DE1167119B - Thermal power plant with a circuit of a gaseous working medium - Google Patents

Description

Thermal power plant with a circuit of a gaseous working medium Es Thermal power plants are known in which a gaseous working medium is in circulation brought to a higher pressure in a compressor, heated in a nuclear reactor and is finally relaxed in a turbine under work performance. With such thermal power plants there is possibly the possibility that small amounts from the nuclear reactor of radioactive substances get into the working cycle or that components of the working gas even under the influence of the neutron irradiation into radioactive ones Substances are implemented. A well-known measure, an enrichment of radioactive Avoiding substances in the working cycle consists in constantly having a certain Amount of working gas taken from the circuit in a cleaning system from the Radioactive contaminants are freed and then returned to the working cycle will.

Gas-lubricated bearings and also aerostatic bearings for turbo machines are known. In these, the gas under operating pressure is supplied by a Compressed air source fed into pressure chambers of the bearing, with those from the pressure chambers air escaping through the bearing gap of these bearings flows off into the open air.

The invention now relates to a thermal power plant with a circuit gaseous working medium through a nuclear reactor and for compression and relaxation the working equipment serving turbo machines, in which lines to branch off a part of the circulating working gas from the working cycle and for reintroduction this part in the working cycle as well as means for freeing the removed Radioactive contamination gas before it is reintroduced into the working cycle and at least one gas-lubricated bearing is provided on the turbomachines.

The invention seeks to significantly simplify the system a special lubricant guide, which is characterized in that at least a gas freed from the mentioned impurities in the working cycle return line into the bearing gap of a gas-lubricated bearing of the turbo machinery leads and the exit side of this bearing gap with the working cycle in connection stands. This achieves the desired simplification of the operation, since it is used as a lifting gas and lubricant part of the circulating working gas branched off therefrom and is freed from radioactive contaminants, is used. moreover will the advantage achieved that the bearings are only charged with purified gas. One advantageous embodiment of the invention is that between the means to free the extracted gas from radioactive contamination and the supply point An auxiliary compressor is switched on to the camp, which pre-cleans the gas its use as a lifting gas and lubricant brings it to higher pressure, which in particular It is then expedient if the bearings of the turbo machines are used as aerostatic bearings are formed distributed on the circumference of the bearing gas cushions.

In the drawing, a thermal power plant with a circuit of a gaseous medium with the special lubricant supply is shown in simplified form as an example, namely FIG. 1 shows a diagram of a thermal power plant for propelling a ship and FIG. FIG. 2 shows a cross section through a bearing of the turbomachinery along the line II-11 in FIG. 1. The working cycle of the thermal power plant leads one after the other through a compressor 1, the high pressure side of a heat exchanger 2, a nuclear reactor 3, a high pressure turbine 4 which drives the compressor 1, a low pressure turbine 5 which drives a ship's propeller 7 via a gear 6, the low pressure side of the Heat exchanger 2 and a cooler 8 to finally get back to the suction side of the compressor 1 . The compressed working gas, preferably helium, absorbs heat in the nuclear reactor 3 and is then expanded in the turbines 4 and 5 while working. The expanded gas gives off heat to the compressed gas in the heat exchanger 2 before it is cooled in the cooler 8 to the intake temperature of the compressor 1. For the storage of the turbo machines 1, 4, 5 , bearings 9, 10, 11, 12 are provided.

An auxiliary circuit is also connected to the working circuit. This branches off at the high pressure end of the compressor 1 at a point 13 and leads one after the other through a line 14, a cleaning system 15, a line 16, an auxiliary compressor 18 driven by a motor 17, a line 19, an accumulator 20, one with a valve 21 provided line 22, a line 23, then through various branch lines 24, 25 going to the bearings 9, 10, II, 12; 26, 27 and finally through the bearing column of these bearings.

Part of the gaseous working medium is constantly withdrawn from the working cycle through line 14. In the cleaning system 15 , the gas withdrawn from the working cycle is removed from any radioactive contaminants contained therein, such as. B. radioactive bromine, krypton, xenon or iodine, exempted. The cleaning system 15 can contain known means, such as filters, absorbers, adsorbers and cold generators, which serve to separate the mentioned impurities from the working gas. The cleaned gas leaving the system 15 through the line 16 is brought to a higher pressure by the auxiliary compressor 8 , which is particularly useful when the bearings of the turbo machines are designed as aerostatic bearings, i.e. the shaft is supported by pressure cushions formed by the gas .

