DE19801501A1 - Degassing of heating water - Google Patents

Abstract

The pressure in the pressure vessel (1) is lowered by cooling of the heating water in it. The heat released from the heating water is used to heat up the heating water outside the vessel. The pressure vessel containing the heating water is cooled down by the use of circulating air. The pressure vessel is installed in a heating water tank (2) which is connected to the heating system by at least one heating water pipe (21).

Description

Field of application of the invention

The invention relates to a method for degassing hot water water in a heating system, in which a Druckbe supplied heating water, the pressure vessel abge locks and to release existing in the heating water nem gas the pressure in the pressure vessel is reduced, and Devices for performing this method, with a Pressure vessel that has at least one pressure vessel device can be shut off and connected to a heating system.

Heating systems are mostly filled with tap water, which initially contains at least 50 dm ³ air per m ³ water. During operation, various processes, such as increasing the water temperature, reducing pressure due to static differences in altitude, electrolysis and chemical reactions, release even more air and other gases in the heating system. Most gases are released in the form of microbubbles at the hottest and highest point in the heating system, some of which is absorbed during the subsequent cooling and pressure increase.

Gas in the heating water leads to many problems, such as z.E. Corrosion, faster pump wear due to Kavita tion, less heat transfer and annoying noises, and should therefore be removed as much as possible. This ge  happens according to the invention by exploiting the law of Henry, that says the absorbency of water increases with increasing pressure and with increasing temperature sinks.

State of the art

Devices are already known and available on the market gene of the type mentioned at the beginning for degassing heating water water by lowering the pressure in a pressure vessel. A case The air separator Spirovent® Super is the game for this Spirotech B.V., Helmon / NL, where the pressure vessel Heating water supplied from the heating system, the Druckbe cordoned off and released in the heating water existing gas the pressure in the pressure vessel by means of a Va the cooling pump is lowered. A disadvantage of this air separator is that to create a vacuum in the pressure vessel a vacuum pump is used to operate energy is required and which naturally also has a certain sturgeon maturity.

In other known devices, there is a pressure drop lowering by relaxing hot pressure water, for which no vacuum pump is required. This Devices do not work in the vacuum area and their degassing performance is therefore limited.

Object of the invention

In view of the aforementioned disadvantages of existing processes Ren and devices for degassing heating water the invention addresses the problem, a method and before to propose directions of the type mentioned at the outset  extensive degassing of heating water with as much as possible enable low energy consumption. To the susceptibility to failure The devices should also be limited to a vacuum pump to generate the required pressure drop to be waived.

Essence of the invention

This object is achieved by the method according to the invention solves as defined in independent claim 1, as well as through the devices according to the invention implementation of this procedure as described in the independent Pa claims 4 and 8 are defined. Preferred execution Variants result from the dependent patent claims chen.

With the process for degassing heating water in a heating system it is essential that:

• - fed heating water to a pressure vessel,
• - the pressure vessel is shut off and
• - the pressure in the pressure vessel is reduced to release gas present in the heating water,
  the pressure drop in the pressure vessel takes place by cooling the heating water contained therein.

In a first embodiment variant, the is in print the heating water in the container Heating of heating water outside the pressure tank used.  

In a second embodiment, the pressure vessel ter with the heating water in it using zir cooling air cooled.

The device for carrying out the first embodiment ante of the inventive method essentially comprises Chen a pressure vessel, at least one pressure vessel line device, a heating water tank and at least one heater tap water pipe. Via the pressure vessel line or line The pressure vessel can be locked to a heating system can be connected while the heating water pipe or -pipes for connecting the heating water tank the heating system is used. Crucial for that The object on which the invention is based is here that the pressure tank is arranged in the heating water tank is.

By transferring heat from the heating water inside the Pressure vessel on the pressure vessel surrounding, in the heating The heating water present in the water tank will be the one Heating water in the pressure vessel cooled and on the other hand that Heating water heated up in the heating water tank. This be reduces the pressure by reducing the volume of the hot water water in the pressure tank and thus due to the law from Henry a degassing of this heating water. At the same time the heating water in the heating water tank is controlled by tem temperature increase also degassed or at least goes to it to absorb gases from the atmosphere.  

The heating water tank is preferably an open Ex expansion tank designed so that it simultaneously to Pressure equalization can be used in the heating system.

The device for carrying out the second embodiment Riante of the method according to the invention essentially comprises Lichen a pressure vessel, at least one pressure vessel line and an air duct through which during the discharge air circulates. Via the pressure vessel line or -pipes, the pressure vessel can be locked to a hot water heater system can be connected.

The heating water in the pressure tank is transferred of heat on the pressure vessel, which then circulates emitted air, cooled. This in turn does a reduction in pressure by reducing the volume of the heating water sers in the pressure vessel.

In the ways described above, you can do without a vacuum pump and Extensive degassing with optimal energy utilization of the heating water can be realized.

