KR20050072024A - System for managing radioactive waste container - Google Patents

Abstract

The present invention relates to a transport management system for a moved radioactive waste container, comprising: a radiometer 12 having a plurality of probes 12a for monitoring a state of a radioactive waste drum P disposed therein; A container 10 including a GPS receiver 13 receiving information from a GPS satellite, and a radio transmitter 14 for wirelessly transmitting and receiving status information and position information received from the radiation meter 12 and the GPS receiver 13. ); A central control center 20 which receives the state information and the position information received from the container 10 and manages it by a predetermined method; And a wireless communication network for bidirectionally communicating between the container 10 and the central control center 20.

Description

System for managing radioactive waste container

The present invention relates to a radioactive waste transportation management system capable of real-time management of a container for transporting radioactive waste generated from a nuclear power plant or related facilities.

Radioactive waste generated from nuclear power plants or related facilities (hereinafter referred to as nuclear power plants) is mainly stored inside nuclear power plants or in individual control facilities. As the amount of waste increases, the limit of storage becomes apparent. In order to overcome these limitations, permanent disposal centers for low and medium-level radioactive wastes will be constructed to manage radioactive wastes in a specific area.

When the permanent disposal of low and medium level radioactive waste is completed, a large number of waste drums currently stored in nuclear power plants have to be transported. These radioactive wastes are very dangerous and can lead to catastrophic events if they are lost during transportation or accidents occur. Therefore, to ensure safety, all processes of radioactive waste transport must be monitored in real time.

To date, no radioactive waste has been transported from a nuclear power plant to an outlying place, but the transport of radioactive isotopes and radioactive materials has been carried out in accordance with the related nuclear laws. According to the nuclear laws and regulations, when transporting radioactive materials, the operator measures and records the contact dose, 1 meter dose and position and time in the vehicle, and as a reference radiation dose in the space where the driver's seat and passenger seat The radiation dose and the dose before and after the loading of radioactive material are measured, recorded and reported to the relevant authorities. However, since these reports rely solely on the operator's record, there is a concern that reliability and accuracy will be compromised.

The present invention has been made to solve the above problems, and to provide a radioactive waste transport management system that can not only safely transport radioactive waste, but also can monitor and manage all the transport process in real time. It is done.

In order to achieve the above object, the radioactive waste transport management system according to the present invention, the radiometer 12 having a plurality of probes (12a) for monitoring the state of the radioactive waste drum (P) deposited therein and And a GPS receiver 13 receiving position information from a GPS satellite, and a radio receiver 14 for wirelessly transmitting and receiving state information and position information received from the radiation meter 12 and the GPS receiver 13. Containing container 10; A central control center 20 which receives the state information and the position information received from the container 10 and manages it by a predetermined method; And a wireless communication network for bidirectionally communicating between the container 10 and the central control center 20.

In the present invention, the wireless communication network 30 uses a low altitude satellite or a CDMA system via a base station.

In the present invention, the central control center 20 grasps the real-time radiation dose of radioactive waste from the state information signal received from the container 10, and the geographic information system (GIS; Geographic) from the received position information signal. Information system) is used to determine the location of the container to be moved, and to store and manage the state information and location information in real time.

Hereinafter, a radioactive waste transport management system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram of a radioactive waste transportation management system according to the present invention, FIG. 2 is a perspective view of a container in FIG. 1, and FIG. 3 is a view showing an arrangement of probes in FIG. 2.

As shown, the radioactive waste transportation management system according to the present invention includes a container 10 for loading a radioactive waste drum P containing radioactive waste therein, a status information signal received from the container 10, and It includes a central control center 20 for receiving the location information signal and managing by a predetermined method, and a wireless communication network for bidirectional communication between the container 10 and the central control center 20.

The container 10 includes a radiation meter 12 having a door 11 installed at its side, and a plurality of probes 12a for monitoring the state of the radioactive waste drum P installed and transported therein; And a GPS (Global Position System) receiver 13 for determining its position, a radio for wirelessly transmitting signals generated by the radiometer 12 and the GPS receiver 13 and receiving external control signals wirelessly. And a transceiver 14. In addition, an uninterruptible power supply (UPS) 15 for applying emergency power to the container 10 in case of an accident is provided in a predetermined portion of the container.

