DD280472A1 - METHOD AND ARRANGEMENT FOR THE RECYCLING OF MASS FROM SMOKE GASES - Google Patents

Abstract

The invention relates to the recovery of heat from flue gases using the condensation enthalpy at a higher temperature by absorption with the aqueous solution of an acid as a working substance. According to the invention, the flue gas from the combustion process or from the wet desulfurization directly acted upon and thus water-rich solution of an acid with steam low Exergie heated and regenerated in one or more expeller, wherein in the first apparatus an expulsion according to the increase in concentration without inert gas and in an expeller consisting of two or more steam rooms, the expulsion in the first steam room without inert gas and in the following steam rooms the constriction of the absorbent under inert gas presence happens. The resulting Wasserdaempfe or water vapor inert gas mixtures are separated by entrained Absorptionsmitteltroepfchen and used to heat a heating medium. The inert gas is sucked off and returned to the corresponding steam rooms. figure

Description

For this 1 page drawing

Field of application of the invention

The invention relates to the heat recovery from flue gases, which arise in particular in the pre-combustion of solid fuels in heating plants and power plants and are cooled due to a previous Naßentschwefelung by using the condensation enthalpy at temperatures above the dew point of the flue gas water vapor.

Characteristic of the known state of the art

The condensation of the water vapor contained in the flue gases in the connection of raw lignite begins only at flue gas temperatures of about 65 ° C, at temperatures of 50 ⁰ C only about half of the flue gas water vapor condenses. A use of the enthalpy of condensation in this low temperature range is possible for different reasons only in exceptional cases. Advantageously, the heat of condensation can be used at higher temperatures by absorption.

As working fluid systems for the heat transformation by absorption, aqueous solutions of acids, bases and salts are used. In these systems, water acts as a working medium. As drive energy for the implementation of the absorption process, the heat content of the flue gases is used. The flue gas temperature must not fall below 14O ⁰ C, otherwise successful process control is not guaranteed.

The absorption process is realized in such a way that the hot flue gas at temperatures around 200 ° C first ine inen desorber by indirect heat exchange through a heat-transferring partition from the sorbent in the absorber from the flue gas absorbed water in the form of water vapor is expelled again. The now water-poor solution absorbs moisture in the absorber in an open process from the cooled flue gas and is returned to the desorber as a heated, water-rich solution.

This method for using the enthalpy of condensation by means of an open sorption heat pump with the inclusion of the flue gas to drive the absorption process is disadvantageous, as on the one with the limited heat content of the flue gases only a small part of the water vapor contained in them can be absorbed and the heat gain is correspondingly low and on the other the pollutants contained in the flue gas by corrosion and solid deposition represent a significant burden on the apparatus required to carry out the process. Furthermore, the working substance is contaminated in the absorber by dust storage, thereby affecting its effectiveness. Finally, with the lowered in a wet desulfurization of the flue gases flue gas outlet temperatures of the absorption process can not be performed.

Object of the invention

The aim of the invention is to achieve in the combustion of solid fuels from the use of the condensation enthalpy of the flue gases increased heat gain while increasing the useful life of the apparatus and materials used.

Explanation of the essence of the invention

The invention has for its object to form the basis of the use of the enthalpy of condensation by absorption known method for heat recovery from flue gases so that cooled by wet desulfurization flue gases can be used and on the other a higher proportion of the moisture contained in the flue gases is absorbed. Furthermore, an arrangement is to be developed which, on the basis of the method, reduces impairment of the absorption process by contamination of the working substances and the corrosive loading of the apparatuses by pollutants.

According to the invention the object is achieved in that in the open sorption dust-de-aerated and desulfurized flue gas is dehumidified and heated with water-enriched sorbent heated with exergetisch low rated steam while the water is expelled from the absorbent in a multi-stage process.

In the first expeller stage, the absorbent is regenerated at constant pressure by using heating steam and the resulting inert gas-free vapor is condensed at the respective pressure and used to heat a heating medium. Subsequently, the solution enters an expeller having a plurality of steam chambers, wherein in the first steam chamber inert gas-free steam is formed, which condenses with heat release to the heating network.

In the subsequent steam rooms, which are in contact with sorbents of increased concentrations, inert gas is added. The heat in the condenser takes place in the presence of inert gas at a sliding temperature level and adapts better to the temperature profile of the liquid heating medium. On the other hand, the presence of the inert gas has a positive effect on the desorption process in that the desorption temperature remains almost constant and thus adapted to the temperature of the heating steam.

The constant system pressure to be maintained is adjusted by the change in the concentration of the inert gas in the steam-gas mixture to the present heating task. It is expedient that this system pressure is above the absorber pressure and used to transport the absorbent. However, the system pressure of the expeller can be lower than the pressure in the absorber, so that a pump is required to maintain the solution transport.

This occurs especially when Heizaufgaben'bei low temperatures and must be worked at high system pressures with high inert gas.

The vapor-+-inert gas mixture is passed, after separation of entrained absorbent constituents, into a condenser in which the vapor is condensed.

The remaining inert gas is sucked off and returned to the corresponding steam space.

The heating task according to the process can be realized in the simplest case in an apparatus which consists of an inert gas-free and an inertgasbeaufschlagten steam room.

According to the arrangement for carrying out the method, the absorber for the regeneration of the absorbent associated with one or more expeller, which are provided with heating surfaces in which condenses vapor.

With the proposed solution, the use of the heat of condensation in flue gases at temperatures above the dew point in contrast to the known method even at flue gas exit temperatures below 140 ° C is possible.

