DE3031845A1 - Three stream purification of flue gas - using dry wet and by=pass streams in combination according to sulphur content - Google Patents

Abstract

In the Parent patent (describes a method of flue gas purification in which) 50% of the flow is dry purified after the electrostatic filters and 50% is wet purified; absorption agent is added in excess of the stoichiometric quantity in the dry stage and is utilised in the wet stage. The dry purified is mixed with the wet purified gas to discharge into the chimney at above the dew point of SO2. In this addition, the hot, dry flue gas purification stream is tapped from the boiler at above 350 deg.C, the wet gas purification stream is tapped behind the normal boiler outlet, i.e. behind an air preheater, pref. behind an electrostatic filter; a bypass leads upstream of the inlet to the wet gas purification stream but downstream of the electrostatic filter to conduct untreated gas directly to the gas mixing chamber; here it is mixed with the hot gas from the dry side and the cooler gas from the wet side. Desulphurisation in accordance with modern regulations can be achieved. The tapping of gas to form an additional, third stream as well as the dry and wet purification streams can be varied according to the amount of sulphur to ensure the correct temp. at discharge into the chimney.

Description

Description and explanation of the additional patent application

'Hybrid process in a three-line gas cleaning system' Addition to P 30 20 016.9 In the main application P 30 20 016.9 a method is described according to for example, 50% of the gas volume downstream of the electrostatic precipitator is cleaned dry and 50% wet are added, the absorbent being added over chiometrically in the dry process is, which is used for processing wet technology, in order not yet with the reacted absorption media, e.g. hydrated lime, to go into the wet system and the dry cleaned gas of e.g. 150 ° C with the wet cleaned gas of e.g. 55 ° C and thus a mixed gas in the chimney without additional energy costs that is above the dew point of SO2.

According to the invention, this method is to be expanded.

It is suggested to have flue gas in the area of the boiler in front of the Luvo sucking in with e.g. 5 to 15% of the total amount of exhaust gas that is to be desulfurized, preferably in the range around 400 OC, and this air through a hot gas filter, preferably E-filters, to be cleaned in order to then e.g.

70 to 80% of the remaining gases cleaned by wet technology in a mixer join together, wherein according to the invention it is further proposed that the amount of gas the wet technical Cleaning system gc'rui ## t wlrd, behind the Luvo with about 130 0C is removed and this amount of gas before it is in the wet technical Gas part opens, but behind the electric filter part, freed from dust, accepted and is fed to a mixer, the gas strands a) in this gas mixer hot gas line b) the wet-technically cleaned gas line and c) the only through Electric filter cleaned gas flow and here the required mixing temperature above the dew point.

The method according to the invention is shown in the accompanying drawing: with 1 the boiler with 2 the hot gas take-off in front of the Luvo with 3 the gas take-off behind the Luvo with 4 the gas take-off behind the E-filter with 5 the wet gas cleaning system with 6 the gas mixer with 7 the hot, dry chemisorption gas cleaning system with 8 the induced draft fan with 9 the chimney with 10 the chemisorption contact section in the hot gas cleaning part with 11 the gas flow regulators with which the individual wet and / or hot gas-dry gas quantities or gas quantities dedusted only by e-filters can be fed to the mixer (6) as required.

The inventive execution of the combination of a wet technology Flue gas cleaning of e.g. 70 - 80% of the total amount of flue gas, preferably must be desulphurized and thereby cooled down to approx. 55 0C, in combination with a dry-chemical gas cleaning carried out according to the invention in the range above 250 OC, preferably in the range of 400 OG, through the units (10) and (7) are carried out, with (10) preferably grinding up calcium carbonate is blown into the contact path and made usable there for chemisorption, around then these hot gases behind the hot gas filter (7) in the mixer (6) with the wet technology Mixing desulphurized gases is a guarantee that a) g # nudging high can be to meet the regulatory requirements and b) due to the desulfurization performance in the hot gas section behind (2) and in the low-temperature section behind (3) by wet cleaning (5) one more strand each after sulfur crude gas pollution at (4) is removed behind the electric filter, e.g. with 10% residual gas with about 130 0C to be fed to the mixer (6), so that by this triple process arrangement of the different gas cleaning systems a reheating by direct or indirect heat exchange, which was previously economical either by oil or gas burners is not responsible or only with insufficient availability via heat exchangers and high investment costs in accordance with the current state of the art is no longer necessary.

This hybrid process technology according to the invention in the range of low sulfur dioxide pollution, a sufficiently high desulfurization is economically viable Achieved reasonable devices according to the system technology shown.

Of course, the invention is not limited to the above in detail Forms of training shown and described are limited, but there are numerous Amendments possible, but without deviating from the basic idea, a gas cleaning process, preferably behind power plants, for exhaust gas cleaning the SO 2-hal term gases to use so that behind the boiler (1) the dry, hot Flue gas cleaning (2) with the decrease of the gas in the range of more than 350 ° C, is preferably taken upstream of the Luvo, fed to a gas mixer and a second Gas line, labeled (3), behind at the outlet of the normal gas cleaning line the Luvo is led to the wet gas cleaning (5), with a bypass behind at (4) the electrostatic precipitator, but before the wet gas cleaning, leads to the mixer (6), in which the hot gases coming from (2) are introduced, called dry chemisorption cleaned in the filter (7) with an upstream chemisorption contact section (10) have been, preferably an induced draft (8) via gas control flaps (11) 1. the Amount of hot gas, 2. the amount of gas cleaned by wet technology and 3. that which has only been cleaned of dust The amount of gas supplied to the mixer and, in doing so, a mixture through the control devices is possible, which is above the dew point of SO2.

Claim:

Claims (1)

Claim: Hybrid process according to main patent application P 30 20 016.9 characterized by the following combinations: 1. that the over the hot, dry Flue gas cleaning line amount of gas to be carried in the temperature range of the boiler from above 350 ° C is taken and 2. that the wet gas cleaning line behind the normal Boiler outlet, i.e. connected behind the Luvo, preferably behind the E-filter and 3. that a bypass in front of the entrance to the wet gas cleaning line, however behind the E-filter, untreated directly as raw gas of the gas mixing chamber without any significant Temperature loss is supplied and here with the hot gas from the dry flue gas cleaning and the colder gas from the wet flue gas cleaning is mixed and controllable Gas volume regulator above the dew point from the gas mixer to the induced draft and / or the Chimney is fed.