The radiometer 12 is organically connected with a probe 12a for monitoring the state of the radioactive waste drum P to be carried. The probes 21 are arranged at regular intervals inside the container 10, and the radiometer 12 analyzes the signals generated therefrom to measure whether the radioactive waste leaks or the amount of radiation. Furthermore, the radioactive waste drum ( The loading time or dripping time (hereinafter referred to as status information) of P) can be known.

The GPS receiver 13 receives accurate time information and distance information (hereinafter, referred to as position information) from three or more GPS satellites floating on the earth to accurately determine the current position. The GPS receiver 13 can accurately grasp not only latitude, longitude, and altitude, but also speed information in three dimensions, and thus can accurately grasp the position, the moving direction, and the moving speed of the container 10.

The radio transmitter 14 wirelessly transmits the state information signal generated by the radiation measuring instrument 12 and the position information signal generated by the GPS receiver 13 to the central control center 20 by wireless communication. 20) wirelessly receive the control signal. By the radio transmitter and receiver 14, bidirectional communication with the central control center 20 is possible, and thus the control at the central control center 20 is possible.

The uninterruptible power supply 15 supplies emergency power to the transport container system in the event of an accident. In this embodiment, the uninterruptible power supply 15 can supply power for about 48 hours.

The central control center 20 is capable of bidirectional communication through the wireless transmitter and receiver 14 of the container 10. That is, the central control center 20 can receive the status information signal generated by the radiation measuring instrument 12 to accurately grasp the radiation dose, loading and loading time of the radioactive waste being transported, and known geographic information system (GIS; Geographic). The location information signal received from the GPS receiver 13 is moved on the map using an electronic map provided by an information system to determine the position, the moving direction, and the moving speed of the container.

In addition, the central control center 20 can deliver the appropriate response to the operator to move the container 10, or control the internal configuration of the container to enable more safe and reliable transport. The status information signal and the location information signal are stored and managed in association with a database, and the transport report can be automatically and accurately reported to related organizations, thereby enabling the safe and reliable transport of the radioactive waste drum (P).

The wireless communication network uses a low altitude satellite or a CDMA system via a base station. Through such a wireless communication network, it is possible to control the radiation meter by transmitting a control command to the radio transceiver 14 mounted in a container that is moved using wired, wireless and public networks. You can also tell.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

As described above, according to the radioactive waste transportation management system according to the present invention, in a remote central control center, the position and the moving direction together with the radiation dose, the loading time and the dropping time of the radioactive waste transported to the container can be accurately identified in real time Can be.

1 is a schematic configuration diagram of a radioactive waste transportation management system according to the present invention,

2 is a perspective view of the container in FIG. 1, FIG.

FIG. 3 is a view showing an arrangement of probes in FIG. 2. FIG.

<Explanation of symbols on the main parts of the drawing>

10 ... container

12 ... radiometer

12a .., probe

13 ... GPS receiver

14 ... Wireless Transceiver

15 ... Uninterruptible Power Supply

20 ... Central Control Center

Claims (3)

A radiation measuring instrument 12 having a plurality of probes 12a for monitoring a state of the radioactive waste drum P stored therein, a GPS receiver 13 receiving position information from a GPS satellite, and the radiation A container 10 including a wireless transmitter and receiver 14 for wirelessly transmitting and receiving status information and position information received from the measuring instrument 12 and the GPS receiver 13; A central control center 20 which receives the state information and the position information received from the container 10 and manages it by a predetermined method; And And a wireless communication network for bidirectional communication between the container (10) and the central control center (20). The method of claim 1, The radioactive waste transport management system, characterized in that the radio communication network 30 using a low altitude satellite, a CDMA method via a base station. According to claim 1, The central control center 20, grasp the radiation dose, time, etc. of the radioactive waste from the status information signal received from the container 10, and the geographic information system (GIS) from the received location information signal A radioactive waste transportation management system, characterized in that to identify the location of the container being moved using the), and to store and manage the state information and location information in real time.