DE3101362A1 - Process for flue gas drying and draught increase in furnaces and apparatus for carrying out the process - Google Patents

Abstract

To reduce the flue gas temperature in furnaces as far as the dew point without flue gas condensate being produced in the stack, the process comprises cooling the flue gas below the dew point, separating out the water vapour and impurities occurring in the flue gas, heating the purified flue gas and feeding the heated cooling water exiting from the first heat exchanger to the second heat exchanger. <IMAGE>

Description

The invention relates to a method for drying flue gas and increasing the draft in firing systems and to a device to carry out the procedure.

It is known to increase the efficiency of combustion systems To extract so much energy from the flue gases that the flue gas temperature is only slightly above the dew point temperature lies. There is a risk that the temperature will fall below the dew point, especially in partial load operation with the result that water contained in the flue gas condenses and damages the chimney. In addition, there is the risk that the chimney buoyancy is no longer sufficient to discharge the flue gas through the chimney by natural draft so that, unless a boiler with an overpressure burner is used will take additional measures, such as -using a chimney fan or a special induced draft are required.

The object of the invention is to lower the temperature of the flue gas by means of a suitable method for drying flue gas in firing systems down to the dew point without the need for both full load and partial load im Chimney flue gas condensate accumulates and / or pulling aids are required for the flue gas extraction. Furthermore, a device be created, by means of which the method can be carried out.

According to the invention, the object is achieved in that the

Flue gas emerging from the furnace is cooled below the dew point in a first heat exchanger and in the flue gas Any water vapor and impurities located there are separated out and the cleaned one in a second heat exchanger Flue gas is heated again so far that the flue gas emerging from the second heat exchanger by its own buoyancy forms a natural draft in the chimney, whereby the heated cooling water exiting the first heat exchanger is completely or partially circulated through the second heat exchanger and optionally a further heat exchanger for preheating of service water or the like. applied.

In one embodiment of the invention, the device for carrying out the method is characterized by two in series Switched heat exchangers through which flue gas can flow, in which the outlet nozzle of the heat exchanger battery of the in Direction of flow of the flue gas of the first heat exchanger with the inlet connection of the heat exchanger battery of the second heat exchanger and its outlet stub with the inlet stub of the heat exchanger battery of the first heat exchanger is connected and in which formed by the connecting lines between the outlet nozzle and the inlet nozzle Flow circuit a heat exchanger for preheating domestic water or the like. is arranged.

Further features of the invention are described in the subclaims and below with reference to the two in the drawings

for example devices according to the invention shown explained in more detail. It shows

1 shows a device for flue gas cooling in a schematic representation,

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Fig. 2 shows a further embodiment of a device for flue gas cooling in a schematic representation.

The device 1 shown in Fig. 1 has two heat exchangers 3, 4, which are connected in series to the flue gas duct 12 are connected. The first heat exchanger 3 'serves to cool the flue gas coming from the fireplace down to below the dew point temperature, so that the water vapor contained in the flue gas and impurities are eliminated here will. The condensate exits through a condensate outlet nozzle 26. In the subsequent heat exchanger 4 is the cleaned of water vapor and impurities is heated so far that in the following chimney due to the flue gas buoyancy creates a natural draft. Depending on the boiler system in question, this does not necessarily have to be that large be in order to overcome the resistance on the flue gas side, since this is done if necessary, an overpressure burner or fan is also used can be.

The device 1 is particularly suitable for flue gases which enter the heat exchanger 3 ^{at high temperatures of 180 °} C. to 250 ^{° C. and more.}

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A flow circuit 9 is provided for carrying out the process. The inlet connector 7 of the heat exchanger 3 is connected to the outlet connector 8 of the heat exchanger 4 by means of a pipeline tied together. The outlet stub 5 of the heat exchanger 3 is also connected to the inlet stub by means of a pipeline 6 of the heat exchanger 4 in operative connection. For this purpose, there is a pipeline connected to the outlet nozzle 5 Three-way valve 16 is arranged, one of which is an outlet as a bypass line 15 is connected to a further three-way valve 17, which is connected to the inlet connection 6 in the Pipeline is connected. The free outputs of the three-way valves 16, 17 are by means of connecting lines 13, 14 with a Heat exchanger 10 connected, for example for domestic water preheating can be determined. In order to allow the liquid to circulate in the flow circuit 9, a circulation pump 23 is provided between the three-way valve 17 and the inlet connection 6 is arranged. For reheating the heating water entering the heat exchanger 4 via the inlet connection 6 to heat the flue gas a reheater 11 is provided in the bypass 15. This reheater 11 can be used as an electrical heating register, Heat exchanger acted upon by boiler water or as in the flue gas duct 12 between heat exchanger 3 and fireplace arranged heat exchanger be formed.

Since the operating states in the heat exchangers 3, 4 depend on the flue gas inlet temperature and the water vapor content of the flue gas and the outlet temperature of the flue gas at the heat exchanger 4 required for a natural draft.

are borrowed is a control system for operational optimization intended. A controller 20 is connected to the actuators 18, 19 of the three-way valves 16, 17 by means of control lines. In each heat exchanger 3, 4, a measuring sensor 21, 22 is provided on the output side, which is provided with a measured value transmission line 25 is connected to the controller. By measuring the operating states in the heat exchangers 3, 4, the controller the valve positions required on the three-way valves 16, 17 are set.

