This application claims priority to German Patent Application No. DE 10 2011 056 634.1, filed Dec. 19, 2011, which is hereby incorporated herein by reference in its entirety.
The invention is aimed at a method for reducing the oxygen content in the flow volume of tubes of erected and installed tube wall regions or tube wall segments of a steam generator or steam boiler of a power station fired, in particular, with carbon-containing fuel.
The modern high-strength tube materials used at the present time in the production of steam generator wall tubes react sensitively, particularly in the form of stress corrosion cracking occurring, to an increased or too high an oxygen concentration in the boiler water flowing through the respective flow volume of the tubes. The oxygen content of the boiler water is therefore set carefully according to the current directives, for example the relevant VGB directive or the relevant ASME (American Society of Mechanical Engineers) directives, and is subsequently monitored and maintained. However, when a steam generator is being filled with boiler water, in particular for the first time, the oxygen content permissible in the boiler water may be exceeded in that the atmospheric oxygen still present in the flow volumes of the tubes when the tubes are being filled is incorporated into the boiler water. Particularly when the steam generator is started up for the first time, the result of this may be that it is then operated, at least initially, with an inadmissibly high oxygen content in the boiler water.
The same problem may also arise when a steam generator is restarted, for example after a repair, when boiler water present in the flow volumes of the tubes is discharged at the time of the shutdown or decommissioning of the steam generator. If the venting valves for discharging the boiler water are opened when the steam generator is being shut down, air flows from outside into the flow volumes of the tubes when these become free during the discharge of the water. Particularly when the steam generator wall tubes are still warm, air is sucked in. The atmospheric oxygen contained in the air volume may then be incorporated into the residual boiler water remaining in the tubes and/or into the new fresh boiler water introduced, where appropriate, into the flow volumes during refilling, thus giving rise once again to an undesirably high oxygen concentration in the boiler water which entails the risk that stress corrosion cracking is thereby triggered or promoted in the tubes.
DE 24 00 882 A discloses a jacket or tube heat exchanger which has a core tube of double-wall type with an axially running annular space, the latter being connected to an inert gas source.
U.S. Pat. No. 5,701,829 A discloses a heat exchanger, the walls of which have water-cooled tubes connected to a water/steam circuit. Arranged in the lower part of the heat exchanger is a tube system for water flowing in as a cooling medium from the water/steam circuit. The heat exchanger walls have in this region orifices through which air is introduced into the heat exchanger and then causes swirling of the water in the heat exchanger.
U.S. Pat. No. 3,699,903 discloses a steam generator or steam boiler of a power station, in which the burners or the furnace space are or is supplied also with pure oxygen as oxidant independently of the nitrogen-containing air.
U.S. Pat. No. 1,976,462 A also discloses a steam generator in which the tube walls are formed by closed tube sections into which flows a liquid which absorbs heat in the gas space and, when flowing through a heat exchanger, discharges it to a liquid flowing in the latter.
The object on which the invention is based is, therefore, to provide a solution which eliminates or at least diminishes the problem of the incorporation of atmospheric oxygen into the boiler water which arises when tubes of a steam generator wall are being filled with boiler water and/or when boiler water is being discharged from these tubes.
In the method of the type designated in more detail in the introduction, this object is achieved, according to the invention, in that an inert gas or an inert gas mixture is introduced into tubes of the tube wall regions or tube segments (of the steam generator or steam boiler), through which boiler water or steam formed from this flows when the power station is in operation, before filling (of the steam generator or steam boiler) with boiler water or steam, in a way whereby gaseous oxygen present in the respective flow volume of the tubes, particularly in the form of atmospheric oxygen, is displaced, and/or an inert gas or an inert gas mixture is introduced during a discharge of boiler water or steam from the respective flow volume of the tubes (of the steam generator or steam boiler), in a way whereby the free flow volume occurring is filled.
According to the invention, therefore, the flow volume filled with atmospheric oxygen when the tubes are being filled and/or the free volume forming during the discharge of boiler water in the flow volume of the tubes of a steam generator wall is filled with an inert gas or an inert gas mixture which in each case is introduced into the tubes at this time point. When the steam generator is being filled with boiler water, the inert gas or inert gas mixture displaces the air in the respective flow volume of the tubes and protects these tubes and consequently the steam generator wall against stress corrosion cracking which can otherwise arise by atmospheric oxygen being incorporated into the boiler water. Similarly, when a steam generator is being shut down and the boiler water is being discharged, an inert gas or inert gas mixture is introduced into the free flow volume forming in each case in the tubes during the discharge of the boiler water. In this case, too, no atmospheric oxygen is introduced into the flow volume of the tubes which could otherwise possibly be incorporated into the boiler water. Also, the inert gas volume introduced prevents a reaction of the atmospheric oxygen with the tube inner walls which otherwise possibly takes place in the standstill phase of the steam generator.
In particular, an inert gas or an inert gas mixture is used as the inert gas or inert gas mixture, and therefore, in a refinement, the invention provides for introducing in each case an inert gas or an inert gas mixture. It is in this case especially preferable to use nitrogen as inert gas.
In an expedient refinement, the invention provides for preventing a follow-up flow or inflow of air when boiler water or steam is being discharged from the respective flow volume of the tubes.
It is especially advantageous to employ the method according to the invention when the discharge of boiler water or steam from the respective flow volume of the tubes is carried out when the steam generator is being shut down. There is otherwise the serious danger here that atmospheric oxygen is sucked into the flow volume of the tubes.
According to a further refinement of the invention, it is especially expedient and advantageous if the free volume within the tubes which is present before the tubes are filled with boiler water or steam and/or occurs when boiler water or steam is being discharged from the tubes is filled completely with the inert gas or the inert gas mixture.
In order to simplify the introduction of inert gas or an inert gas mixture into the tubes, the invention provides, furthermore, for the inert gas or inert gas mixture to be provided in the form of a gas cushion having, in particular, an increased gas pressure.
In this case, according to a development of the invention, it is also advantageous for the introduction of the inert gas or inert gas mixture if the tubes are brought into fluid-conducting flow connection with the inert gas cushion.
In order to prevent the situation where atmospheric oxygen penetrates into the flow volume of the tubes when a steam generator is being shut down and when venting valves are being opened, the invention provides, furthermore, for an inert gas or an inert gas mixture to be introduced with the opening of venting valves. In this case, it is then expedient and advantageous, furthermore, if the tubes and/or the venting valves are brought into fluid-conducting flow connection with the inert gas cushion via connected venting lines.
Finally, the invention is distinguished in that nitrogen is used as inert gas.
It is especially advantageous to employ the method according to the invention in the case of tube wall segments or tube wall regions, the tubes of which are composed of one of the steels T22, T23 or T24 (designation according to ASTM 213 Standard).
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10 2011 056 634 | Dec 2011 | DE | national |
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Number | Date | Country | |
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20130152877 A1 | Jun 2013 | US |