Drawings and working examples

The process according to the invention and the Devices according to the invention with reference to the attached drawings and two execution examples play described in more detail. Show it:

Fig. 1 shows schematically a first embodiment of a device according to the invention for degassing heating water and for pressure equalization in a heating system, with a pressure tank, which is arranged in a heating water tank, and

Fig. 2 shows schematically a second embodiment of a device according to the invention for degassing heating water in a heating system, with a pressure vessel, which is arranged in an air duct.

Fig. 1

The device has a pressure vessel 1 , which is arranged in an expansion vessel 2 . The expansion tank 2 is connected to a heating water line 21 to the return line R of a connected heating system, wherein in the heating water pipe 21, a valve 22, for example. B. in the form of a solenoid valve, which opens at excess pressure in the connected heating system, so that heating water can flow into the expansion tank 2 . In a bypass line 23 to this valve 22 , a pressure maintenance pump 24 , which is switched on when the pressure in the heating system is insufficient, and a check valve 25 are arranged. The pressure in the heating water line 21 is measured by means of a pressure measuring probe 27 . Between the pressure measuring probe 27 and the heating return R in the heating water line 21 is also a strainer 26 .

The expansion tank 2 is insulated to keep the heating water warm and is provided with an open overflow 4 which, among other things, ensures pressure equalization. Via a make-up line 3 , fresh water can be replenished from a water network into the expansion tank 2 , where it is first degassed by relaxation and heating before it finally reaches the heating system. In the feed line 3 , a controllable shut-off device 31 , a water meter 32 , a strainer 33 and a shut-off valve 34 are arranged.

The pressure vessel 1 is connected via a pressure vessel supply line 11 to the flow line V of the connected heating system, so that in operation advantageously hot heating water can be removed directly from the heat generator who can. In the pressure vessel supply line 11 are a controllable shut-off device 13 , z. B. in the form of a solenoid valve, and a strainer 16 is arranged. To empty the pressure vessel 1 , a pressure vessel discharge line 12 is provided between the pressure vessel 1 and the heating water line 21 . In this pressure vessel discharge line 12 are a circulation pump 14 , which sucks heating water from the pressure vessel 1 when emptying, and a check valve 15 is net angeord.

For the removal of the released gases from the Druckbe container 1 , a degassing line 17 is provided which leads from the upper end of the pressure vessel 1 into the expansion tank 2 and which has a controllable shut-off device 18 , for. B. in the form of a solenoid valve. At the Entgasungslei device 17 , a level probe 19 for measuring the water level in the expansion tank 2 is attached.

The control of the whole device, i. H. especially the Pumping and the shut-off devices are not carried out by means of a  shown electronic control device.

The heating water is degassed mainly in pressure vessel 1 . For this purpose, the heating water zir is kulation through the pressure vessel 1 by switching off the circulation pump 14 is interrupted, the pressure vessel 1 closed with the shut-off valve 13 of the pressure vessel feed line 11 and by briefly opening of the obturator 18 of the Ent gasungsleitung 17, the heating water in the pressure vessel 1 ent-tensioned. The shut-off device 18 is then closed again.

Located in the pressure vessel 1 , hot Heizungswas water gives off its heat to the surrounding heating water in the expansion tank 2 and is thereby cooled. The resulting volume reduction resulting from the heat output produces a pressure drop of up to 0.8 bar in the pressure vessel 1 , so that the gases still bound to the heating water are largely released and accumulate in the upper part of the pressure vessel 1 . Depending on the control program, the shut-off device 13 of the pressure supply line 11 and at the same time the shut-off device 18 of the degassing line 17 are opened after a certain rest phase and the released gases are expelled into the expansion tank 2 .

This completes a degassing cycle.

By programming the control device, such Degassing cycles repeated any number of times and their frequency speed and duration for the connected heating system be true.  

Fig. 2

This device has a pressure vessel 1 'which is arranged in an air duct 5 '. Air flows in the direction of the arrows L in the air duct 5 'during operation.

The pressure vessel 1 'is connected to the flow V of the connected heating system via a pressure vessel supply line 11 ' as in the first embodiment. In the Druckbehäl terzuleitung 11 'are a controllable shut-off 13 ', z. B. in the form of a solenoid valve, a strainer 16 'and a shut-off valve 6 '. A pressure vessel discharge line 12 'connects the pressure vessel 1 ' to the return R of the connected heating system. A check valve 15 ', a circulation pump 14 ' which sucks heating water from the pressure vessel 1 ', a dirt trap 26 ' and a shut-off valve 7 'are arranged in the pressure vessel discharge line 12 '.

For the removal of the released gases from the pressure vessel 1 ', a degassing line 17 ' is provided, which leads from the upper end of the pressure vessel 1 'into the air duct 5 '. In the degassing line 17 'are a controllable shut-off device 18 ', for. B. in the form of a solenoid valve, and a float vent 9 '.

A at the deepest point of the pressure vessel 1 'attached drain valve 8 ' is used for the complete emptying of the pressure vessel 1 '.

