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JP2001311791A - Method and device for monitoring radiation contamination situation - Google Patents

Method and device for monitoring radiation contamination situation

Info

Publication number
JP2001311791A
JP2001311791A JP2000131742A JP2000131742A JP2001311791A JP 2001311791 A JP2001311791 A JP 2001311791A JP 2000131742 A JP2000131742 A JP 2000131742A JP 2000131742 A JP2000131742 A JP 2000131742A JP 2001311791 A JP2001311791 A JP 2001311791A
Authority
JP
Japan
Prior art keywords
radiation
monitoring
measurement
posts
leakage
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP2000131742A
Other languages
Japanese (ja)
Inventor
Hiroshi Hoshi
博 星
Kazuhiko Maniwa
一彦 真庭
Takashi Hachitsuka
尚 八塚
Toshihiko Nukushina
俊彦 温品
Takio Mano
多喜夫 真野
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hitachi Engineering and Services Co Ltd
Hitachi Ltd
Original Assignee
Hitachi Engineering and Services Co Ltd
Hitachi Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Hitachi Engineering and Services Co Ltd, Hitachi Ltd filed Critical Hitachi Engineering and Services Co Ltd
Priority to JP2000131742A priority Critical patent/JP2001311791A/en
Publication of JP2001311791A publication Critical patent/JP2001311791A/en
Pending legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E30/00Energy generation of nuclear origin
    • Y02E30/30Nuclear fission reactors

Landscapes

  • Monitoring And Testing Of Nuclear Reactors (AREA)
  • Measurement Of Radiation (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a method and device for monitoring a radiation contamination situation, applicable to radiation leakage accident in a mechanized manner and capable of accurately seizing the radiation contamination situation. SOLUTION: Mobile radiation measurement posts 5 are transferred and placed at plural points L1-L8 for measuring radiation leakage from nuclear power facilities 30A, 30B, 30C so that radiation doses measured by the plural radiation measurement posts 5 are taken in for detecting the radiation contamination situation.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は原子力物質を取扱う
原子力施設から放射線漏れが発生した場合に放射線汚染
状況を監視する放射線汚染状況監視方法および装置に関
する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for monitoring the status of radiation contamination when radiation leakage occurs from a nuclear facility handling nuclear materials.

【0002】[0002]

【従来の技術】最近、原子力物質を取扱う原子力施設か
ら放射線漏れが問題視されている。万一、原子力施設か
ら放射線漏れ事故が発生した際には、放射線漏れ状況、
つまり放射線汚染状況を監視することが必要とする。
2. Description of the Related Art Recently, radiation leakage has been regarded as a problem from nuclear facilities handling nuclear materials. Should a radiation leak accident occur from a nuclear facility,
In other words, it is necessary to monitor the status of radiation contamination.

【0003】従来、原子力施設の放射線漏れ事故を検出
するには、原子力施設を囲う数箇所に放射線量を測定す
る固定式の放射線測定ポストを設置している。固定式の
放射線測定ポストを多数の地点に設置することは、設置
費用や維持費用の点から限界があり、通常4個所程であ
る。
Conventionally, in order to detect a radiation leak accident in a nuclear facility, fixed radiation measuring posts for measuring radiation dose are installed at several places surrounding the nuclear facility. The installation of fixed type radiation measurement posts at many points is limited in terms of installation cost and maintenance cost, and is usually about four.

【0004】固定式の放射線測定ポストは放射線測定値
を無線通信により県庁や役場などのオフサイトセンタに
送信する。放射線測定ポストには無線通信するための特
定の周波数帯域が予め割当てられている。オフサイトセ
ンタでは固定式の放射線測定ポストから送信されてくる
放射線測定値を常時監視し放射線漏れ事故が発生してな
いか監視している。
[0004] The fixed type radiation measurement post transmits the radiation measurement value to an off-site center such as a prefectural office or a government office by wireless communication. A specific frequency band for wireless communication is assigned to the radiation measurement post in advance. At the off-site center, radiation measurement values transmitted from fixed radiation measurement posts are constantly monitored to check for radiation leakage accidents.

【0005】[0005]

【発明が解決しようとする課題】従来技術は原子力施設
を囲う数箇所に放射線量を測定する固定式の放射線測定
ポストを設置して放射線漏れ事故を検出するようにして
いる。しかし、万一、原子力施設から放射線漏れ事故が
発生した際には、放射線漏れ状況、つまり放射線汚染状
況を正確に把握することが要求される。
In the prior art, fixed radiation measuring posts for measuring radiation dose are installed at several places surrounding a nuclear facility to detect a radiation leak accident. However, in the event that a radiation leak accident occurs from a nuclear facility, it is necessary to accurately grasp the state of radiation leakage, that is, the state of radiation contamination.

