8 ) from a manually operated butterfly valve ( 11 ) and a pneumatically operated butterfly valve ( 12 ) is formed. 5. The device according to claim 1, characterized in that the dosing member ( 5 ) is formed from a pinch valve. 6. The device according to claim 1, characterized in that the metering member ( 5 ) is formed from a metering slide. 7. The device according to claim 1, characterized in that a radiometric measuring device is provided as the quantity measuring device ( 6 ). 8. The device according to claim 1, characterized in that a mechanical measuring device is provided as the quantity measuring device ( 6 ). 9. The device according to claim 1, characterized in that a measuring device operating according to the differential pressure measuring principle is provided as the flow measuring device ( 9 ). 10. The device according to claim 1, characterized in that a measuring device operating according to the inductive measuring principle is provided as the flow measuring device ( 9 ). 11. The device according to claim 1, characterized in that the wet separator ( 16 ) from a container with a water reservoir, a fresh water supply ( 17 ) in the container, a drain line ( 18 ) from the container, a level measuring device ( 19 ) and one to the Container connected fan ( 20 ) is formed. 12. The apparatus according to claim 11, characterized in that an ultrasonic measuring device is used as the fill level measuring device ( 19 ).