DE29612352U1 - Combustion chamber for operating a drying system with multifunction burner device and impact device for energy-saving and low-emission drying - Google Patents

Description

Title of the invention

Combustion chamber for operating a drying system with multifunctional burner device and impact device for energy-saving and low-emission drying.

Technical field of application of the invention

The invention relates to a combustion chamber for operating a drying system with a multi-function burner device and impact device for energy-saving and low-emission drying.

Characteristics of the known technical solution

The main components of known drying systems are the burner device for generating heat, a subsequent device for mixing in recirculated vapors and the actual drying chamber or drying drum. What such systems have in common is that the burner device is operated essentially with only one fuel supply and the required combustion air supply with the aim of generating a quantity of heat for drying the material. Any recirculated vapors do not take part in the combustion process, but are only subsequently introduced into the warm air flow. Any pollutants contained therein remain in the cycle and can hardly be reduced in this way.

Aim of the invention

The aim of the invention is to achieve a reduction in energy consumption with a disproportionate reduction in pollutant emissions at the same or higher drying capacities as known systems.

Explanation of the nature of the invention

The invention is based on the object of creating a combustion chamber with a multifunctional burner device and impact device for energy-saving and low-emission drying for the operation of a drying system, which makes it possible to achieve a reduction in energy consumption with a disproportionate reduction in pollutant emissions with the same or higher drying capacities as known systems.

According to the invention, the object is achieved in that a multifunctional burner device, consisting of a pilot burner, core burner and main burner, in conjunction with a process-stabilizing impact device for generating heat for drying is arranged in such a way that process air laden with pollutants or moisture takes part directly in the combustion at high temperatures.

The stable and low-emission combustion is supported by the fact that the burners of the multi-function burner system are each divided into individual burners. A rotationally symmetrical arrangement proves to be useful in this case.

In order to achieve the required residence time of the exhaust gases in the combustion chamber for stable and low-emission combustion, a process-stabilizing impact device is installed downstream of the multifunction burner device.

It has proven to be useful to allow cooling air to flow through this impact device. The known disadvantages of conventional drying systems lead to significantly higher pollutant emissions and are avoided with the combustion chamber device according to the invention.

The device according to the invention enables a reduction in energy consumption with a disproportionate reduction in pollutant emissions at the same or higher drying capacities as known systems.

Implementation example

Preferred embodiments of the invention are described below with reference to drawings.

Fig. 1 Schematic of the combustion chamber

Fig. 2 Diagram of an embodiment of the multi-function burner device

Fig. 3 Scheme of an embodiment of the impact device

Fig. 1 shows the basic structure of the combustion chamber 1, consisting of the combustion chamber housing 2, the multifunctional burner device 3 and the impact device 7.

Fig. 2 shows the basic structure of an embodiment of the multi-function burner device 3, consisting of ignition burner 4, core burner 5 and main burner 6, which are arranged rotationally symmetrically in a preferred embodiment of the invention. The ignition burner 4 serves to reliably ignite the multi-function burner device 3. The core burner 5 ensures stable combustion of the main burner 6, which is operated with the largest or entire proportion of pollutant- or moisture-laden process air 9. The process air 9 can be in the form of recirculated drying air (vapors) or as the result of a process independent of the drying process. In order to increase the reliability of the entire combustion process, it has proven to be expedient to divide the core burner 5 or the main burner 6 into individual burners. The fuel supplies 11 for the core burner 5 and the main burner 6 are independent of one another. The combustion air supply 10 of the core burner 5 is provided separately. A proportionate supply of the core burner 5 with process air 9 loaded with pollutants or moisture is also possible.

Fig. 3 shows an embodiment of the impact device 7 downstream of the multifunctional burner device 3. The impact device 7 serves to achieve the residence times of the exhaust gases in the combustion chamber 1 required for stable and low-emission combustion. It has proven to be expedient to flow cooling air 8 through the impact device 7. The cooling air 8 can be branched off as part of the required combustion air quantity 10 or supplied completely independently of it.

Industrial applicability of the invention

The combustion chamber according to the invention can be used for energy-saving drying, for example of animal feed in agriculture. Compared to conventional systems, significantly lower pollutant emissions are achieved with higher throughput capacities. The combustion chamber can also be used advantageously where pollutant-laden process air cannot be used for any other efficient purpose. Both economic efficiency and environmental compatibility are significantly improved by using the combustion chamber according to the invention.

Economic effects and beneficial effects of the invention

The use of the combustion chamber according to the invention enables more energy-efficient drying of, for example, animal feed in agriculture with higher throughput capacities and significantly lower pollutant emissions compared to conventional systems. Both economic efficiency and environmental compatibility are significantly improved in this way.

Test results

The combustion chamber according to the invention is successfully used in an agricultural feed drying plant. With a drying capacity of approx. 12 to 14 t of water evaporation, green fodder is processed into dried material that is then pressed while maintaining strictly limited pollutant emissions. The key parameters for pollutant emissions following the drying process are reliably maintained: aldehydes below 20 mg/m ³ and carbon monoxide concentrations below 100 ppm.

Summary

The invention relates to a combustion chamber for operating a drying system with a multi-function burner device and impact device for energy-saving and low-emission drying. The multi-function burner device, consisting of a pilot burner, core burner and main burner, in conjunction with a process-stabilizing impact device for generating heat for drying is arranged in such a way that

Process air laden with pollutants or moisture takes part directly in the combustion at high temperatures. In this way, compared to known systems, a reduction in energy consumption is achieved with a disproportionate reduction in pollutant emissions.

Report on the outcome of the preliminary examination of novelty and economic effects and beneficial effects.

Topic: Device for operating drying systems
Research report:

A search was carried out in the federal state funds of Germany, Europe and the United Kingdom. It includes the following classification units:

BOL, 43/0

F 23 C, 6/00 to 9/00

F 26 B, 3/00 to 23/00

No relevant or partially relevant inventions were identified.

Other sources of information:

Specialist journals:

Gas Heat International, Vulkan Verlag, Essen

Natural Gas Information, Ruhrgas AG, Essen

Bavarian Agricultural Weekly, BLV Verlag, Munich

Claims (5)

Protection claims 1. Device for operating a drying system with a multifunction burner device for energy-saving and low-emission drying, characterized in that a multifunction burner device, consisting of a pilot burner, core burner and main burner, is arranged in conjunction with a process-stabilizing impact device for generating heat for drying in such a way that process air loaded with pollutants or moisture takes part directly in the combustion at high temperatures. 2. Device according to claim 1, characterized in that the ignition burner, core burner and main burner are each divided into individual burners. 3. Device according to claim 1 and 2 _y , characterized in that one or more burners are arranged rotationally symmetrically. 4. Device according to claims 1 to 3, characterized in that the multifunctional burner device is followed by a process-stabilizing impact device. 5. Device according to claim 3, characterized in that the process-stabilizing impact device is flowed through by cooling air.