DE3034610A1 - Central-heating additional air heating system - has circulating air heat exchanger in flue with fan in ducting - Google Patents

Abstract

The additional air heating system is for a central heating system with boiler, feed and return pipes, and flue. A combustion-gas-to-circulating-air heat-exchanger (4) is mounted in the flue of the boiler (1), and connected by air ducts (5) to the inlet and outlet (7,8) in a room (6) to be heated, and a fan (9) is mounted in this conduit. Between the boiler and this heat-exchanger there can be one between the combustion gas and mixed air (10), a mixed-air passage (11) to this branching off from the air ducting. This passage discharges into the flue (3) behind the first exchanger (4), delivering heated air into the gases via an injector (12).

Description

The invention relates to an additional air heater for a

Heating system with a boiler with flow, return and with exhaust duct leading to a chimney.

In current heating systems with gas or oil-fired boilers it is common practice to apply the combustion efficiency to the calorific value of the fuel.

However, in the last few years one has also dealt with the development concerned with so-called condensing boilers, in which the combustion efficiency is related to the calorific value of the fuel. Because it is known that in the. Utilizing the calorific value of a fuel - that means cooling the exhaust gases to low temperatures and condensation of a substantial part of the exhaust gas contained water vapor - there are considerable opportunities for energy savings. the Condensing boilers designed to date are, however, disadvantageous for various reasons. So the cooling achieved the. Exhaust gases and the condensation of water vapor in the Exhaust gas with the help of the heating return water is only used for the utilization of the Satisfactory calorific value if the temperature of the heating return water is as low as possible, at z. B. 30 ° C to a maximum of 40 ° C. Such low Return temperatures are, however. only with low-temperature heating systems, such as B. ceiling and floor heating or other equipment with large-area heating elements Heating systems. Retrofitting one with a conventional hot water heater equipped e- or multi-family house to a low temperature heating is very expensive.

The known condensing appliances are therefore generally for already existing buildings cannot be used. - In addition, the constant derivation of from the exhaust gas condensing water with a. Temperature over 30 ° C in the public Sewer network not permitted under the Waste Water Duties Act. It is also to be expected that the moisture-saturated, strongly cooled exhaust gas further moisture inside the chimney due to condensation of the water vapor gives off on the chimney walls and consequently the chimney becomes damp. comes. Also undesirable fog formation when the moisture-saturated material escapes Flue gas from the chimney and subsequent mixing with the? cold outside air is not excluded. - This is where the invention aims to remedy the situation.

The invention is based on the task of providing an additional air heater of the type described at the beginning for the utilization of the calorific value, with which retrofit existing heating systems easily and inexpensively and with? with constant flow and return temperature continue to operate the in particular, an improvement in efficiency and a corresponding energy saving guaranteed.

This object is achieved by the invention with an additional air heater of the generic type in that an exhaust gas / circulating air heat exchanger and to the boiler on the exhaust side the exhaust gas / circulating air heat exchanger is connected to a circulating air duct, which from and to an additional room to be heated with exhaust air opening and supply air opening for the circulating air to be heated leads in the exhaust gas / circulating air heat exchanger, and that in the Circulating air duct a fan is arranged. - In the context of the invention, the air circulation duct kept as short as possible and has its' supply air and exhaust air opening in one frequent used room with a relatively high heat requirement, such as B. the main living room of a Single-family house, the stairwell of an apartment building or the entrance hall of a hotel. The distribution of the heated circulating air in this room can be set up easily so that no short-circuit flow between the Exhaust air and supply air opening of the circulating air duct can arise. The amount of heat that’s itself can be supplied via the circulating air flow to the central, frequently used room, is around 15% to 20% of the nominal heating output of the boiler. The one with warmed up For this reason, hot water radiators that are usually provided with circulating air can be used be significantly throttled or even turned off.

About water vapor condensation in the chimney and fog formation at the chimney outlet The invention also proposes to avoid it, and this proposal comes independently Meaning but also in combination with the claimed measures that between the boiler and the flue gas / circulating air heat exchanger, a flue gas / mixed air heat exchanger ' is angeo'rdnet ', and that a mixed air channel branching off from the circulating air channel over the exhaust gas / mixed air heat exchanger is guided and in the direction of flow behind the Exhaust / circulating air heat exchanger opens into the exhaust duct and with an end Injector mixes heated mixed air with the exhaust gas flow. Through these measures will not only water vapor condensation in the chimney and fog formation at the chimney outlet Instead, the pressure loss on the exhaust gas side in the exhaust gas / circulating air heat exchanger is avoided. compensated by the negative pressure generated by the injector. The pressure conditions on the exhaust gas side are therefore not changed for the boiler, so that the additional air heater according to the invention not only for boilers with fan burners, but also for boilers with burners can be used without a fan and a combustion chamber. It's always for it There is concern that the exhaust gas flows through the injector into the exhaust duct Mixed air is conveyed sufficiently safely. For this purpose, the mixed air flow is roughly the same great as adjusted the exhaust gas flow, so that when the mixed air flow is heated The exhaust gas is correspondingly cooled in the exhaust gas / mixed air heat exchanger. The for The amount of energy required to heat the mixed air is comparatively low.

