DE3211196A1 - Process for removing dust from different gas streams - Google Patents

Abstract

To remove dust from a plurality of gas streams differing with respect to flow rate, composition, temperature, dust charge etc., a process is proposed in which each individual gas stream is conditioned separately, then fed to a gas mixing chamber and finally collectively purified in an electrostatic precipitator. Such a process is suitable in particular for the gas streams produced in a steel works from so-called secondary dust sources. In this case, gas streams from 25,000 to 2 million m<3>/h are produced in a temperature range from 50 to 750 DEG C. In order to be able to wholly or substantially avoid conditioning at low gas temperatures, which is only possible with expensive steam, it is proposed to humidify the gas streams at relatively high initial temperature more intensively than is required for the electrostatic purification, in order to introduce into the gas mixing chamber by this means the amount of moisture required for the gas streams of low temperature and to be able to feed to the electrostatic precipitator a correctly conditioned overall gas stream.

Description

Process for dedusting different

Gas flows The invention relates to a method for dedusting several different in terms of quantity, composition, temperature, dust load, etc. Gas flows.

Such a task occurs, among other things, at steelworks, where one is increasingly trying to capture all dust sources and environmental pollution to be kept as low as possible by dusty exhaust gases. The dust sources are there not only spatially separated from each other, they also give way to gas quantity, gas temperature, Dust load and dust quality differ greatly from one another and also show strong and rapidly changing fluctuations.

In addition to the main dedusting system for the converter exhaust gases in modern systems mostly with a device for the recovery of the combustible exhaust gases connected is another dedusting system for collecting and cleaning the so-called secondary dust sources are required.

In the following table are some secondary dust sources with their at different operating states accumulating gas quantities compiled.

Dust source Operating mode Temperature Amount (Oc) m3 / h Transfer pit Constant Suction 50 25 000 Transfer 80 205 000 Deslagging level Deslagging 80 105 000 Ab C on s t and Constant suction 70 12 500 Mixer filling 70 200 000 Removing 70 200 000 Filling of scrap 400 1 235 000 Filling of pig iron 750 1 875 000 Converter melting of 250 575 000 crude steel emptying v. Crude steel 100 820 000 and slag argon flushing flushing 200 260 000 plant In a steel mill plant with two converters are often two deslagging stands, two mixers and two argon flushing systems available, so that the number of secondary dust sources can double as a result.

All gas quantities from the secondary dust sources should ultimately be fed to an exhaust chimney, expediently also only one fan and an electrostatic precipitator can be provided as a dust extractor.

Experience has shown that the dust produced has a very high electrical level Have resistance, which makes separation in the electrostatic precipitator very difficult, a conditioning known per se must be provided, i.e. humidification and / or cooling the gas flows by means of admixing steam and / or spraying of water. Conditioning with water in a conditioning tower is, however only possible if the respective gas temperature is high enough, in order to be able to evaporate the required amount of water of e.g. 15 g per m3 of exhaust gas. At low gas temperatures, only conditioning with steam is possible, which is about 10 times as expensive as conditioning with water.

It is therefore the task of a method of the initially mentioned type to carry out the gas dedusting as economically as possible and for all operating conditions of the entire system ensure that the specified dust content in the clean gas are not exceeded even if briefly from individual dust sources maximum amounts of gas with a high dust content and high temperature occur. Furthermore is ensure that low-temperature gas quantities are also adequately conditioned without doing more than absolutely necessary on the expensive conditioning must be resorted to with steam.

To solve this problem, it is proposed that the individual gas flows to condition each individually, then to be fed to a gas mixing chamber and finally to be cleaned together in an electrostatic precipitator. Conditioning is expedient carried out in conditioning towers by spraying water and / or steam. In a further development of the inventive concept it is provided that the mixing chamber in addition, non-conditioned dust-containing gas streams are fed in. Preferably is the process for dedusting the gas flows occurring in a steelworks applied from secondary dust sources.

According to the invention it is possible to use the conditioning towers for the individual gas flows closely to the respective operating conditions customized to be interpreted and accordingly., to provide control devices and fluctuations by Change the water injection to compensate quickly, so that the gas mixing chamber for a dedusting process, largely optimal processed gas flows can be fed It is also possible to use gas flows with a higher initial temperature than necessary to moisten to get a conditioning of gas flows of lower temperature to save with steam, because the moisture content can then be set so high can that after the mixing of the two gas streams the desired final moisture content is present in the gas stream.

It depends on the overall design of the steel mill and its Operating mode from whether steam conditioning is still to be provided at all got to. If such favorable conditions are not given, individual ones must be critical Steam conditioning can be provided for gas flows or a combined one Water and steam conditioning, which by means of the control depending on the Inlet temperature can optionally be switched on. Generally one will however, completely dispense with steam conditioning in the proposed method can, especially if a sufficiently large mixing chamber is provided, the it allows to compensate briefly occurring critical conditions and the Electrostatic precipitators always have a uniform and adequately conditioned total gas flow to feed.

Claims (4)

PATENT CLAIMS 1. Method for dedusting several with regard to Amount, composition, temperature, dust load etc. of different gas flows, characterized in that the individual gas streams are each conditioned individually, then fed to a gas mixing chamber and finally together in an electrostatic precipitator getting cleaned. 2. The method according to claim 1, characterized in that the conditioning takes place in conditioning towers by spraying water and / or steam. 3. The method according to claim 1, characterized in that the mixing chamber in addition, non-conditioned dust-containing gas streams are supplied. 4. Application of the method according to one of claims 1 to 3 for dust removal the gas flows from secondary dust sources occurring in a steelworks.