【0006】放射線汚染状況は風速、風向などの気象条
件によって大きく影響される。したがって、固定式の放
射線測定ポストで放射線量を測定するだけでは、気象条
件によって変化する放射線汚染状況を機動性を持って対
応できず、放射線汚染状況を正確に把握することが困難
である。また、地震などによって放射線漏れ事故が発生
した場合には、固定式の放射線測定ポストが異常にな
り、放射線漏れ事故を検出できなくなるという事態にな
ることも考えられる。
The state of radiation contamination is greatly affected by weather conditions such as wind speed and direction. Therefore, simply measuring the radiation dose with a fixed radiation measurement post cannot respond to the radiation contamination situation that changes due to weather conditions with agility, and it is difficult to accurately grasp the radiation contamination situation. Further, when a radiation leak accident occurs due to an earthquake or the like, it is conceivable that the fixed radiation measurement post becomes abnormal and the radiation leak accident cannot be detected.

【0007】このため、万一、原子力施設から放射線漏
れ事故が発生した際には、放射線漏れ状況を正確に把握
できる技術の開発が強く要望されている。
Therefore, in the event that a radiation leak accident occurs from a nuclear facility, there is a strong demand for the development of a technology capable of accurately grasping the state of radiation leakage.

【0008】本発明は上記点に対処して成されたもの
で、その目的とするところは放射線漏れ事故に機動性を
持って対応でき、放射線汚染状況を正確に把握すること
ができる放射線汚染状況監視方法および装置を提供する
ことにある。
SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and has as its object to respond to a radiation leak accident with agility and to accurately grasp the state of radiation contamination. It is to provide a monitoring method and a monitoring device.

【0009】[0009]

【課題を解決するための手段】本発明の特徴とするとこ
ろは、放射線漏れを測定すべき複数の地点に放射線測定
ポストを移送して配置し、これら複数の放射線測定ポス
トで測定された放射線量を取込み放射線汚染状況を検知
するようにしたことのある。
A feature of the present invention is that a radiation measuring post is transferred to a plurality of points where radiation leakage is to be measured, and the radiation dose measured by the plurality of radiation measuring posts is measured. We have tried to detect the status of radiation contamination.

【0010】本発明は、放射線漏れを測定すべき複数の
地点に放射線測定ポストを移送して配置し、これら複数
の放射線測定ポストで測定された放射線量を取込み放射
線汚染状況を検知するようにしている。放射線漏れ事故
が発生した原子力施設の複数の地点に放射線測定ポスト
(以下、移動式の放射線測定ポストと称することもあ
る)を移送配置して放射線量を測定し、その放射線測定
結果によって移動式放射線測定ポストを回収して他の地
域の複数の地点に移送し再配置して放射線量を測定する
ことができる。このように、放射線漏れ事故に機動性を
持って機敏に対応できるので、放射線汚染状況を正確に
把握することが可能となる。
According to the present invention, a radiation measuring post is transferred to a plurality of points where radiation leakage is to be measured, and the radiation measuring posts are taken in to detect a radiation contamination state by taking in the radiation dose measured by the plurality of radiation measuring posts. I have. A radiation measurement post (hereinafter also referred to as a mobile radiation measurement post) is transported and placed at multiple points in a nuclear facility where a radiation leak has occurred, and the radiation dose is measured. The measurement post can be collected, transported to a plurality of points in another area, and relocated to measure the radiation dose. As described above, it is possible to respond to a radiation leak accident with agility and agility, so that it is possible to accurately grasp the state of radiation contamination.

【0011】また、地震などによって放射線漏れ事故が
発生し固定式の放射線測定ポストが異常になっても、移
動式の放射線測定ポストを移送配置することによって放
射線漏れ事故を確実に検出できるようになる。
Further, even if a radiation leak accident occurs due to an earthquake or the like and the fixed radiation measurement post becomes abnormal, the radiation leakage accident can be reliably detected by transferring and disposing the movable radiation measurement post. .

【0012】[0012]

【発明の実施の形態】本発明の一実施例を車両に搭載し
た例を挙げ説明する。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A description will be given of an embodiment in which one embodiment of the present invention is mounted on a vehicle.