According to another embodiment of the invention, however, there is also the possibility that the mixed air duct is behind the exhaust gas / circulating air heat exchanger in the direction of flow branches off and opens into the exhaust duct. This has the advantage that a separate Exhaust / mixed air heat exchanger is not required, but must always be required for the Pressure difference between the circulating air duct and the exhaust duct must be taken care of, so that flawless exhaust gas pumping is guaranteed. If this is between the exhaust duct and recirculation duct existing pressure gradient is not sufficient, can in the exhaust duct an exhaust fan can be arranged. This also applies to another alternative embodiment, after which the exhaust gas exits the exhaust gas / circulating air heat exchanger through a boiler water / exhaust gas heat exchanger is performed, so to the extent that a reheating of the? Exhaust gas' after the exit the exhaust gas / circulating air heat exchanger with the help of the Heizkeselwassers takes place to water vapor condensation in the chimney and to prevent mist formation at the chimney outlet.

Further features essential to the invention are listed below. The invention provides that the exhaust gas / circulating air heat exchanger 'has a condensate drain with a collecting tank with overflow arranged below the heat exchanger having. Since the condensed water contains dissolved carbon dioxide, the heat exchanger exists preferably made of corrosion-resistant material. Appropriately, the. Exhaust- and the circulating air flow in the heat exchanger in the sense of a countercurrent or. Cross / countercurrent principle guided. Since the 'temperature of the' condensate to be discharged is only about 30 ° C or is less, it is possible to divert the condensation water into the general sewer network initiate. Since there is a slight overpressure in the exhaust gas duct of the exhaust gas / circulating air / heat exchanger can occur, the condensation water is over the collecting tank and an 'overflow derived.

According to the invention, the fan is upstream of the exhaust gas / circulating air heat exchanger in the direction of flow inserted into the air circulation duct.

It can be controlled by the control current that controls the relevant 51 or gas valve when a gas or oil-fired boiler opens, it is switched on. Further there is the possibility of the fan by a thermostat switch, its Temperature sensor in the. Exhaust duct is housed to turn off.

Connected to the air circulation duct on the suction side of the fan Outside air duct, outside air can be mixed with the circulating air. The regulation of the Mixing takes place with the help of a control flap.

The advantages achieved by the invention are essentially therein to see that the auxiliary air heater according to the invention is simple and inexpensive with already existing heating systems also by way of a subsequent installation can be combined. In addition, the inventive additional air heater enables a considerable “energy” saving of around 20%, which is especially important for very low temperatures' temperatures can be achieved. Boilers and radiators already Existing heating systems do not need to be renewed, even the flow and return temperatures does not need to be changed. Furthermore, with the additional air heater according to the invention the technical problems such as condensation drainage, Avoidance from water vapor condensation in the chimney or mist formation at the exhaust gas outlet from the chimney, released.

as a result, the additional air heater according to the invention is a special one economical addition to existing heating systems, as they are in particular be used to heat single and multi-family houses.

In the following the invention is based on only one embodiment illustrative drawing explained in more detail; They show: FIG. 1 an inventive Additional air heating in a schematic front view and FIG. 2 shows the subject Fig. 1 in side view.

In the figures is an 'additional air heater for a heating system with a boiler 1 with flow, return and with a chimney 2 leading Exhaust duct 3 is shown.

On the flue gas side, there is an exhaust gas / circulating air heat exchanger on the boiler 1 4 and a circulating air duct 5 is connected to the exhaust gas / circulating air heat exchanger 4. Of the Circulating air duct 5 leads from and to an additional room 6 to be heated with an exhaust air opening 7 and air inlet opening 8 for the to be heated in the exhaust gas / circulating air heat exchanger 4 Circulating air. A fan 9 is arranged in the circulating air duct 5. Between the boiler 1 and the exhaust gas / circulating air heat exchanger 4 is an exhaust gas / mixed air heat exchanger 10 arranged.

