DE627448C - Device for automatic control of the combustion air supply to grate firing systems with mechanical fuel supply - Google Patents

Description

Device for automatic regulation of the combustion air supply to grate firing systems with mechanical fuel supply To monitor the control smoke opacity meters have been used by combustion systems. Smoke opacity meter show the smoke density and thus essentially the content of the combustion gases of unburned fuel components. You have these devices for surveillance used by firing systems as display devices that point to increasing smoke density alert you that the air supply needs to be increased. With automatic combustion controllers one has smoke gas opacimeter to influence the additional air supply to the combustion chamber used. However, the secondary air does not go through the material to be fired, but rather it flows into the combustion chamber above the fuel. Through the secondary air you can therefore only the combustible components contained in the smoke are burned -during the development of smoke is not prevented even by an increased supply of secondary air.

It is also known for automatic control devices for the fuel and air supply an additional one which responds to the smoke gas density Provide a regulator that controls the ratio of fuel and the actual combustion air can change. However, this method is particularly useful for pulverized coal and oil firing useful. Because if in grate firing systems, especially in traveling grate firing systems, in which solid fuel is burned, an occurring gas opacity initially If the supply of combustion air increases, a larger amount of combustion air is passed through rub the grate through so that.: a quick burn of those lying on the grate Coal enters. Since the entire amount of combustion air is only the one lying on the grate Coal layer has to be crossed out, so the increased combustion air supply can initially do not have any effect on the reduction of the smoke density. This could rather happen only with a certain time delay, so that there is a risk of that the controller starts to oscillate.

According to the invention, in a device for automatic regulation the combustion air supply to grate firing systems with mechanical fuel supply, especially for traveling grate firing systems, depending on the size of the company of the system with additional influence on the combustion air volume regulator depending on on the flue gas density next to the combustion air volume regulator, which the fuel bed regulates the amount of combustion air supplied, one from a smoke gas density indicator influenced Control device provided according to the information of the: smoke gas density indicator automatically supplies second air to the combustion chamber causes it to increase with increasing smoke density and with decreasing smoke density reduced, and thereby the air volume value to which the combustion air volume regulator is set, in the same sense as the secondary air supply, e.g. dependent on from the movement of a second air inlet flap controlled by the smoke gas density indicator, changes. When smoke gas opacity occurs, there is an immediate increase Second air supply so that the combustible components of the flue gases are burned first will. At the same time, the amount of combustion air supplied to the fuel bed is increased increased so that the smoke formation is prevented, whereupon the increased amount of combustion air is reduced again when the smoke gas opacity is reduced.

Such a control device is shown as an exemplary embodiment in the figure shown in connection with a traveling grate combustion system.

The fuel is fed to the combustion chamber i of a boiler through a traveling grate Z ,. on which he also burns, fed. A fan 3 delivers in a known manner one of the supplied through the traveling grate! Coal quantity equivalent measured value, which is brought to bear by means of a Merribran 4 of the combustion air quantity regulator. The amount of combustion air supplied to the combustion system is measured by the pressure difference that occurs at two points 5 and 6 in the combustion chamber, which z. B. -are separated by the boiler pipes, is removed. The pressure difference acts on a membrane 7. In a known manner, the two membranes 4 and 7 act to regulate the amount of combustion air by setting a throttle valve 8 in the chimney on a jet pipe 9, which acts in the usual way on an auxiliary motor that adjusts the throttle valve 8. The controller adjusts the amount of combustion air so that it remains proportionate to the amount of coal supplied. In the case of the jet tube regulator shown in the figure, this ratio is determined in a known manner by the position of a slide ii. If smoke develops for whatever reason, which is a sign that the current amount of combustion air is not sufficient, a smoke gas opacity meter, which can be of any known type, responds and acts on a control device with a jet pipe 13 and an auxiliary motor 14. a. These. When its jet pipe 13 moves, the control device adjusts a throttle valve 15 for the secondary air by means of the auxiliary motor 14. This control device 13, i. At the same time, however, the position of the throttle valve 15 is used as a measure for the amount of secondary air in order to change the ratio between the amount of coal supplied and the combustion air to which the combustion air volume regulator with the jet pipe g adjusts. This is done in that the adjustment of the throttle valve 1 5 influences the flow tube 16 of a further control device which adjusts the ratio slide ii in accordance with the opening of the throttle valve 15. The jet pipe 16 is moved by the piston rod i7 of the auxiliary motor 14. In order to obtain an optionally adjustable play, two stops 21, 22, optionally adjustable in their spacing, are attached to the piston rod 17 and act on the jet pipe 16.

The device works in such a way that if smoke suddenly develops, the secondary air inlet flap i 5 is opened, and in fact so far, until the incoming secondary air causes complete combustion of the smoke gases. The opening of the throttle valve 15 , however, results in an adjustment of the jet pipe 16, which causes a displacement of the ratio slide ii and thereby ensures a relatively stronger supply of combustion air by adjusting the chimney flap 8. This ensures that the coal now receives enough air again on the traveling grate to burn completely without developing smoke.

Claims (1)

PATENT CLAIMS: i. Device for automatic regulation of the combustion air supply to grate firing systems with mechanical fuel supply, in particular to traveling grate firing systems, depending on the size of the plant with additional influence of the combustion air volume regulator depending on the smoke gas density, thereby characterized that in addition to the combustion air volume regulator, the - the fuel bed regulates the amount of combustion air supplied, one from a smoke gas density indicator (i2) influenced control device (r3, 14) is provided, the according to the specifications of the smoke gas density indicator, the supply of second air automatically to the combustion chamber causes it to increase when the smoke density increases and when it decreases Flue gas density is reduced, and the air volume value to which the combustion air volume regulator is set is set, in the same sense as the secondary air supply, e.g. B. depending from the movement of a second air inlet flap controlled by the smoke gas density indicator (r5) changes. a. Device according to claim i for firing systems with a combustion air volume regulator, the amount of combustion air in a variable ratio to the amount of fuel supplied automatically adjusts depending on the latter, characterized in that a control device (i3, 14) influenced by the smoke gas density indicator (1a) it is provided that when the second air supply changes, the ratio value to which the combustion air volume regulator is set, changes in the same way.