DE2938631B1 - Steam power plant with air-cooled steam condenser - Google Patents

Claims (3)

Patent claims: 1. Steam power plant with an air-cooled condenser for the working steam from a Steam engine and with a dry cooler for the machine cooling water, characterized in that that the recooler is designed as an evaporator (20), the supply line (21) for the Water to be evaporated with the condensate system of the condenser (5) and its steam discharge line (25) with a part (3) leading the exhaust steam flow between the steam engine (1) and the capacitor (5) are connected. 2. Steam power plant according to claim 1, characterized in that a free one in the evaporator (20) Level for the fed condensate is provided that a preferably formed from pipes Heating surface (30) for the cooling water is arranged in the area for the condensate and that one in the Supply line (21) for the water to be evaporated arranged control valve (22) from an am Evaporator (20) arranged level sensor (45) is influenced. The invention relates to a steam power plant according to the preamble of claim 1. In known Systems of this type become the dry cooler for the machine cooling water with water from surface waters cooled, or in cases where no such is available, it is given its own air cooling system. It is the object of the invention to simplify the systems mentioned and to make them cheaper. By the measure according to the characterizing part of claim 1 not only this goal is achieved, but also at the same time the number of movable organs is reduced, so that there is greater operational reliability. Further savings result from the fact that no additional frost protection device is required, and finally there is the advantage that the minimum delivery rate of the extraction pump is increased, which leads to a reduction the cavitation wear on this pump. The invention is explained in more detail using the scheme of a system, for example. One an electric one Generator 16 driving steam turbine 1 with an exhaust nozzle 2 is seated on an exhaust line 3, which leads to the distributor 4 of an air cooling system. On the distributor 4, two rows are inclined Cooling leg 5 connected. The ends of these cooling legs 5 are connected via line pieces 6 Collectors 7 connected, which together lead into a condensate container 8. At the distributor 4 is a A vacuum-generating extraction pump 9 is connected, and a fan 10 is connected between the legs 5 arranged, the cooling air blows in the direction of the arrow through the two rows of legs 5 through. Condensate pumps 11 are connected to the condensate container 8 and have a level in the condensate container promote holding valve 12 in a condensate line 13. The condensate line 13 has a condensate preheater 14 and possibly not shown booster pumps. It flows into one Feed water tank 15. An evaporator 20 is connected via a supply line 21 a condensate supply valve 22 is connected to the condensate line 13. From the highest point of the Evaporator 20 leads a steam line 25 to the exhaust line 3. A pipe system 30 is installed in the evaporator 20, which takes cooling water flowing back from the machines of the system via a line 31. The outlet of the pipe system 30 leads via a line 32 with a cooling water pump 33 to the machines to be cooled. A bypass line 36 with a bypass valve 37 is provided between the lines 31 and 32. This valve 37 is of one of the to line 32 located temperature sensor 40 via a Regulator 41 influenced. The valve 22 is controlled by a level sensor 45 attached to the evaporator 20 a controller 46 is operated During operation, the steam from the turbine 1 flows via the exhaust steam line 3 and the distributor 4 into the cooling legs 5, which are provided with ribs, in which the steam is precipitated. The condensate then collects in the condensate container 8, from which it is conveyed via the condensate line 13 into the feed water container 15, which essentially serves as a reservoir and can also be connected to a degasser. The level in the condensate container 8 is regulated by influencing the valve 12
The cooling water from the machines of the plant z. B. the generator 16, flows via the line 31 into the pipe system 30, in which it gives off heat to the condensate, which evaporates in the process. Recooled, the cooling water flows back through the line 32 to the machines. The pipe system 30 is designed so large that there is a certain control margin so that the temperature of the cooling water can be regulated in that part of the water is led past the evaporator via the valve 37. The steam formed in the evaporator 20 is precipitated together with the turbine exhaust steam in the cooling legs 5 of the air condenser. Immediately after the system has been switched off, decreasing amounts of cooling heat accumulate, while the steam output from the turbine 1 and the water supply from the feedwater tank are interrupted. The extraction pump 9 remains in operation for the time being, so that the vacuum can continue to be maintained in the evaporator 20 and heat can be converted. If necessary, the evaporated condensate is replaced by water flowing back from the feed water tank 15, which is at a higher pressure than the condensate in the evaporator 20. The invention requires only a small increase in the magnification, which is not significant in terms of price so air cooling system. Conversely, the inventive measures save separate air coolers with accessories and reserve devices, so that there is a considerable net profit
The evaporator 20 can also be set up for operation with a variable level, in which case the pipe system 30 more or less emerges from the condensate in accordance with the required cooling line. It can, for. B. a controller influenced by the temperature sensor 40 and a corresponding temperature setpoint, which corresponds approximately to the controller 41, form a setpoint for the level that is input to the controller 46 instead of a fixed setpoint. The advantage of such a circuit is that the bypass line 36 with the bypass valve 37 is omitted The simplification can also be carried further by placing the output of the controller 41 directly on the valve 22 is switched, so that the level sensor 45 and the controller 46 can be avoided. ORIGINAL INSPECTED The water in line 31 can also come from coolers in which the bearing oil of the machines, e.g. B. the steam turbine was cooled back. summary In the steam power plant there is a dry cooler for the KOhlwasser from the machines, z. B. the electric generator (16) is provided. The recooler is designed as an evaporator (20) whose supply line (21) for the water to be evaporated is connected to the condensate system of the condenser (5) and its steam discharge line (25) to the exhaust line (3) of the steam turbine (1). By recooling the machine cooling water with the condenser, evaporating Condensate is simplified the steam power plant 1 sheet of drawings