The control of the entire device, ie in particular the circulation pump 14 'and the shut-off devices, is carried out as in the first embodiment by means of an electronic control device not shown.

The heating water is degassed in the pressure vessel 1 '. For this purpose, the heating water circulation through the pressure vessel 1 'is interrupted by switching off the circulation pump 14 ' and the pressure vessel 1 'with the shut-off valve 13 ' of the pressure vessel supply line 11 'is shut off.

Due to the air flowing in the vertically arranged air duct 5 'through the chimney effect in the direction of the arrows L, the pressure vessel 1 ' and thus also the hot heating water located therein is cooled. The cooling process could, if desired, be accelerated by attaching a fan in the air duct 5 '. The volume reduction resulting from the cooling produces a pressure drop in the pressure vessel 1 'by up to 0.8 bar, so that the gases still bound to the heating water are largely released and accumulate in the upper part of the pressure vessel 1 '. Depending on the control program, after a certain rest phase, the shut-off device 13 'of the pressure vessel supply line 11 ' and at the same time the shut-off device 18 'of the degassing line 17 ' are briefly opened and the released gases are expelled into the air duct 51 .

This completes a degassing cycle.

As in the first embodiment, such deviations be cycles by programming the control device repeated often and their frequency and duration on the connected heating system.  

The following modification options to the devices described above should also be expressly mentioned:
Is due to an external pump, e.g. B. boiler circuit pump, there is already a sufficiently large differential pressure between heating supply V and heating return R, so the circulation pump 14 or 14 'can be dispensed with.

Claims (13)

1. A method for degassing heating water in a heating system, in which heating water is supplied to a pressure vessel ( 1 ; 1 '), the pressure vessel ( 1 ; 1 ') is blocked and the pressure in the pressure vessel ( 1 ; 1 ; 1 ') is lowered, characterized in that the pressure drop in the pressure vessel ( 1 ; 1 ') takes place by cooling the heating water therein. 2. The method according to claim 1, characterized in that the heat from the pressure vessel ( 1 ) located Hei heat is used to heat heating water outside the pressure vessel ( 1 ). 3. The method according to claim 1, characterized in that the pressure vessel ( 1 ') with the heating water therein is cooled by means of circulating air. 4. Apparatus for performing the method according to claim 2, with a pressure vessel ( 1 ) which can be shut off via at least one pressure vessel line ( 11 , 12 ) can be connected to a heating system, characterized in that the pressure vessel ( 1 ) in a heating water tank ( 2nd ) is arranged, the device via at least one Heizungswasserlei ( 21 ) can be connected to the heating system. 5. The device according to claim 4, characterized in that the heating water tank ( 2 ) isolated and / or an open expansion tank ( 2 ) can be. 6. Apparatus according to claim 4 or 5, characterized in that in or in at least one of the heating water pipes ( 21 ) a valve ( 22 ), in particular a solenoid valve, is arranged, which opens when there is excess pressure in a connected heating system, and A pressure maintenance pump ( 24 ) and a check valve ( 25 ) are arranged in a further heating water line or in a bypass line ( 23 ) to said valve ( 22 ). 7. Device according to one of claims 4 to 6, characterized in that it has a make-up line ( 3 ) for replenishing fresh water in the heating water tank ( 2 ), which is provided with a controllable shut-off device ( 31 ), in particular a solenoid valve. 8. Apparatus for carrying out the method according to claim 3, with a pressure vessel ( 1 ') which can be shut off via at least one pressure vessel line ( 11 ', 12 ') and can be connected to a heating system, characterized in that the pressure vessel ( 1 ') is arranged in an air duct ( 5 ') through which air circulates during degassing. 9. The device according to claim 8, characterized in that a fan is arranged in the air duct ( 5 '). 10. Device according to one of claims 4 to 9, characterized in that it has a pressure vessel supply device ( 11 ; 11 ') for connecting the pressure vessel ( 1 ; 1 ') to the heating flow (V) of a heating system and a pressure vessel discharge line ( 12 ; 12 ') having. 11. The device according to claim 10, characterized in that in the pressure vessel supply line ( 11 ; 11 '), a controllable shut-off device ( 13 ; 13 '), in particular Magnetven valve, and / or in the pressure vessel discharge line ( 12 ; 12 ') a circulation pump ( 14 ; 14 ') and a check valve ( 15 ; 15 ') are arranged. 12. Device according to one of claims 4 to 11, characterized in that the heating water line ( 21 ) or lines and / or the pressure vessel discharge line ( 12 ; 12 ') are designed for connection to the heating return (R) of a heating system and / or the pressure vessel discharge ( 12 ) opens into or one of the heating water pipes ( 21 ). 13. Device according to one of claims 4 to 12, characterized in that it has a degassing line ( 17 ; 17 ') with a controllable shut-off element ( 18 ; 18 '), in particular a solenoid valve, via which gas released from the pressure vessel ( 1 ; 1 ') is removable.