【0013】図1は監視車の平面図で、図2はその横断
面図である。図1、2において、監視車1は運転席6、
監視室7および設備室8を備え、有人で運転するため放
射線の被曝を防ぐため遮蔽部材9で囲まれている。監視
室7には無線機10と、無線機10で受信した放射線量
を画面に表示するパーソナルコンピュータ(以下、パソ
コンと略称する)11とが配置されている。パソコン1
1は座標管理されている地図データを図示しないメモリ
に格納している。パソコン11は椅子12に腰掛けた監
視者(図示せず)が操作監視できるようになっている。
FIG. 1 is a plan view of a monitoring vehicle, and FIG. 2 is a cross-sectional view thereof. 1 and 2, the monitoring vehicle 1 has a driver seat 6,
A monitoring room 7 and a facility room 8 are provided, and are surrounded by a shielding member 9 to prevent radiation exposure for manned operation. In the monitoring room 7, a wireless device 10 and a personal computer (hereinafter abbreviated as a personal computer) 11 for displaying a radiation dose received by the wireless device 10 on a screen are arranged. PC 1
Numeral 1 stores map data managed by coordinates in a memory (not shown). The personal computer 11 can be operated and monitored by a monitor (not shown) sitting on the chair 12.

【0014】設備室8には空調設備14、発電機15お
よび熱交換器16が設けられている。監視車1の外側に
は暗視カメラ17が設けられ、夜間運転の際に車外の状
況を運転者に知らせるようになっている。すなわち、通
常時には前向きで運転するが、事故現場に近くなると放
射線に被曝しないよう後向きで運転できるようにするた
めである。
The equipment room 8 is provided with an air conditioner 14, a generator 15 and a heat exchanger 16. A night vision camera 17 is provided outside the surveillance vehicle 1 so as to inform the driver of the situation outside the vehicle during night driving. In other words, it is intended to allow the driver to drive forward in normal situations, but to drive backward so as not to be exposed to radiation near the accident site.

【0015】監視車1には、車外の放射線レベルを測定
する放射線検知器18、アンテナ19、自車の位置を検
出するGPSアンテナ20および風速・風向計21も設
けられている。
The monitoring vehicle 1 is also provided with a radiation detector 18 for measuring the radiation level outside the vehicle, an antenna 19, a GPS antenna 20 for detecting the position of the vehicle, and a wind speed / wind indicator 21.

【0016】図3に本発明で用いる移動式の放射線測定
ポスト5を搬送する搬送車2の一例を示す。搬送車2の
運転室内は中性子、ガンマ線等の放射線を遮蔽する壁2
3で覆われており、屋根には大気を取り込むサンプリン
グ口24、放射線量を検知する放射線検出器25、車外
状況を観測するアイカメラと夜間照明を行う機器26お
よび回転灯27等が設置されている。
FIG. 3 shows an example of the transport vehicle 2 which transports the movable radiation measuring post 5 used in the present invention. Inside the cab of the transport vehicle 2 is a wall 2 for shielding radiation such as neutrons and gamma rays.
The roof is provided with a sampling port 24 for taking in the atmosphere, a radiation detector 25 for detecting the radiation dose, an eye camera for observing the situation outside the vehicle, a device 26 for nighttime illumination, a rotating light 27, and the like. I have.

【0017】搬送車2の荷物室には移動式の放射線測定
ポスト5が複数個搭載され、所定地点に設置できるよう
クレーン28が設けてある。搬送車2には放射線測定ポ
スト5を設置した位置データを送信する無線アンテナ3
2が設けられている。勿論、放射線測定ポスト5の設置
位置データを送信するパソコンなども備えているが、図
示を省略している。
A plurality of movable radiation measurement posts 5 are mounted in the luggage compartment of the carrier 2 and a crane 28 is provided so as to be installed at a predetermined point. A radio antenna 3 for transmitting position data where the radiation measurement post 5 is installed is provided on the carrier 2.
2 are provided. Needless to say, a personal computer for transmitting the installation position data of the radiation measurement post 5 is also provided, but is not shown.

【0018】図4に移動式の放射線測定ポスト5の一例
を示す。図4において、33は本体で、自力で走行でき
る車輪34を備え、内部には各種の測定制御機器が搭載
されている。本体33の上部には放射線とくにガンマ線
と中性子を検知する放射線検出器35と、自力走行する
ための目の機能を果すとともに現場状況を記録するCC
Dカメラ36を備えている。放射線測定ポスト5で測定
された放射線測定値は無線アンテナ37から無線で監視
車1に送信される。移動式の放射線測定ポスト5が無線
通信に使用する周波数は、通常、固定式の放射線測定ポ
ストで使用する周波数と異なる周波数帯域が割当てられ
る。
FIG. 4 shows an example of a movable radiation measuring post 5. In FIG. 4, reference numeral 33 denotes a main body, which is provided with wheels 34 capable of running on its own, and inside which various measurement control devices are mounted. A radiation detector 35 for detecting radiation, in particular, gamma rays and neutrons, is provided at an upper part of the main body 33.
A D camera 36 is provided. The radiation measurement value measured by the radiation measurement post 5 is wirelessly transmitted from the wireless antenna 37 to the monitoring vehicle 1. The frequency used by the mobile radiation measurement post 5 for wireless communication is usually assigned a different frequency band from the frequency used by the fixed radiation measurement post.

