DE2658981A1 - Melting silicate glass with high furnace loading - using methane fuel contg. oxygen to reduce flue gas vol. and noise - Google Patents

Abstract

Silicate melts are made by firing a rotary kiln with a mixt. of fuel (methane) and O2 in the ratio 1:1.7. The ratio of fuel/O2 mixt to melt is 0, 6 to 1:1. Air, water, soot particles may be added to the fuel-O2 mixt. The flame profile can be modified in the usual ways. The furnace loading may be increased to 34 to 40 vol.% (36-38 vol.%). The use of O2 as oxidant in the furnace reduces the vol. of the flue gases, and the noise evolved. The flame temp. is higher and fuel consumption is lower. The lower gas velocity means that less of the components of the glass or glass fibres and droplets are blown out of the end of the furnace. Less maintenance is required. The flame profile may be controlled much more easily. Waste heat can be recovered in a recuperator. There is less pollution.

Description

"Process for the production of a silicate melt"

The invention relates to a method for producing a silicate Melt, whereby a raw material mixture using a fuel-gas mixture is melted as a heat energy source in a rotary kiln.

The raw material components are used to produce a silicate melt usually dry mixed into a mixture, filled into a rotary kiln and melted there.

When the desired reactions have taken place and the melt is present, the viscose reaction product is poured into a water bath. Frozen in the process the melt to glass in granulate form. The granulate is then dried. The frit granules produced in this way, for example, are processed into glazes. This can be done dry or wet.

The known methods that work with a fuel-air mixture are uneconomical because of the high fuel consumption. When using e.g. Natural gas and air is the weight ratio of the fuel-gas mixture to the melt pool 8 to 10: 1. where is the amount of air required to burn the fuel very large, so that with the air considerable amounts of nitrogen (78% proportion of the air) be introduced into the system, which must also be heated.

The amount of air is forced into the burner with a powerful fan and mixed there with the fuel and ignited. To the necessary for melting To be able to apply the amount of heat in a certain time, a large plasma gas volume becomes required, which results in flows with high gas velocities, which with a considerable noise pollution. To remove the relatively large amount of exhaust gas there must be a large smoke hole in the furnace. Since this is arranged axially, accordingly, the level of the melt must be lowered so that the melt cannot escape through the smoke hole.

Furthermore, when using a fuel-air mixture, in particular because of the high amount of nitrogen only temperatures around 14500 C and this can also only be achieved with a high expenditure of energy. Influencing the flame respectively.

the plasma temperature or heat transfer can only be achieved with great effort or not be achieved at all.

The high gas velocity causes further significant disadvantages the known procedures. At the beginning of the melting process, dust is created from the raw materials, which are used as fine material, whirled up and transferred into the exhaust gas. Towards the end of the melting period, when the melting material is already low ~ viscous, forms the melt threads dripping down from the furnace vault during rotation, which form a large part can be torn out through the exhaust gas hole. Both the whirled Dust as well as the threads torn out of the furnace are formed by melting at the smoke gas hole a bead that must be removed periodically by laborious manual labor.

The same products also partially encrust the inside wall of the fireplace and also make an economical heat recovery by means of recuperators not possible. This means that, on the one hand, because of the high temperatures, large volumes of exhaust gas must be mastered and, on the other hand, considerable heat energy is lost.

The residual dust and fine content of the paddles is also considerable Difficulties in exhaust gas purification, which also raises particular problems if there are toxic elements in the residual dust or pain in the threads. The effort Removing such particles from the exhaust gases is very costly on the machine side and do not guarantee with certainty the entire deposition of the Suspended matter. It is noteworthy that the development of exhaust gas cleaning has been increasing so far ever larger and more uneconomical aggregates has led to the requirements environmental protection is still not working satisfactorily.

It is noteworthy that, according to the known method, there is a loss of substance up to 3.5 Gewo of the amount of enamel occurs.

The object of the invention is the method for producing a silicate Make the melt more environmentally friendly and economical, in particular the loss of substance is considerably reduced, the cleaning with small amounts of exhaust gas problem-free and enables heat recovery and increases the utilization of the ovens should be ..

