FI57839C - MED DIRECT CONTACT ARBETANDE INDUSTNINGSANORDNING - Google Patents

Description

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Patent- och rafletaretyraiaan 'AiwekmuttagdoehutUkmtwipubiiewad 30.06.80' (32) (33) (31) Requested muoUcmi — Begird prlorttet 21.01.70

France-France (FR) 7002059 (71) Babcock & Wilcox Limited, Haddon House, 2 A Fitzroy Street, London - W1P 5 AD, England-England (GB) (72) Pierre Henri Pacault, Ville D'Avray (Hauts de Seine ), Marc Kagans,

The present invention relates to a direct contact evaporating apparatus in which the thermal content of the liquid is utilized by combustion of the liquid. which results in the concentration of the liquid in a direct contact evaporator utilizing a portion of the heat released in the combustion chamber to cause the liquid to evaporate. More particularly, the invention relates to the incineration of black liquor generated in a pulp mill.

In the paper and pulp industry, the cooking of wood chopped into small pieces in lye-containing chemicals in the kitchen generates cellulose on the one hand and black liquor on the other - with lignin and chemical products. This lye is fed to a waste heat boiler to recover thermal energy and inorganic substances. However, it has a dry matter content of only (for example) 15% when it comes out of the digester and must be added to a value between 55-70% t depending on the amount of lye and the combustion method used.

Initially, the lye is concentrated in multifunctional evaporators using steam as the heating medium. The further the evaporation, the greater the risk of clogging of these evaporators. Therefore, the dry matter content is changed only to a value between 45-50% in steam-heated evaporators 2 57839 and further concentration is performed in direct contact evaporators, from which the lye is removed at the desired dry matter content.

In such direct contact evaporators, which are of different types, for example cyclone, venturi and cascade types, the black liquor is in direct contact with a hot medium, which usually has the exhaust gases leaving through the waste temperature preheater. The disadvantage of this is that the exhaust gases, which are removed after passing into the atmosphere through a direct-acting evaporator, transport volatiles from the lye together with combustible products, mercaptans and other foul-smelling sulfur compounds, which pollute the air and also reduce the leaching of such products and compounds.

Whereas it has previously been proposed to use air as a heating medium in a direct contact evaporator, in which the air is first heated by combustion gases in an indirect surface heat exchanger, the disadvantage is that such surface heat exchangers are particularly prone to clogging and cleaning. operation of electrostatic precipitators.

The object of the present invention is to eliminate the above-mentioned drawbacks. The invention therefore relates to a direct contact evaporator comprising a direct contact evaporator adapted to evaporate volatile substances to concentrate a liquid containing a combustible substance, the concentrated liquid being passed to a burner connected to the combustion chamber of the evaporator. , the air preheater being connected via an air duct to supply air preheated by the combustion gases to an evaporator operating in direct contact, and the invention is characterized in that a heat exchanger obtaining steam from the steam generating surfaces in the combustion chamber on direct contact with an evaporator.

The invention will now be described by way of example with reference to the accompanying diagram.

In the diagram, the combustion gases from the black liquor combustion chamber 2 generating steam 3 57839 next pass through the preheater 4 and the dust separator 6 before leaving through the chimney 8. The preheater 4 is preferably dimensioned to bind all the considerable heat which the combustion gases can in practice give off by exchanging surface heat. Thus, in one example, the combustion gases leave the preheater at a temperature of about 150 ° C.

The direct contact evaporator 10 is connected to effect the concentration of the black liquor, the heat generation content of which is to be utilized, by the direct heat exchange between the liquor and the hot air. The liquor is fed to the evaporator 10 through the inlet 12 and discharged through the outlet 14 to the combustion chamber 2 of the boiler 16 when hot air flows in the opposite direction of the liquor flow from the inlet 18 to the outlet 20 leaving the boiler.