The gas of the auxiliary circuit reaching the bearing gap of the bearings 9, 10, 11, 12 passes from there into the working circuit. The bearing 9 is completely enclosed by a housing 28, which is tightly connected to the housing of the compressor, on the side of the shaft end, so that the gas escaping from the bearing gap cannot escape into the open. The exit side of the bearing gap, on the other hand, is connected to the interior of the compressor housing, that is to say to the working circuit. In the case of the bearings 10 and 11 , a housing 29 connected between the high-pressure turbine 4 and the low-pressure turbine 5 prevents gas from escaping into the open. In the case of the bearing 12 , a liquid barrier is provided on the side on which the turbine shaft leads to the output of the useful power to the outside. The barrier liquid is introduced through a line 30. The liquid flowing outwards from the bearing gap is drawn off through a connector 31. Gas and liquid are discharged through a line 32 between the gas store and the liquid barrier. The two media are then separated from one another in a known manner by means not shown and reused.

To cover any leakage that may still occur in the working circuit, a battery of pressurized gas cylinders 33 is provided which contain working gas and from which this working gas can be fed into the auxiliary circuit via a line 34 with valve 35 at a point 36. The bearings 9, 10, 11, 12 are designed as aerostatic bearings. As in Fig. Is shown 2 for the bearing 9, the purified gas of the auxiliary circuit passes from the line 24 for the time being in an annular space 37 and from there via throttle bodies 38 into individual, distributed on the bearing peripheral chambers 39. The compressor shaft is designated by the 40th In chambers 39 , the gas forms pressure cushions which support the shaft 40 . The gas flows from the chambers 39 through the bearing gap in the axial direction and then mixes with the gas circulating in the working circuit.

In the system described, the auxiliary circuit is also used for the removal of radioactive contaminants from the working gas and for delivery of the lubricant for the bearings. This results in a structural simplification of the operation and, moreover, the advantage that the bearings are only charged with purified gas will.

Claims (6)

Claims: 1. Thermal power plant with a circuit of a gaseous working medium through a nuclear reactor and for compression and expansion of the working medium serving turbo machines, in which lines for branching off part of the circulating working gas from the working cycle and for re-introducing this part into the working cycle as well as means for releasing the extracted Gas of radioactive impurities before it is reintroduced into the working cycle and at least one gas-lubricated bearing are provided on the turbomachines, characterized in that at least one line (24 or 25 or 26 or 27, respectively, returning the gas freed from the above-mentioned impurities) to the working cycle ) leads into the bearing gap of a gas-lubricated bearing (9 or 10 or 11 or 12) of the turbo machines (1, 4, 5) and the outlet side of this bearing gap is connected to the working circuit. 2. Thermal power plant according to claim 1, characterized in that an auxiliary compressor (18) is switched on between the means (15) for freeing the removed gas from radioactive impurities and the feed point to the bearing (9 or 10 or 11 or 12), which brings the cleaned gas to a higher pressure before it is used as a carrier gas and lubricant. 3. Thermal power plant according to claim 2, characterized in that that the bearings (9 or 10 or 11 or 12) as known aerostatic bearings are designed with gas cushions (39) distributed around the circumference of the bearing. 4. Thermal power plant according to claim 1, characterized in that the bearings (9 or 10 or 11 or 12) of the turbo machines (1, 4, 5) from one with the relevant machine housing tightly connected housing are enclosed, which allows the escape of purified working gas of the auxiliary circuit into the open, on the other hand with the inside of the machine housing communicates. 5. Thermal power plant according to claim 4, characterized in that the shaft ends of the high-pressure and the low-pressure turbine (4, 5) are enclosed by one of the two bearings (10, 11) of the opposite shaft ends common housing. 6. Thermal power plant according to claim 4, characterized in that that at the bearing (12) on the side on which the turbine shaft from the housing leads to the outside, a known liquid barrier is provided. In Documents considered: German Patent Specifications No. 919 803, 880 979; British Patent No. 694 521.