According to the invention, this object is achieved by a process for production dissolved in a silicate melt9 using a mixture of raw materials a fuel-gas mixture melted as a heat energy source in a rotary kiln is, and which is characterized in that a fuel-oxygen gas mixture as a fuel-gas mixture is introduced into the furnace and burned. A natural gas / oxygen gas mixture is particularly advantageous especially when the fuel-gas mixture consists of one part natural gas and 1.7 parts There is oxygen gas.

While according to conventional methods, the ratio of fuel-air mixture amount to the amount of the melt is 8 to 10: 1, can by the process according to the invention the ratio can be reduced to 0.6 to 1: 1. This is used for the melting process total amount of gas required is reduced by about 80 to 90%. Since no nitrogen must be heated up more, there is a corresponding fuel saving. It is of particular advantage that temperatures are now also considerably higher than approximately 14500 C for melting pritten can be reached.

This also gives the possibility to control the flame guide or

To influence the flame temperature without significantly increasing the amount of fuel.

When melting a certain composition, emphasis is placed on that the plasma atmosphere is in the limit area oxidizing-reducing. To do this while To ensure the melting process, it is advantageous to add the fuel-oxygen gas mixture Supply air in the required amount.

Furthermore, it is now possible to monitor the reactions of certain raw material components to accelerate each other by making sure that water vapor on the components acts during the reaction by adding water to the fuel-combustion agent mixture is produced. The heat transfer from a flame to a melting material is. as is well known bad.

However, it can be improved within the scope of the invention by that the flame emits radiation, such as soot, fed will. Since sufficient heat energy is available and the heat energy in the The physical-chemical possibilities can be increased at will as well as the gas velocities can be chosen to be relatively low, is about it It is also possible to influence the flame image from the outside, for example by extending the flame in a manner known per se or by cooling the flame can be done in certain zones.

The method according to the invention also affects the environment The amount of heat given off is significantly reduced. The decreased gas volume also leads to that the flow rate of the gas is reduced. That has to Consequence that a dust whirling up of the raw materials hardly occurs and thread fly as well the formation of bulges on the exhaust gas opening of the furnace is largely avoided, so that the exhaust gas is suitable for heat recovery in high-performance recuperators; as well the formation of crusts on the inside wall of the chimney is prevented.

The cleaning of the exhaust gas is on the one hand by the low from the The amount of exhaust gas coming from the furnace is facilitated and made even more economical as a result, that the cooling effect of the recuperators also reduces the exhaust gas volume.

The low volume of exhaust gas has the major advantage to reduce the size of the exhaust hole e.g. of a rotary kiln known per se and that Increase the volume of the molten bath by about 30%.

Claims (9)

Expectations. 1 / ül Process for the production of a silicate melt, whereby a raw material mixture using a fuel-gas mixture as a heat energy source is melted in a rotary kiln, d u r c h e k e n n n z e i c h n e t that the fuel-gas mixture is a fuel-oxygen gas mixture in the furnace is introduced and burned. 2. The method according to claim 1, d a d u r c h g e k e n n -z e i c Not that a natural gas-oxygen gas mixture is introduced as the fuel-gas mixture is introduced. 3. The method according to claim 2, d a d u r c h g e k e n n -z e i c Note that the fuel-gas mixture consists of one part natural gas and 1.7 parts oxygen gas consists. 4. The method according to one or more of claims 1 to 3, d a it is noted that the ratio of the fuel-oxygen gas mixture quantity to the amount of the melt pool is 0.6 to 1: 1. 5. The method according to one or more of claims 1 to 4, d a it is not e n g e n e n e n e t that the fuel-oxygen gas mixture Air is supplied. 6. The method according to one or more of claims 1 to 5, d a it is not e n g e n e n e n e t that the fuel-oxygen gas mixture Water is supplied to generate water vapor. 7. The method according to one or more of claims 1 to 6, d a it is noted that particles emitting radiation from the flame, such as carbon black. 8. The method according to one or more of claims 1 to 7, d a d u r c h e k e n n n n e i n e t that the flame is extended in a manner known per se will. 9. The method according to one or more of claims 1 to 7, d a d u r c h g e k e n n n n e i c h n e t that the flame is in itself in certain zones is cooled in a known manner. 1u. Method according to one or more of Claims 1 to 9, d a d u r c h g e k e n n n z e i c h n e t that the melting in the rotary kiln with a Degree of filling of the Melting from 34 to 40 vol%, especially from 36 up to 38 vol%.