Patent Number: 046719253
Section: claims

1. Method for operating a nuclear reactor having reactor coolant including an exhaust gas source and an exhaust gas system connected to the exhaust gas source, the exhaust gas system having at least one compressor connected to the exhaust gas source, a gas cooler connected to the compressor, a first reducing valve connected to the gas cooler, a switching valve connected to the first reducing valve, a moisture adsorber connected to the switching valve, a delay line normally connected in parallel with the moisture adsorber, a gas loop connected between the moisture adsorber and the compressor, a flue connection set at a given pressure during normal operation, and a second reducing valve connected between the delay line and the flue connection, which comprises interconnecting the delay line and the moisture adsorber in series, setting the flue connection to a pressure at least twice as high as the given pressure, reversing the switching valve thus allowing the exhaust gas to pass from the moisture adsorber to the delay line and then to the flue connection through the second reducing valve, upon the occurrence of a change in volume of the coolant of the nuclear reactor and increased exhaust gas production. 2. Method according to claim 1, which comprises carrying out the steps of interconnecting the delay line and the moisture adsorber in series, setting the flue connection to a pressure at least twice as high as the given pressure, and connecting the delay line to the flue connection through the second reducing valve, upon starting up the reactor. 3. Method according to claim 1, which comprises carrying out the steps of interconnecting the delay line and the moisture adsorber in series, setting the flue connection to a pressure at least twice as high as the given pressure, and connecting the delay line to the flue connection through the second reducing valve, upon shutting down the reactor. 4. Method according to claim 1, which comprises thermally insulating the gas cooler, the moisture adsorber and the section of the gas system therebetween. 5. Method according to claim 1, which comprises thermally insulating and heating the gas cooler, the moisture adsorber and the section of the gas system therebetween. 6. Method according to claim 1, which comprises thermally insulating and cooling the gas cooler, the moisture adsorber and the section of the gas system therebetween. 7. Method according to claim 1, which comprises heating the gas cooler, the moisture adsorber and the section of the gas system therebetween. 8. Method according to claim 1, which comprises cooling the gas cooler, the moisture adsorber and the section of the gas system therebetween. 9. Method according to claim 1, which comprises reducing pressure in the delay line over a period of several hours after an increased production of exhaust gases. 10. Method according to claim 9, which comprises switching over the moisture adsorber into the gas loop leading to the compressor after reaching a given low operating pressure.