KR102286215B1 - System and method for managing transportation of radioactive waste - Google Patents

Abstract

According to the present invention, provided are a radioactive waste transport management system and a radioactive waste transport management method using the same. The radioactive waste transport management system includes: a waste production place terminal used by a manager for a place where radioactive waste is produced; a train operator server operated by an operator managing and organizing waste transport trains transporting the radioactive waste; a transport management server connected with the waste production place terminal and the train operator server through a communication network to manage railway transport of the radioactive waste; and a transport route management server confirming the condition of a transport route from the radioactive waste production place. The transport management server determines a cargo train suitable for the type of the radioactive waste to be transported among the waste transport trains based on waste information including the type of the radioactive waste, transmitted from the waste production place terminal. Therefore, the present invention is capable of quickly and stably transporting a large amount of radioactive waste to a disposal area.

Description

SYSTEM AND METHOD FOR MANAGING TRANSPORTATION OF RADIOACTIVE WASTE

The present invention relates to a radioactive waste treatment technology, and more particularly, to a system and method for managing the transport of radioactive waste from a source to a radioactive waste repository.

Radioactive waste is a radioactive material or a material contaminated by it, and is classified into low-intermediate-level and high-level waste. Low-intermediate-level waste is waste with a relatively low radioactivity level, such as work clothes, gloves, or replacement parts exposed to radiation during the handling of radioactive materials, and high-level waste is waste with a fairly high radioactivity level, such as nuclear fuel used in a nuclear power plant.

The decommissioning of old nuclear power plants and other research reactors is planned according to the recent nuclear phase-out policy, and a large amount of radioactive waste is expected to be generated accordingly. there is.

Conventionally, radioactive waste is transported from a waste generation site to a disposal site using a vehicle or a ship. In the case of the transportation method using a vehicle, a large number of people and vehicles are required to transport a large amount of waste at once, and the transportation schedule is variable depending on the acceptance of residents around the waste transportation route, traffic conditions, weather, etc. In this case, it is difficult to transport to nuclear facilities located inland, and it is difficult to establish a transport schedule depending on weather conditions and tides, and there is a possibility that an accident may bring international problems due to marine pollution.

Korean Patent Laid-Open Publication No. 10-2009-0003519 "Sea Transport System of Radioactive Waste" (2009.01.12.)

It is an object of the present invention to provide a system and method for managing the transport of radioactive waste by rail.

In order to achieve the above object of the present invention, according to an aspect of the present invention, the terminal used by the manager of the radioactive waste generation site; a train operator server operated by Korail or a train operator (hereinafter referred to as the "operator") that manages and organizes waste-carrying trains carrying radioactive waste; and a transport management server that is connected to the source terminal and the train operator server through a communication network to manage a transport box of radioactive waste using a railroad, wherein the transport management server is the type of radioactive waste to be transported from the generator terminal. Based on the waste information including

In order to achieve the above object of the present invention, according to another aspect of the present invention, it manages and organizes a waste transport train for transporting radioactive waste, including the type of radioactive waste to be transported requested from the manager of the radioactive waste generation site. Based on the waste information, a freight train suitable for the type of radioactive waste to be transported is determined in the waste transport train, and when the radioactive waste is alighted from the waste transport train, the radioactive waste that guides the decontamination plan for the waste transport train A transport management system is provided.

In order to achieve the above object of the present invention, according to another aspect of the present invention, there is provided a method for managing the transportation of radioactive waste using a railroad, comprising: a waste type confirmation step in which the type of radioactive waste to be transported is confirmed; and a train type determination step in which the type of the freight train carrying the radioactive waste to be transported is determined, wherein in the train type determining step, a freight train suitable for the type of the radioactive waste to be transported identified in the waste type confirmation step is determined. A method for controlling the transport of radioactive waste to be determined is provided.

According to the present invention, all of the objects of the present invention described above can be achieved. Specifically, the transport management system and method for radioactive waste according to the present invention provides a remarkable effect that a large amount of radioactive waste can be quickly and stably transported from the waste generation site to the disposal site by rail.