A mixed air duct 11 branching off from the circulating air duct 5 is above the exhaust gas / mixed air heat exchanger 10 out and opens in the flow direction behind the exhaust gas / circulating air heat exchanger 4 into the exhaust gas duct 3. The mixed air duct points there 11 on the end side an injector 12, which is used for this purpose, the exhaust gas flow warmed Mixed air zuzumischeli. The mixed air is consequently used as propellant air to promote exhaust gas and compensation of the pressure loss in the exhaust gas / circulating air heat exchanger 4 is used. Of the Exhaust gas circulating air heat exchanger 4 has a condensate drain 13. Regularly one will also have a collecting tank below the 'exhaust gas / circulating air heat' exchanger 4 provide with overflow what is not shown.

The latter also applies to alternatives, according to which either the mixed air duct 11 branches off behind the exhaust gas / circulating air heat exchanger 4 and opens into the exhaust gas duct 3 or the exhaust gas after exiting the exhaust gas / circulating air heat exchanger 4 a boiler water / Exhaust gas flows through the heat exchanger to prevent the formation of water vapor condensation in the chimney 2 and to prevent mist formation when the exhaust gas exits the chimney. In these cases, however, an exhaust fan will be arranged in the exhaust duct 3, to the always necessary to avoid exhaust gas backflow in the room to be heated To achieve pressure gradient.

The fan 9 is upstream of the exhaust gas / circulating air heat exchanger in the direction of flow 4 inserted into the circulating air duct 5. There can be an outside air duct in front of the fan 9 on the suction side 14 can be connected to the circulating air duct 5 with a control flap 15.

In the case of the additional air heater according to the invention, the exhaust gas occurs with a Temperature of approx. 200 ° C in the exhaust gas / mixed air heat exchanger 4 and is in this is cooled to approx. 180 ° C, while the mixed air enters at approx. 20 ° C and the exhaust gas / mixed air heat exchanger 10 leaves at approx. 40 ° C. and then the exhaust gas flow is admixed in the exhaust duct 3. - The exhaust gas then enters at a temperature of approx. 180 ° C in the Exhaust / circulating air heat exchanger and is in this to approx.

30 ° C cooled, the water vapor in the exhaust gas up to a predetermined Residual content is condensed out. The circulating air comes in at around 20 ° C - around room temperature - into the exhaust gas / circulating air heat exchanger 4 and leaves this heat exchanger with approx.

40 OC, in order to then be available for heating the relevant room 6 to stand.

Claims (8)

"Additional air heating" claims: 1. Additional air heating for one Heating system with a boiler with flow, return and exhaust gas duct, d a d u r c h e k e n n n z e i c h n e't that an exhaust gas / circulating air heat exchanger is connected to the boiler (1) on the exhaust gas side (4) and a circulating air duct (5) connected to the exhaust gas / circulating air heat exchanger (4) is that of and to a room to be heated (6) with exhaust air opening (7) and supply air opening (8) for the circulating air to be heated in the exhaust gas / circulating air heat exchanger (4), and that a fan (9) is arranged in the circulating air duct (5). 2. Additional air heater according to claim 1, characterized in that between the boiler (1) and the exhaust gas / circulating air heat exchanger (4) an exhaust gas / mixed air heat exchanger (10) arranged and that a 'branching off from the circulating air duct (5) Mixed air duct (11) is guided over the exhaust gas / mixed air heat exchanger (10) and behind the exhaust gas / circulating air heat exchanger (4) opens into the exhaust gas duct (3) and with an injector at the end (12) mixes heated mixed air with the exhaust gas flow. 3. Additional air heater according to claim 1 or 2, characterized in that that the exhaust gas / circulating air heat exchanger (4) has a condensate drain (13) with a Has arranged below the heat exchanger collecting tank with overflow. 4. Additional tuft heater according to claim 1, characterized in that the mixed air duct (11) branches off behind the exhaust gas / circulating air heat exchanger (4) and into the exhaust duct (3) opens. 5. Additional air heater according to claim 1, characterized in that the exhaust gas after exiting the exhaust gas / circulating air heat exchanger (4) through an ES Boiler water / flue gas heat exchanger. 6. Additional air heater according to one of claims 1 to 5, characterized in that that an exhaust fan is arranged in the exhaust duct (3). 7. Additional air heater according to one of claims 1 to 6, characterized in that that the fan (9) in front of the exhaust gas / circulating air heat exchanger (4) in the circulating air duct (5) is inserted. 8. Additional air heater according to one of claims i to 7, characterized in that that on the suction side in front of the fan (9) an outside air duct (14) with control flap: (15) is connected to the air circulation duct (5).