DE884802C - Steam power plant with reheating - Google Patents

Description

Steam power plant with reheating For steam power plants with Reheating is known, the intermediate steam in a fire gas superheater to overheat to such an extent that before entering a lower machine stage in a heat exchanger, part of its superheating heat is transferred to the fresh boiler steam can deliver. The invention consists in the fact that the superheated steam is low Pressure from the flue gas superheater not directly to the heat exchanger, but beforehand first goes to a lower machine level and there using a part the pressure and temperature gradient is released to an intermediate pressure. Dire application particularly high overheating temperatures of 600 ° and more is permissible because the high steam temperature is in a pressure range that masters the material can be. The high thermal efficiency of the system is except in the application the very high steam temperature in the machine stage upstream of the heat exchanger, z. B. a turbine, justified in the fact that the heat loss, the @ by internal Frictions and leaks in the upstream machine stage arise in Heat exchanger is made fully usable. It is also based on this, that the efficiency of the system depends only to a small extent on the internal efficiency the upstream turbine stage is dependent.

In the drawing are in Figs. I to 3 three embodiments of the subject matter of the invention.

According to Fig. I, the saturated steam generated in the boiler i is passed through the pipe z the heat exchanger 3 supplied, in which the saturated steam by heat exchange with partially relaxed, but still superheated steam is superheated. The overheated Live steam flows through line q. in -the working machine 6, in: that of the steam is relieved under work performance to the pressure of the reheater. the end of the turbine 6, the steam flows through the line 7 into the fuel gas-heated reheater 8, in which this steam is highly superheated. The superheated steam then flows through the line io into a further work machine stage i i, in which the further Relaxation to an intermediate pressure takes place at which temperature still prevails, which enables overheating of the live steam in the heat exchanger 3. From the heat exchanger 3, the steam flows through the line 12 into a further working machine 1q., In ; the expansion of the steam to the final pressure, z. B. the pressure in the condenser 15, takes place.

The method described according to Fig. 2 - the invention can also be used apply to power plants whose vapor pressure is so low that the existing ones Materials allow very high overheating (over 600 °). In this case it will according to Fig. 2 the saturated steam generated in the steam boiler i through the line 2 initially also fed to the heat exchanger 3, in which the steam through the exhaust steam Turbine stage 16 is overheated. But then it will continue to overheat in .dem fuel gas-heated superheater 18, from which the steam through line r9: the Turbine stage 16 flows in. The steam emerging from the turbine stage 16 flows through the line 2o in the heat exchanger 3, by the live steam by heat exchange becomes overheated. After cooling in the heat exchanger 3, the partially relaxed flows Steam through the line 22 into the turbine stage 2q., In which the expansion on the Final pressure, in this case the pressure of the condenser 15 takes place. -The procedure can can also be carried out in such a way that multiple high reheating (over 600 °) is applied, whereby it is expedient with regard to the material properties to choose the superheating temperature higher at low pressures than at high pressures. In this case, the fresh steam winds through the exhaust steam from the last expansion stage .in a heat exchanger it overheats, with the exhaust steam. the last stage itself this cools the live steam even to a little above the saturation steam temperature. The rest of Superheat is expediently used to preheat the feed water. .

To. Fig. 3 the saturated steam generated in the boiler i through the line 2 idem heat exchanger 3 supplied, in which this steam through heat exchange opposite the exhaust steam of the last expansion stage is overheated. From the heat exchanger 3 the dump flows through line q. in., the first relaxation stage 6 and from this through line 7 into the first fuel gas-heated reheater B. After reheating by the flue gases in the boiler, the steam flows through : the line ro into the second expansion stage i i and from there through the line 25 into the second reheater 26, in which the steam passes through for the second time Fire gases is superheated, expediently to an even higher temperature than in the superheater B. After this reheating, the steam flows through the line 28 into the last relaxation stage 30, in which the relaxation to the final pressure takes place. There , the exhaust steam vein of the last expansion stage is still highly overheated, it is through the line 31 led to the Wärmeausbauscher 3, in which by releasing the overheating of the exhaust steam, the live steam is superheated. After cooling down in the heat exchanger 3, the exhaust steam flows through .die line 32 in the preheater 33 by the remaining Superheating heat is used to preheat the feed water, -that by -the Line 34 in .den boiler i flows. After leaving the heat exchanger 33 flows the steam to other consumers in back pressure operation or, as shown in Fig. 3, through the line 35 to the capacitor 15.

Claims (3)

PATENT CLAIMS: i. Steam power plant with reheating, at the low pressure steam, e.g. B. partially relaxed in a machine stage Steam, is so superheated in a flue gas superheater that it is in a heat exchanger ' Can give off overheating heat to the live steam going to the machine, thereby characterized in that the superheated low pressure steam before its entry in the heat exchanger (3) first in a machine stage upstream of this .goes, where it rises with partial utilization of the pressure and temperature gradient an intermediate pressure is released. 2. Steam power plant according to claim i, thereby, through characterized that live steam of relatively low pressure through .the heat exchanger- (3) and a fire gas superheater (18) goes to the machine stage (16), -whose exhaust steam Heating steam to the heat exchanger (3) @ and on to a lower machine level (24) is directed. , 3. Steam power plant according to claim i, characterized by, that repeated reheating takes place, e.g. B. between the machine stages (6 and i i and i i and -30), and the exhaust steam from the last stage (30) to the heat exchanger (3), and then in a further heat exchanger, e.g. B. a feedwater preheater (33), goes. . . ,.