1 is a block diagram showing a schematic configuration of a radioactive waste transport management system according to an embodiment of the present invention.
2 is a flowchart showing a schematic configuration of a method for managing transport of radioactive waste according to an embodiment of the present invention.

1 is a block diagram showing a schematic configuration of a radioactive waste transport management system according to an embodiment of the present invention. Referring to FIG. 1 , a radioactive waste transport management system 100 according to an embodiment of the present invention is a system for managing transport of radioactive waste using a railroad, and is a terminal 110 used by a manager of a radioactive waste generating site. And, a train operator server 120 operated by an operator that manages and organizes a waste transport train that transports radioactive waste, and a loading management server operated by a loading company that operates loading equipment for loading and unloading radioactive waste on the waste transport train (130), a transport route confirmation server 140 for the purpose of real-time confirmation of abnormalities in the transport route of radioactive waste and for surrounding control and notification, and an alighting company operating an alighting device for disembarking radioactive waste from a waste transport train. The alighting management server 150 operated by the railway, the transportation manager terminal 160 used by the manager who manages the transportation of radioactive waste using the railroad, the originating terminal 110, the train operator server 120, the loading management server ( 130), the transport route confirmation server 140, the alighting management server 150, and the transport manager terminal 160 are connected through a wired/wireless communication network and include a transport management server 170 that manages the transport of radioactive waste as a whole.

The generation site terminal 110 is a terminal used by the manager of the radioactive waste generation site, and includes all information and communication devices capable of communicating with the transport management server 160 such as a desktop computer, a notebook computer, a tablet PC, and a smart phone. In this embodiment, the radioactive waste generation site is described as a nuclear power plant being dismantled, but the present invention is not limited thereto, and includes all facilities that generate radioactive waste, such as national research institutes, research reactors, universities, and university hospitals. Waste information including the type and amount of radioactive waste to be transported through the source terminal 110 is transmitted to the transport management server 170 . Radioactive waste to be transported is classified into bulk waste, low-intermediate-level waste drum, other solid waste, and spent nuclear fuel (cask). Bulk waste includes soil, concrete, and work items (such as work clothes, gloves, gowns, towels, etc. used by nuclear power plant operators or radiation workers in radiation control areas). Depending on the type of radioactive waste to be transported, the type of train, loading and unloading of waste, transport method and disembarkation method are decided through consultation with relevant stakeholders (waste generator, transport company, disposal site, etc.).

The train operator server 120 is operated by Korail, a vehicle manufacturer, or a transport company that manages and organizes a waste transport train that transports radioactive waste. The train operator server 120 provides the use and management state information of the waste transport train used for the transport of radioactive waste to the transport management server 160 . The waste transport train used for the transport of radioactive waste can be equipped with detachable snow removal equipment at the head of the power vehicle in preparation for weather conditions such as heavy rain and heavy snow. Prevent the generation of liquid waste and the spread of waste. In the waste transport train used for the transport of radioactive waste, there are various types of freight trains, and an appropriate one is selected by the transport management server 170 according to the kind of the transported radioactive waste. At this time, the final decision is made on the dispatch of waste trains by collecting the opinions of train manufacturers and transport companies.

The loading management server 130 is operated by a transport company that operates loading equipment for loading and unloading radioactive waste to be transported on a waste transport train. The loading management server 130 provides information on the usage and management status of loading devices that load radioactive waste on the waste transport train to the transportation management server 170 according to the type. After determining the loading method according to the type of radioactive waste, it is input to the transport management server 170 so that it can be disclosed to other interested parties and the public. In the loading and unloading method, equipment mobilization and loading plan are established by checking the site conditions around the waste loading area, loading equipment, and quantity. In the case of low and medium level waste drums, a method of installing a loading rail or loading a vehicle on a train using a conveyor belt or the like may be used. In the case of bulky waste, a method of pushing waste by selecting a train stop at a lower location than a waste collection point, or loading and unloading using an excavator or a conveyor belt can be applied. Lastly, in the case of spent fuel, there may be a method using a large crane like the current method, and a loading method using a kenbei belt may be used.

