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Method for the Radiological Characterisation of the Radiation Listing of Mercury

20210356449 · 2021-11-18

    Inventors

    Cpc classification

    International classification

    Abstract

    A method for the radiological characterisation of the radiation listing of mercury, comprising the Steps: a. preparing a predefined quantity of mercury, b. evaporating at least one fraction of the prepared mercury, and c. the radioactive γ-radiation emitted by the gaseous mercury.

    Claims

    1. A method for radiological characterization of the radiation inventory of mercury, comprising: a. Providing a predetermined amount of mercury, b. Vaporizing at least a portion of the mercury provided, and, c. Detecting the radioactive γ-radiation emitted by the gaseous mercury.

    2. The method according to claim 1, further comprising: d. Condensing the gaseous mercury, e. Collecting the condensed mercury, and, f. Disposing of the mercury as a function of the measured radioactive γ-radiation.

    3. The method according to claim 1, further comprising weighing the amount of mercury provided and/or the provided partial amount of the mercury provided and/or the collected condensed mercury intended for evaporation.

    4. The method according to claim 3, further comprising calculating the measured radioactive γ-radiation based on the weight of the amount of mercury provided and/or the provided partial amount of the mercury provided and/or the collected condensed mercury collected for evaporation.

    5. The method according to claim 1, wherein the detection of the radioactive radiation includes the gamma spectroscopic measurement of the radioactive radiation.

    6. The method according to claim 1, further comprising determining the radionuclides contained in the mercury by means of the recorded gamma spectrum.

    7. The method according to claim 6, wherein the mercury is disposed of as a function of the measured radioactive γ-radiation and the specific type of radionuclides contained in the mercury.

    8. A device for radiological characterization of the radiation inventory of mercury comprising: a storage container for receiving a mercury sample to be examined, a heating device acting on the storage container for evaporating the mercury sample, a measuring section which is connected to the storage container and has a gamma spectrometer for detecting the radioactive γ-radiation emanating from the gaseous mercury, and, a collecting container connected to the measuring section for collecting the mercury sample which has passed through the measuring section.

    9. The device according to claim 8, further comprising a further heating device acting on the measuring section.

    10. The device according to claim 8, further comprising a cooling device arranged between the measuring section and the collecting container for condensing the gaseous mercury.

    11. The device according to claim 8, further comprising a first scale for determining the mass of the mercury sample in the storage container and/or a second scale for determining the mass of the mercury sample in the collecting container.

    12. The device according to claim 8, wherein the device is designed to be vacuum-tight and pressure-tight.

    13. The device according to claim 9, further comprising a cooling device arranged between the measuring section and the collecting container for condensing the gaseous mercury.

    14. The device according to claim 9, further comprising a first scale for determining the mass of the mercury sample in the storage container and/or a second scale for determining the mass of the mercury sample in the collecting container.

    15. The device according to claim 9, wherein the device is designed to be vacuum-tight and pressure-tight.

    16. The method according to claim 2, further comprising weighing the amount of mercury provided and/or the provided partial amount of the mercury provided and/or the collected condensed mercury intended for evaporation.

    17. The method according to claim 16, further comprising calculating the measured radioactive γ-radiation based on the weight of the amount of mercury provided and/or the provided partial amount of the mercury provided and/or the collected condensed mercury collected for evaporation.

    18. The method according to claim 2 wherein the detection of the radioactive radiation includes the gamma spectroscopic measurement of the radioactive radiation.

    19. The method according to claim 2, further comprising determining the radionuclides contained in the mercury by means of the recorded gamma spectrum.

    20. The method according to claim 19, wherein the mercury is disposed of as a function of the measured radioactive γ-radiation and the specific type of radionuclides contained in the mercury.

    Description

    [0020] The invention is explained in more detail below with reference to a particularly preferred exemplary embodiment shown in the accompanying drawing:

    [0021] FIG. 1 shows the schematic structure of a particularly preferred exemplary embodiment of a vacuum-tight and pressure-tight device for the radiological characterization of the radiation inventory of mercury. The device has a storage container 1 from which the mercury sample to be examined is transferred to a storage container 2. The storage container 2 is designed to receive the mercury sample to be examined and is equipped with a heating device 4 which acts on the storage container 2 for evaporating the mercury sample.

    [0022] Following the storage container 2 is a measuring section 5 that is connected to the storage container 2 and that has a gamma spectrometer for detecting the radioactive γ-radiation emanating from the gaseous mercury. The measuring section 5 is in turn connected to a cooling device 6 in which the gaseous mercury is condensed and transferred to the collecting device 7.

    [0023] In addition to the heating device 4 acting on the storage container 2, a further heating device 4 acting on the measuring section 5 is provided and prevents the mercury sample from condensing in the measuring section 5.

    [0024] Finally, a first scale 3 for determining the mass of the mercury sample disposed in the storage container 2 and a second scale 3 for determining the mass of the mercury sample disposed in the collecting container 7 are provided.

    [0025] The device is preferably used such that, after the storage container 2 has been filled and closed, the heaters 4 are switched on. In particular, the heating device 3 acting on the measuring section is switched on first until the required operating temperature is reached; only then is the heater 4 acting on the storage container 2 switched on. A vacuum is advantageously applied.

    [0026] After reaching the boiling point, the mercury sample evaporates and the mercury vapor flows from the storage container 2 through the heated measuring section 5 into the cooling device 6, in which the mercury vapor condenses. From there the mercury travels into the collecting container 7 and can be removed after the end of the measurement and sent for disposal or processing.

    LIST OF REFERENCE SYMBOLS

    [0027] 1 Storage container [0028] 2 Storage container [0029] 3 Scale [0030] 4 Heating device [0031] 5 Measuring section [0032] 6 Cooling device [0033] 7 Collecting container