In Fig. 2, a device la is shown, which is particularly suitable for those flue gases 2 that are already with relatively enter the first heat exchanger 3 at low temperatures. In the flow circuit 9a of this device la is the three-way valve 16 in the supply line to the inlet connector 7 and the three-way valve 17 in the one connected to the outlet connector 8 Line arranged. Between the two three-way valves 16, 17 a bypass 15 is again provided, while the other valve outlets via connecting lines 13, 14 with a heat exchanger 10 are connected.

The reheater 11 is arranged in the line 28 which connects the outlet nozzle 5 of the heat exchanger 3 to the inlet nozzle 6 of the heat exchanger 4 connects. It is possible to design this line 28 so that the reheater 11 as in the flue gas duct 12 to be arranged heat exchanger can be formed. In the pipeline 28, a throttle valve 11 is also provided,

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with which the flow rate can be adjusted. Preferably this throttle valve is designed as a solenoid valve. The three-way valves 16, 17 can also be designed as solenoid valves. The control device corresponds to that of device 1.

The heat exchanger 3 is advantageously made of corrosion-resistant Material made so that the acids produced during the precipitation of the condensate do not become one premature damage to the heat exchanger 3 and thus the device 1, la lead.

It is also possible to arrange the heat exchangers 3, 4 of the device 1, 1 a horizontally in the chimney. Preferably the heat exchangers 3, 4 are then installed in the area of the foot of the chimney. The heat exchangers 3, 4 can also be integrated into an element, preferably a foot element, of an element chimney consisting of prefabricated parts. This reduces the on-site expenses for the new construction of boiler systems.

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Claims (14)

310136 / DIPL.-ING. J. RICHTER ;. ; ^: . ; ^: -PATENT ADVOCATES DIPL.-ING. F. WERDERMANN .'UCFIL. VtRIHtTtR AT THE EPA I WOF E L.SION AL RtPRESENTATIVES BCFORE t PO ■ MANDATAIRLi. 4 (, »l LT. IHI ¹ ', t ·> l Il 2OOO HAMBURG 36 16.1.19 81 NEW WALL 1O S (O 4O) 34 OO 45/34 OO 56 TELEGRAMS: INVENTIUS HAMBURG TELEX 2163 551 INTU D OUR «, CHEN / OUR F.LE 4442-1-806 91 /" III-80692 Applicant: Vinzenz Silier, 2000 Hamburg - 13 T itle: Process for flue gas drying and draft increase in combustion systems and device for carrying out the process. Patent claims: Process for flue gas drying and draft increase in combustion systems, characterized in that the flue gas emerging from the furnace is in a first heat exchanger cooled below the dew point and excreted water vapor and impurities in the flue gas are and in a second heat exchanger the cleaned flue gas is heated again so far that the flue gas emerging from the second heat exchanger creates a natural draft in the chimney by its own buoyancy forms, with the exiting from the first heat exchanger heated cooling water wholly or partially through circulates the second heat exchanger as well as optionally another heat exchanger for preheating domestic water or the like. applied. 2. The method according to claim 1, characterized in that that the exiting from the first heat exchanger heated cooling water before entering the second Heat exchanger in one reheater to a higher temperature than the temperature in the second Heat exchanger entering flue gas is heated. 3. The method according to claim 1 and 2, characterized in that the heat exchanger for preheating of domestic water or the like. from the one exiting the first heat exchanger Heating water or the heating water exiting from the second heat exchanger is applied. 4. Apparatus for performing the method according to claim 1 to 3, characterized by two connected in series Heat exchangers (3, 4) through which flue gas (2) can flow, in which the outlet nozzle (5) of the heat exchanger battery of the first heat exchanger (3) in the flow direction of the flue gas (2) with the inlet connection (6) of the heat exchanger battery of the second heat exchanger (4) and its outlet nozzle (8) with the inlet nozzle (7) the heat exchanger battery of the first heat exchanger (3) is connected and in which by the connecting lines between the outlet nozzle (5) and the inlet nozzle (6) formed flow circuit (9,9a) a heat exchanger (10) for preheating of service water or the like. arranged is. 5. Apparatus according to claim 4, characterized in that between the outlet nozzle (5) of the first heat exchanger (3) and the inlet connection (6) of the second heat exchanger (5) a reheater (11) is arranged. 6. Apparatus according to claim 5, characterized in that the reheater (11) is designed as a heat exchanger is that with heating water, domestic water or the like. can be acted upon. 7. Apparatus according to claim 5, characterized in that the reheater (11) as an electrical heating register is trained. 8. Apparatus according to claim 5, characterized in that the reheater (11) is designed as a heat pump is. 9. Apparatus according to claim 5, characterized in that the reheater (11) is designed as a heat exchanger which is arranged in the flue gas duct (12) between the fireplace and the first heat exchanger (3). 10. Apparatus according to claim 4 to 9, characterized in that between the connecting lines (13, 14) of the heat exchanger (10) for preheating domestic water or the like. parallel to the heat exchanger (10) one Bypass line (15) is arranged, which is connected to the connecting lines (13,14) by means of three-way valves (16,17) is. 11. The device according to claim 10, characterized in that the three-way valves (16,17) actuators (18,19) which are connected to a controller (20) associated with one of each heat exchanger (3, 4) Sensor (21,22) is in operative connection. 12. The device according to claim 4 to 11, characterized in that the between the outlet nozzle (5) of the Heat exchanger (3) and the inlet connection (6) of the heat exchanger (4) formed flow circuit (9,9a) as closed circuit is formed in which a circulation pump (23) is arranged. 13. Apparatus according to claim 4 to 12, characterized in that the heat exchanger (3, 4) horizontally in that of the fireplace assigned chimney are arranged. 14. The apparatus according to claim 13, characterized in that the Heat exchangers (3, 4) are integrated into an element of an element chimney.