The transport route confirmation server 140 provides the status of railroads, bridges, tunnels, etc. on the transport route confirmed by the Korea Railroad Facility Management Corporation, transport companies, and other related organizations before waste transport, and whether transport is possible and surrounding control plans, etc. is established and entered. When the transport/control plan established and determined in this server is completed and approved, the waste train is started, and the real-time status of the train is provided to relevant organizations such as Korail, the Korea Nuclear Environment Corporation, the Atomic Energy Commission, and related local governments, and the transit time and Estimated arrival times are provided to provide information for relevant agencies to prepare ahead of time.

The alighting management server 150 is operated by a disembarkation company operating a disembarkation equipment for disembarking radioactive waste from a waste transport train. The alighting management server 150 provides information on the use and management status of the alighting equipment for disembarking the radioactive waste from the waste transport train to the transportation management server 170 according to the type. As for the loading method, a suitable method is selected by the transportation management server 170 according to the type of radioactive waste. A suitable method is selected by the transport management server 170 in consideration of the condition of the waste disposal site, the quantity, the arrangement of equipment, and the like. In the case of bulky waste, the waste is unloaded using methods such as dumping, excavator, and conveyor belt in the opposite way to the method performed at the loading site.

The transport manager terminal 160 is a terminal used by a transport manager who manages the transport of radioactive waste using railroad, and all information that can communicate with the transport management server 170 such as a desktop computer, a laptop computer, a tablet PC, and a smartphone. including communication devices. The transport manager accesses the transport management server 170 through the transport manager terminal 160 to check and approve the transport management status of radioactive waste.

Transportation management server 170 is wired and wireless with the origin terminal 110, the train operator server 120, the loading management server 130, the transportation route confirmation server 140, the alighting management server 150 and the transportation manager terminal 160. It is connected through a communication network and manages the overall transport of radioactive waste. The specific role of the transport management server 170 will be described in detail in the transport management method of radioactive waste according to an embodiment of the present invention shown in FIG.

2 is a schematic configuration of a method for managing transport of radioactive waste according to an embodiment of the present invention is shown as a flowchart. Referring to FIG. 2 , the transport management method of radioactive waste according to an embodiment of the present invention includes a waste type confirmation step ( S10 ) in which the type of radioactive waste to be transported is confirmed, and the type of a freight train in which the radioactive waste is transported. The determined train type determination step (S20), the loading method determination step (S30) in which the method of loading and unloading radioactive waste on the transport train is determined, and the confirmation of the transport route of the radioactive waste and the transport schedule of the waste by the waste transport train is determined In the transportation schedule determination step (S40), the method of disembarking the radioactive waste from the waste transportation train is determined (S50), and the decontamination plan for the waste transportation train is determined after the radioactive waste is disembarked from the waste transportation train. Includes a guided decontamination plan guide step (S60). At this time, if it is judged that decontamination is impossible in advance, or it may be judged that decontamination is impossible after the waste is disposed of, a plan for decontamination of the train is also established at this stage. Since the transport management method of radioactive waste shown in FIG. 2 uses the transport management system 100 of radioactive waste shown in FIG. 1, each step (S10, S20, S30, S40, S40, S50) with reference to FIG. 1 below. , S60) are described in detail.

In the waste type confirmation step (S10), the type of radioactive waste to be transported is checked and determined. Specifically, in the waste type confirmation step (S10), the manager of the waste generation site transmits waste information including the type and amount of radioactive waste to be transported to the transportation management server 170 through the generation terminal 110, and the transportation management server ( 170) is performed by confirming the type and quantity of radioactive waste to be transported. The transport manager and other interested parties may access the transport management server 170 through the transport manager terminal 160 to check the type of radioactive waste to be transported. Radioactive waste to be transported is classified into bulk waste, low-intermediate-level waste drum (drum), and spent nuclear fuel (cask). Bulk waste includes soil, rebar, concrete, and work items (such as work clothes, gloves, gowns, towels, etc. used by nuclear power plant operators or radiation work managers). Depending on the type of radioactive waste to be transported, the type, loading, and defect method of the train are determined.

