DE2851206A1 - METHOD AND INSTALLATION FOR THE USE OF HOT EXHAUST GAS FROM HEAT GENERATORS - Google Patents

Description

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■. '■ - /, Nov. 24, 1978

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Specimen copy I

Froling GmbH & Co. Boiler apparatus construction

5063 Overath

Process and system for using the hot exhaust gases from heat generators ^H

The invention relates to a method for using the hot exhaust gases of a fuel-fired, at least partially for Heating of circulating heating water serving heat generator, whereby the heating return water is supplied with the hot flue gases

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is warmed, as well as a heating system to carry out the Procedure.

To use hot exhaust gases, it is known to use a waste heat boiler, which is connected downstream of a heat generator and its exhaust gases are acted upon. The majority of the usual heat generators can operate with full load and part load be driven, the burners being supplied with fuel quantities depending on requirements. Depending on the Depending on the operating status, different amounts of exhaust gas with sometimes differently high temperatures arise. In partial load operation it therefore often happens that in the chimney the dew point is not reached, so that harmful condensation phenomena can occur.

In other known systems, attempts have already been made to compensate for the different amounts of exhaust gas in that in the Exhaust gas bypass lines are installed. Apart from the fact that in these systems the exhaust gases are no longer fully exploited can be, the bypass line system represents a considerable outlay in terms of device technology and leads to changing pressure in the exhaust pipe.

The invention is based on the object of creating a method for using the hot exhaust gases from heat generators in a heating circuit, which with little device technology

- 3 030022 / CH82

Effort is sufficient, enables optimal use of the exhaust gases and the risk of falling below the dew point in the chimney as far as possible excludes.

According to the invention this object is achieved in that a partial flow branches off from the heating return water, through the The entirety of the exhaust gases coming from the heat generator are heated up by heat exchange and again before the heat generator the remaining heating return water is combined and that the amount of the branched off partial flow depending on the Chimney outlet temperature of the exhaust gases is controlled in such a way that the exhaust gas temperature is always above the dew point.

In the method according to the invention, there is therefore a heat generator downstream heat exchanger is provided through which the totality of the exhaust gases coming from the heat generator regardless of whether the heat generator is operated at full load or part load. The variable Exhaust gas conditions are compensated for by the fact that only the amount of partial flow branched off from the heating return water is varied, which is passed through the heat exchanger and absorbs the heat of the exhaust gases.

The amount of the branched off partial flow is reduced when the chimney outlet temperature falls and when the rabbit outlet temperature rises enlarged.

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In the case of changing exhaust gas conditions, a Maintain a substantially constant exit temperature of the exhaust gases, which is only slightly above the dew point. on this way you can achieve the greatest possible heat recovery.

In operating states with only very small amounts of exhaust gas and / or low exhaust gas temperatures, the case could arise that the partial flow would have to be completely switched off in order to achieve a sufficiently high chimney outlet temperature of the exhaust gases. In such an operating state, however, there is a risk that the residual amounts of water remaining in the heat exchanger will be heated to an impermissibly high level. In order to ensure that the residual water in the heat exchanger ^{does not exceed a temperature of 110 °} C., for example, the partial flow can be increased again depending on the water temperature in the heat exchanger, with the risk that the dew point in the chimney will be undercut in exceptional cases will. Alternatively, however, the burner of the heat generator could be switched off briefly when an impermissibly high water temperature is reached in the heat exchanger.

The heating system for carrying out the method according to the invention consists expediently of a fuel-heated, preferably gas or oil-fired, at least partially for the

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heating of circulating heating water as well as an exhaust gas heat exchanger connected in the exhaust gas path for heating the heating return water and is characterized in that the exhaust gas heat exchanger is traversed by the totality of the exhaust gases from the exhaust water flow path of the engine exhaust water outlet that is flowed through in the return flow line of the engine exhaust water , Δ & Β one output of the porridge-way valve is connected to the heat generator via a direct main line and the other output is connected to the exhaust gas heat exchanger via a partial flow line »whereby an intermediate line is provided for forwarding the preheated partial flow water, which is at a point between the three-way valve and the heat generator opens into the main line, and that a temperature regulator is provided to control the three-way valve, which is connected to a temperature sensor for the chimney outlet temperature.

The temperature sensor can be in the area of the chimney outlet cross-section be arranged, whereby it directly determines the chimney outlet temperature. However, the temperature sensor can also be arranged below the chimney outlet cross-section, but then the temperature controller is to be set so that Depending on the insulation condition and the height of the chimney, a correction factor for the temperature must be taken into account.

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To report that the water in the heat exchanger is under certain Extreme conditions are not heated to an unacceptably high level, a second one can be installed in the upper area of the heat exchanger Temperature sensor can be provided, which determines the temperature of the heated partial flow water and for a counter control is also connected to the temperature controller to limit the maximum water temperature in the heat exchanger.

The invention is illustrated, for example, in the drawing and in the following in detail with reference to the drawing described.

In the drawing, the view of a heating system for a water central heating is shown in a schematic representation.

According to the drawing, the heating system consists of a boiler 1 with a burner 2, which can be acted upon with a corresponding amount of gas or oil as required. The exhaust gases from the boiler 1 pass in their entirety into a heat exchanger immediately downstream of the boiler 1 3, from which they reach the chimney 5 via an exhaust pipe 4. *

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The boiler, which can be of any type, is provided with an inlet connection 6 and an outlet connection 7, to which the heating water return line θ or the heating water flow line 9 is connected.