Before entering the evaporator 10, the air is heated as it passes through three air heaters 26, 32 and 34 connected in series to the hot air supply path shown by the broken line, connecting the direct contact evaporator 10 and the air pressure blower 38.

The air heaters 26 and 32 use hot air and steam from the preheater 4 and the combustion chamber 2, respectively, as the heating medium, respectively, while the air heater 34 burns the gaseous or liquid fuel supplied to assist.

The air heater 26 is connected in series or in parallel with the water circuit of the preheater 4.

A valve-controlled bypass 40 is mounted past the fuel-fired air heater 34 and the evaporator 10, allowing heated air to be fed directly into the combustion chamber 2 when the black liquor is fed to the evaporator at a reduced rate to avoid excessive concentration.

During operation, the black liquor is concentrated in the evaporator 10 by direct contact with the hot air to the desired dry matter content, which allows it to be fed to the boiler 16 as a liquid fuel. The combustible volatile products which pass in the hot air from the evaporator 10 are combusted in the combustion chamber 2, whereby the utilization of the heat content of the lye is improved. In addition, this also prevents the release of malodorous or harmful combustible substances into the environment, which substances differ from the solution by immediate evaporation, either completely or substantially.

Thus, the considerable heat of the combustion gases is utilized ί 57839 at the maximum usable amount in the evaporator 10 by means of the steam generating tubes of the combustion chamber 2 and the preheater 4, which do not suffer from the fouling difficulties under which the combustion gas-heated air heaters are exposed. Since the combustion gases are not removed directly to the evaporator 10, when the temperature of the gases is removed from the preheater 4, the steam can be lowered to obtain a high overall efficiency.

According to an alternative system (not shown), an indirect evaporator air auxiliary heater is arranged to use the combustion gases of the combustion chamber 2 as a heating medium before they enter the preheater 4.

According to another alternative system (not shown), hot air is circulated through a valve piping from the outlet 20 of the evaporator 10 to the suction side of the fan 38. This arrangement allows the amount of air recirculated in the evaporator 10 to be increased without increasing the flow of hot air to the boiler and thus reducing the amount of heat supplied to the air heaters 26, 32, 34 to raise the air temperature necessary to concentrate the liquor.

While the foregoing description deals with the combustion of black liquor, it should be noted that the arrangement is similarly applicable to any other plant comprising a direct contact and hot air evaporator using the combustion gases of the combustion chamber connected to it as a heat source.

Claims (5)

5,57839 A direct contact evaporator comprising a direct contact evaporator (10) adapted to evaporate volatile substances to concentrate a liquid containing a combustible substance, the concentrated liquid being passed to a burner (16) connected to the combustion chamber (2) of the evaporator. , and an air preheater arranged in the combustion gas duct leaving the combustion chamber, which air preheater is connected via an air duct to supply air preheated by the combustion gases to the evaporator operating in direct contact, characterized in that the heat exchanger (32) and a combustion duct preheater block (4), is arranged in the air duct to transfer additional heat to the air before the air is led to the evaporator (10) operating in direct contact. Apparatus according to claim 1, characterized in that the air preheater heated with liquid fuel (3 * 0) is adapted to provide additional heating of the air before the air is led to the evaporator (10) in direct contact. Apparatus according to claim 1 or 2, characterized in that the preheater is arranged as a heat exchanger in the preheater block (4) of the combustion gas duct and downstream of the combustion chamber (2) and is adapted to reduce the heat content of the combustion gases to a value corresponding to the efficient discharge of gases through the dust separation element (6). Device according to one of Claims 1 to 3, characterized in that a line with a valve is arranged between the degassing line of the direct-contact evaporator (10) and the air inlet line of the device for returning gases to the direct-contact evaporator (10). 1. In the case of direct contact with the competent authorities, in addition to the direct contact with the competent authorities (10) anordnad att. genomic induction of fly ash concentrate in the case of branded plants, vilken concentrate in the case of airbrushes (16), which is an account for the use of airbrush chambers (2) the air channel to the front