In the train type determination step ( S20 ), the type of the freight train in which the radioactive waste is transported is determined. Specifically, the train type determination step (S20) is confirmed through the waste type confirmation step (S10) based on the use and management status information of the radioactive waste transportation train provided by the transportation management server 170 by the train operator server 120. This is done by determining the freight train suitable for the type of radioactive waste to be transported. At this time, the operator makes a final decision by collecting the opinions of train manufacturers, transport companies and other stakeholders. The freight train determined in the train type determination step S20 may be transmitted to the transport manager terminal 160 by the transport management server 170 to notify the transport manager. The transport manager may access the transport management server 160 using the transport manager terminal 160 to check and approve the freight train determined through the train type determination step ( S20 ).

In the loading method determination step (S30), a method of loading the radioactive waste to be transported on the transport train is determined. Specifically, the loading method determination step (S30) is a waste type based on the usage and management status information for each type of loading equipment in which the transport management server 170 loads the radioactive waste provided from the loading management server 130 on the waste transport train. It is performed by determining the loading method suitable for the type of radioactive waste to be transported confirmed through the confirmation step (S10). In the loading and unloading method, equipment mobilization and loading plan are established by checking the site conditions around the waste loading area, loading equipment, and quantity. In the case of low and medium level waste drums, a method of installing a loading rail or loading a vehicle on a train using a conveyor belt or the like may be used. In the case of bulky waste, a method of pushing waste by selecting a train stop at a lower position than a waste collection point, or loading and unloading using an excavator or a Kenbeyer belt can be applied. Lastly, in the case of spent fuel, there may be a method using a large crane like the current method, and a loading method using a conveyor belt may be used. The loading method determined in the loading method determination step S30 may be transmitted to the transportation manager terminal 160 by the transportation management server 170 and notified to the transportation manager. The transport manager may access the transport management server 170 using the transport manager terminal 160 to check and approve the loading method determined through the loading method determining step S30.

In the transport schedule determination step (S40), the transport schedule of the radioactive waste is confirmed and the transport schedule of the waste by the waste transport train is determined. Specifically, the transport schedule determination step S40 is performed by the transport management server 170 determining the transport schedule of the waste transport train based on the train organization information provided by the train operator server 120 . It is desirable that the transportation schedule be decided so that the night transportation of the waste-carrying train is carried out, and the condition of the transportation route is checked in advance with other stakeholders, so that it can be safely transported, and the result is confirmed in real time and the result is shared. According to this review, the transportation schedule is determined, and the loading schedule and defect schedule are also determined. The transportation schedule determined in the transportation schedule determination step S40 may be transmitted to the transportation management terminal 160 by the transportation management server 170 to notify the transportation manager. The transport manager may access the transport management server 170 using the transport manager terminal 160 to confirm and approve the transport schedule determined through the transport schedule determining step ( S40 ).

In the alighting method determination step (S50), a method of disembarking the radioactive waste from the waste transport train is determined. Specifically, the alighting method determination step (S50) is based on the use and management status information for each type of alighting equipment that alights the radioactive waste provided from the alighting management server 150 to the waste transport train through the waste type confirmation step (S10). This is done by determining the appropriate unloading method for the identified type of radioactive waste to be transported. A suitable method is selected by the transport management server 170 in consideration of the condition of the waste disposal site, the quantity, the arrangement of equipment, and the like. In the case of bulky waste, the waste is unloaded using methods such as dumping, excavator, and conveyor belt in the opposite way to the method performed at the loading station. The alighting method determined in the alighting method determination step S50 may be transmitted to the transportation manager terminal 160 by the transportation management server 170 to notify the transportation manager. The transport manager may access the transport management server 170 using the transport manager terminal 160 to confirm and approve the alighting method determined through the getting off method determining step ( S50 ).

In the decontamination plan guidance step ( S60 ), the decontamination plan for the waste transport train is guided after the radioactive waste is disembarked from the waste transport train. Specifically, the decontamination plan guidance step ( S60 ) is performed by the transport management server 170 transmitting the decontamination schedule to the train operator server 120 after disembarking based on the transport schedule determined in the transport schedule determining step ( S40 ). At this time, if it is judged that decontamination is impossible in advance, or it may be judged that decontamination is impossible after the waste is disposed of, a plan for decontamination of the train is also established at this stage. In this embodiment, it is described that the train decontamination is performed by a high-pressure water spray method, and after decontamination, the train is returned to the generation site after being inspected or is waiting in a separate garage.

