DE464769C - Procedure for operating boiler systems - Google Patents

Description

Method for operating boiler systems In the main patent 39.2 384, a method for operating steam boiler systems is described in which fluctuations in the steam output are compensated for by working alternately with warm and cold combustion air. The former comes from a heat accumulator that is heated up when the steam output is low. The application was limited to gas firing.

It has now been shown that the same working method can also be used for others Fuels and furnaces are of great importance; so for oil firing and pulverized coal firing.

In contrast to the gas furnaces dealt with in the main patent, at who usually only have a certain amount of gas available in a unit of time, firing systems for solid and liquid fuels can be operated as required, because fuel is available in appropriate quantities. Any stronger company but immediately causes a deterioration in efficiency as soon as the heating surface is not sufficient for the larger amount of combustion gas.

If you increase the boiler output, on the other hand, as in the main patent for gas firing described by highly heated combustion air, it can be used with the here in The following firing systems increase the steam generation by up to 50% and more without da8 the volume of the flue gas increases and the temperature of the flue gases increases. The hot one Combustion air not only increases the supply of heat, it increases it also in almost the same ratio the temperature gradient and thus the evaporation capacity. The primary purpose of heat storage is to increase performance of the boiler, an effect that is only of secondary importance with gas firing came.

The heating of the heat storage tank can be done with the same fuel be done as it is burned in the main furnace, or by any other Fuel. Likewise, each boiler can have its own heat store @, or one is arranged jointly for an entire boiler group. Essential is just that an amount of heat corresponding to the peak performance is always in shape of highly heated air is available.

A very useful <arrangement for heat accumulators and steam boilers results from using a common furnace for both and from flue gas exhausts creates the possibility of regulating the partial flows to the boiler and to the storage tank as required. You are then able to use the boiler only to supply so much heat like your steam consumption: corresponds to, and can store all the surplus derive. The fuel and air supply for fencing therefore needs at most in to be readjusted for longer periods of time if it turns out that too much or too little heat goes to the storage tank.

Is it coal dust or oil celebrations that the Fuel is blown in by a stream of air or steam, so you can get the energy make use of these gas flows to simplify the circuit. On the enclosed Such an arrangement is shown schematically in the drawing.

The boiler h and the heat accumulator s are connected on one side by the smoke duct a and the foxes b and cm! It to the chimney m, on the other side by the ducts d and e with the furnace f . This is fed the fuel through the nozzle g and the combustion air either cold through the line h or preheated through the lines i and n from the storage unit s. In. the channels b, c, i are arranged regulating slides.

When the slide is in the position shown in Fig. I, the heat accumulator is switched off. Fuel and cold combustion air mix in the ejector-like burner o, burn, and the flue gases pull through channels e, c and a to the chimney. The suction effect of the nozzle will be adjusted so that just the required amount of air is supplied to the burner. If the nozzle g does not work strongly enough, the chimney draft carries more combustion air on the path h ,. n, d for firing. In the opposite case, the nozzle sucks some of the combustion gases back through the channels d and n to the burner. Both are practically insignificant for the quality of the combustion.

In the arrangement according to Fig. 2, the fox slide is also nm channel b open. Part of the combustion gases now heats the heat storage tank, and the steam generation in the boiler is adjusted accordingly. less.

In the arrangement according to FIG. 3, the slide is closed in channel b and open in channel i. The cold air entering through this channel is heated in the heat storage unit s, is sucked through the channel n to the burner o and here completely or partially replaces the cold combustion air supplied through h. By lowering the heat accumulator, a natural, buoyancy of the warm air is expediently generated, through which it flows to the burner with a slight excess pressure compared to the cold air coming from h. Only warm air or combustion gases can flow through channel d if the suction effect of the ejector burner does not quite correspond to the air consumption. However, these equalizing currents are practically of no importance for the efficiency of the heating.

The disconnection of the memory is therefore completely effected by the sliders in channels b and i. Both come into contact only with cold gases and can be connected to one another in such a way that the entire operation is regulated by a single handwheel: -If the steam consumption falls, the valve in channel b is opened further, so that an ever larger part of the Combustion gases passes through the accumulator; If the steam consumption increases, it is gradually closed and the slide valve in channel i is opened immediately afterwards, so that warm air reaches the burner.

This movement of the regulating slide can also be carried out automatically a piston actuated by steam pressure or by some other regulator device take place.

Claims (3)

PATENT CLAIMS i. Method for operating boiler systems according to patent 392 384, according to which, at high performance of the boiler furnace, strongly preheated combustion air is supplied, characterized by its application to boiler furnaces for pulverulent and liquid fuels, with the proviso that they are used to heat the combustion air serving heat storage is heated in any way. 2. The method according to claim i, characterized in that the steam boiler and heat accumulator are in a controllable ratio can be heated by a common furnace. 3. The method according to claim 2, characterized in that the fuel ejector-like the combustion air sucked in from a duct that on the one hand with the outside air and on the other hand with the Heat storage is connected.