Thus, the enthalpy of condensation in the flue gases can be exploited by the wet desulphurisation process, which is increasingly used in the interest of environmental protection, and which has flue gas outlet temperatures of about 70 ° C. It is also advantageous that the new process with a nearly adiabatic absorption is far more efficient greater proportion of the moisture contained in the flue gases, which is 70% compared to 25% in the conventional processes, absorbed and thus a higher heat gain can be achieved.With the almost adiabatic absorption further heating of the cooled, desulfurized and purified flue gas, so that a conventional reheating of the flue gases is not necessary.

In addition, required for the absorption process equipment and agents are much less burdened by pollutants and dust deposits and are thus longer functional.

embodiment

The invention will be explained in an embodiment with reference to the drawing, in which a system for heat recovery from flue gases is shown schematically.

The plant consists of an absorber 1 with a flue gas inlet nozzle 2 and a smoke outlet 3. In the upper part of the absorber 1 is a spraying and distributing device 4 for the supplied absorbent, consisting of sulfuric acid and water, while in the lower part of the container, the cooling system 5 is arranged , The cooling system 5 is incorporated in the return of the heating network 6.

The second part of the plant is formed by an expeller 7, which consists of the partitioned by the partition wall 18 steam chambers 8,8a, the mixing tube 9 and the separation devices 10,10a. The separation devices 10, 10a of the respective steam space are connected downstream of the condensers 12, 12a connected to the return of the heating network 6. The condenser 12a is connected via the inert gas line 11 and the fan 13 connected thereto to the mixing tube 9 assigned to the vapor space 8a.

In the absorber 1 dedusted and desulfurized flue gas is passed through the flue gas inlet nozzle 2 with a temperature 70 ⁰ C and passed in countercurrent to the finely distributed by the spraying and distribution device 4 and introduced at about 80 ° C in the absorber 1 absorbent to the flue gas outlet nozzle 3 , The highly hygroscopic solution absorbs the water vapor contained in the flue gas by absorption. The enthalpy of absorption released is released via the cooling system 5 in the solution to the return of the heating network 6. During absorption, the water vapor concentration in the flue gas is reduced by about 70%, whereby the solution is diluted. There is a heating of the return to 10K. The flue gas is dehumidified in the absorber and passed at a higher temperature than the inlet temperature via the flue gas outlet nozzle 3 to the forge.

The diluted absorbent itself passes with the aid of a pump at a temperature of 65 ⁰ C from the solution line 14, after a temperature increase to 110 ⁰ C in the internal heat exchanger 15, to the expeller 7. About the steam line 16, the rich solution in the expeller 7 with Heating steam of minimal exergy, z. B. tapping or counter-pressure steam of the turbine heated.

The parameters of the supplied exhaust steam are approximately up to 135 ° C-150 ⁰ C and 0.3IvIPa-O ₁ SIvIPa.

Upon reaching the boiling point of the rich solution, the expulsion of the water vapor begins. The expulsion process is carried out in two stages.

In the first stage, water vapor enters the condenser 12 via the separator 10, in which the water vapor is separated from the entrained solution.

The released in the condensation of water vapor heat is released to the return of the heating network 6, the resulting condensate is discharged into a material cycle and used as make-up water.

In the second stage of the Austreibungsprozeses there is a higher acid concentration, so that with the heating steam used no further expulsion in the pressure prevailing in the first stage is possible. In order to maintain a constant system pressure 9 inert gas is passed through the mixing tube, whereby the concentration of the enriched absorbent for complete regeneration at the present heating temperature is possible. In the expeller, a total pressure is generated, which ensures the transport of the absorbent to the absorber 1 via the solution line 17 and avoids setbacks from the absorber 1. The resulting water vapor-inert gas mixture is freed in the separator 10a from the entrained sulfuric acid droplets, and then takes place in the condenser 12 a, the condensation of water vapor with heat release at a sliding temperature to the heating network 6, while the inert gas sucked through the fan 13 and back into the solution the second work step is passed.

The treated for the absorption process and heated to 13O ⁰ C concentrated solution passes through the solution line 17 and the inner heat exchanger 15, in which the poor solution is cooled in heat exchange with rich solution from the absorber 1 to 80 ⁰ C, for the absorption of the in the Flue gases contained in the absorber 1. Thus, all material cycles are closed.

Claims (4)

1. A process for heat recovery from desulfurized and cooled flue gases using the condensation enthalpy of the proportionate water vapor at a higher temperature by absorption using aqueous solutions of acids or salts as an absorbent, characterized in that using purified flue gases in the absorption with the water from the Absorbing process diluted solution is heated with low exergy steam in one or more expeller, wherein in the first apparatus an expulsion according to the increase in concentration without inert gas takes place and in an expeller, consisting of two or more steam chambers, the expulsion in the first vapor space without inert gas and in the following evaporation chambers, the concentration of the absorbent under inert gas presence happens, the resulting water vapor or water vapor inert gas separated from entrained absorbent droplets and ge for heating a heating medium be used and the inert gas is sucked off and returned to the appropriate steam rooms. 2. The method according to 1, characterized in that in the expeller an absorbent of high concentration is generated, with which takes place in the nearly adiabatic absorption heating of the cooled, desulfurized and purified flue gas. 3. The method according to claim 1 and 2, characterized in that the expulsion process is carried out in several stages with increased according to the increase in the solution concentration of inert gas. 4. Arrangement for heat recovery from flue gases, characterized in that in the simplest case the absorber (1) an expeller (7) is connected downstream, consisting of a container with reaching into the solution partitions (18) through the separate steam chambers (8, 8a) are formed above the liquid level, a heating surface (16) installed in the solution, a separation device (10, 10a) and a mixing tube (9) arranged in the solution in the second vapor space (8a), via an inert gas line (11) and a fan (13) is connected to a steam chamber (8a) downstream capacitor (12a).