The heat exchanger 3 has in its interior a bundle of parallel tubes 10 arranged in the vertical direction, those on their underside with a common water inlet 11 and on the top with a common water outlet 12 stay in contact.

The exhaust gases emerging from the boiler 1 are in the lower Area of the heat exchanger 3 introduced via an inlet connection 13 into the heat exchanger, so that they are the water-bearing Rinse vertical pipes 10 in cross flow, via the Exhaust pipe 4, which is laterally connected to the upper region of the heat exchanger 3, leave the exhaust gases after Heat exchange the heat exchanger in turn in cross-flow to the vertical pipes 10 and pass through the chimney 5 into the Free.

In the heating water return line 8 is a motor-operated Three-way valve 14 switched, from which an output 15 via a direct main line 16 to the inlet port 6 of the boiler 1 is connected, while the other output 17 is connected via a partial

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power line 18 with the Wassereiniaßstutzen 11 of the exhaust gas heat exchanger 3 is connected. For forwarding the partial flow water preheated in the heat exchanger 3 is used a from intermediate line 19 'which emerges from the upper connection 12 of the heat exchanger 3 at a point between the three-way valve 14 and the inlet connection 6 of the boiler 1 opens into the main line 16.

To control the motor-operated three-way valve 14 is a Temperature controller 20 or a correspondingly suitable control device is provided. This is in connection with a temperature sensor 21, with which the chimney outlet temperature is measured directly or indirectly.

In order to utilize the exhaust gases as much as possible, the system is operated in such a way that the chimney outlet temperature is always slightly above the dew point. This is achieved in that the amount of the branched off partial flow with falling chimney outlet temperature is reduced and increased as the chimney outlet temperature rises. Changes in exhaust conditions are automatically taken into account, so that the system can operate both at full load and at any part load of boiler 1 is working optimally.

For safety reasons, close to the exit area of the heat

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exchange 3 »where the preheated partial flow water enters the heat exchanger leaves, a second temperature sensor 22 is provided, which is also connected to the temperature controller 20 in connection stands. The temperature sensor 22 monitors the water temperature in the heat exchanger 3 and there when the maximum water temperature in the heat exchanger 3 is exceeded is, a signal to the control unit 20. Exceeding the maximum water temperature can under unfavorable Conditions occur when the partial flow 3 passed through the heat exchanger is interrupted. In one In such a case, the partial flow 3 is briefly switched on again or something, regardless of the chimney outlet temperature elevated.

With the heating system shown in the drawing, the largest possible with little outlay in terms of equipment Cooling of the whole of the exhaust gases coming from the boiler 1 possible by transferring the heat of the exhaust gases to one variable partial flow of the heating return water3 is given.

Of course, the principle described can also be used with other heating systems.

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Claims (1)

28512: ''"i ^f nidi yg ' ^ * ·; ° - ^? ' - ^{24 Nov} Froling GmbH & Co.
Kesael Apparatetoaii
Overatfa Claims Method for using the hot exhaust gases of a fuel-fired heat generator serving at least partially to heat circulating heating water, the heating return water being preheated with the hot exhaust gases, characterized in that a partial flow of the heating return water is branched off through the entirety of the exhaust gases coming from the heat generator Heat exchange is heated and reunited with the rest of the heating return water in front of the heat generator and that the amount of the diverted partial. Current is controlled as a function of the chimney outlet temperature of the exhaust gases in such a way that the exhaust gas temperature is always above the dew point. 0 3CC22 / 0482 2. The method according to claim 1, characterized in that that the amount of branched off part-routine reduced with falling chimney outlet temperature and increased with rising chimney outlet temperature will. 3 · Method according to claim 1 or 2, characterized in that that with changing exhaust gas conditions an essentially constant chimney outlet temperature the exhaust gas is maintained, which is only slightly above the dew point. 4. The method according to claim 1, characterized in that that for operating conditions with small amounts of exhaust gas and / or low exhaust gas temperatures at exceed a predetermined upper partial flow temperature, the partial flow amount is increased. 5. Heating system for performing the method according to claim 1 with a fuel-fired, at least partially for heating the circulating heating water as well as a heat generator connected in its exhaust gas path Heat exchanger for preheating the heating return water, characterized in that the Ö3G022 / 0482 Exhaust gas heat exchanger (3) from the entirety of the exhaust gases from the heat generator (1) flows through that in the return line (8) of the circulating heating water is a motor-operated Three-way valve (14) is provided that the one output (15) of the three-way valve (14) via a direct main line (16) with the heat generator (1) and the other outlet (17) via a partial flow line (18) is connected to the exhaust gas heat exchanger (3), a Intermediate line (19) is provided, which at a point between the three-way valve (14) and the heat generator (1) opens into the main line (16), and that a control device (20) is provided to control the three-way valve (14), which is connected to a temperature sensor (21) for the chimney outlet temperature. 6. Heating system according to claim 5 »characterized in that that the temperature sensor (21) is arranged in the area of the chimney outlet cross-section, 7. Heating system according to claim 5 »characterized by g e, that the temperature sensor (21) is arranged below the chamber outlet cross-section. 03GO22 / 0482 8. A heating system according to claim 5 _t characterized g e - indicates that a second temperature sensor (22) is provided in the upper region of the heat exchanger (3), which measures the temperature of the heated TeIlstromwassers and to limit the maximum water temperature in the heat exchanger (3 ) is connected to the control device (20) for a corresponding counter-control. Q3C022 / 0482