Although the present invention has been described through the above examples, the present invention is not limited thereto. The above embodiments may be modified or changed without departing from the spirit and scope of the present invention, and those skilled in the art will recognize that such modifications and changes also belong to the present invention.

100: radioactive waste transport management system
110: source terminal
120: train operator server
130: loading vehicle management server
140: transport route confirmation server
150: alight management server
160: transport manager terminal
170: transport management server

Claims (12)

a generator terminal used by the manager of a radioactive waste generator;
a train operator server operated by an operator that manages and organizes waste-carrying trains carrying radioactive waste; and
and a transportation management server connected to the source terminal and the train operator server through a communication network to manage the transportation of radioactive waste using the railroad,
The transport management server determines a freight train suitable for the type of radioactive waste to be transported in the waste transport train based on waste information including the type of radioactive waste to be transported transmitted from the generation terminal terminal,
Transport management system for radioactive waste. The method according to claim 1,
The transport management server classifies the type of radioactive waste to be transported into bulk waste, medium and low level waste drum (Drum) and spent nuclear fuel (Cask),
Transport management system for radioactive waste. The method according to claim 1,
Further comprising a loading management server that provides information on the use and management status of loading equipment for loading and unloading the radioactive waste to be transported on the waste transport train to the transport management server,
The transport management server determines a loading method suitable for the type of radioactive waste to be transported based on the use and management status information for each type of loading equipment provided by the loading management server,
Transport management system for radioactive waste. The method according to claim 1,
Further comprising a disembarkation management server that provides information on the use and management status of disembarking equipment for disembarking radioactive waste from the waste transport train to the transport management server,
The transport management server determines an alighting method suitable for the type of radioactive waste to be transported based on the use and management state information for each type of the alighting equipment provided by the alighting management server,
Transport management system for radioactive waste. The method according to claim 1,
Further comprising a transport route confirmation server for checking and sharing the prior state and real-time real-time state of the transport route by the waste transport train,
Transport management system for radioactive waste. Manages and organizes a waste transport train for transporting radioactive waste, and based on waste information including the kind of radioactive waste to be transported requested from the manager of the radioactive waste generation site, suitable for the type of radioactive waste to be transported in the waste transport train Determining a freight train, and guiding a decontamination plan for the waste transport train when the radioactive waste is disembarked from the waste transport train,
Transport management system for radioactive waste. A method for managing the transport of radioactive waste using railroads, comprising:
a waste type confirmation step in which the type of radioactive waste to be transported is confirmed; and
and a train type determination step in which the type of the freight train carrying the radioactive waste to be transported is determined,
In the train type determining step, a freight train suitable for the type of radioactive waste to be transported identified in the waste type checking step is determined,
Methods for managing the transport of radioactive waste. 8. The method of claim 7,
The type of radioactive waste to be transported is classified into bulk waste, medium and low level waste drum (Drum) and spent nuclear fuel (Cask),
Methods for managing the transport of radioactive waste. 8. The method of claim 7,
A loading method determining step of determining a loading method for loading and unloading the radioactive waste to be transported on the freight train,
The loading method is determined by selecting one suitable for the type of radioactive waste to be transported,
Methods for managing the transport of radioactive waste. 10. The method of claim 9,
When the radioactive waste to be transported is a medium-low level waste drum, the loading method is determined by installing a transport rail to get on and off the train,
Methods for managing the transport of radioactive waste. 10. The method of claim 9,
When the radioactive waste to be transported is bulk waste or spent fuel, the loading method is a method of placing the freight train stop at a lower area than the area where the waste is gathered and pushing it in, or loading using an excavator or a Kenbeyer belt. method is determined
Methods for managing the transport of radioactive waste. 8. The method of claim 7,
The method further comprises a disembarkation method determining step of determining a disembarkation method for disembarking the radioactive waste to be transported from the freight train,
The disembarkation method is determined by selecting one suitable for the type of radioactive waste to be transported,
Methods for managing the transport of radioactive waste.

Images