【0019】狭い道路や放射線量レベルの高い地点に搬
送車2が入るごとが不可能な場合、移動式放射線測定ポ
スト5は自力で走行できる車輪34とCCDカメラ36
を有しているため、搬送車2から移動制御することによ
り任意地点に移動配置することができる。また、設置さ
れた後に方向を変えたり、他の放射線測定ポスト5との
間の地点を任意に移動することもできる。
When it is impossible for the carrier 2 to enter a narrow road or a point having a high radiation dose level, the movable radiation measuring post 5 is provided with wheels 34 and a CCD camera 36 which can travel by themselves.
Therefore, it can be moved and arranged at an arbitrary point by controlling the movement from the carrier 2. In addition, the direction can be changed after being installed, or a point between the radiation measuring post 5 and another radiation measuring post 5 can be arbitrarily moved.

【0020】このような構成において放射線汚染状況を
監視することについて具体的に説明する。図5は道路3
4で囲まれた敷地31に原子力施設30A、30B、3
0Cが設けられており、原子力施設30Aから放射線漏
れ事故が発生したことを示している。敷地31の四隅に
は固定式の放射線測定ポスト3が設けられている。
The monitoring of the state of radiation contamination in such a configuration will be specifically described. Figure 5 shows road 3
Nuclear facilities 30A, 30B, 3 on site 31 surrounded by 4
0C is provided, indicating that a radiation leak accident has occurred from the nuclear facility 30A. At the four corners of the site 31, fixed radiation measurement posts 3 are provided.

【0021】監視車1と搬送車2は被爆の虞の無い地点
に行き、監視車1のパソコン11の画面に図5に示すよ
うな周辺地図を表示して移動式放射線測定ポスト5の配
置位置、つまり放射線量の測定点を設定する。例えば、
図6のL1〜L8のように設定する。 測定点L1〜L8は測定点L2、L3、L5、L7のよ
うに固定式の放射線測定ポスト3の近傍にも設定され
る。
The monitoring vehicle 1 and the transport vehicle 2 go to a point where there is no risk of being exposed to the radiation, and a peripheral map as shown in FIG. That is, the measurement point of the radiation dose is set. For example,
It is set as L1 to L8 in FIG. The measurement points L1 to L8 are also set in the vicinity of the fixed radiation measurement post 3 like the measurement points L2, L3, L5, and L7.

【0022】搬送車2は設定された測定点L1〜L8ま
で移動式放射線測定ポスト5を移送してクレーン28を
用いて設置する。放射線測定ポスト5の設置位置は確認
のため搬送車2から監視車1に無線で送信される。この
ようにして移動式放射線測定ポスト5は各測定点L1〜
L8に順次配置される。
The carrier 2 transports the movable radiation measuring post 5 to the set measuring points L1 to L8 and installs it using a crane 28. The installation position of the radiation measurement post 5 is wirelessly transmitted from the carrier 2 to the monitoring vehicle 1 for confirmation. In this way, the movable radiation measurement post 5 is connected to each of the measurement points L1 to L1.
L8 are sequentially arranged.

【0023】測定点L1〜L8に配置された各移動式放
射線測定ポスト5の放射線測定値は監視車1の無線機1
0に受信されパソコン11に取込まれる。パソコン11
は取込んだ放射線測定値を画面表示されている地図に表
示したり、放射線強度分布図にして表示する。監視車1
での監視結果は、通常オフサイトセンタに送信される。
The radiation measurement values of the mobile radiation measurement posts 5 arranged at the measurement points L1 to L8 are stored in the radio 1 of the monitoring vehicle 1.
0 is received by the personal computer 11. PC 11
Displays the captured radiation measurement values on a map displayed on the screen or as a radiation intensity distribution map. Surveillance car 1
Is usually sent to the off-site center.

【0024】測定点L1〜L8における放射線量に変化
がなく他の地点で測定する場合には、再度、例えば、図
7の測定点M1〜M6のように設定する。移動式放射線
測定ポスト5を搬送車2で回収して再配置するか、ある
いは移動式放射線測定ポスト5を自走させて測定点M1
〜M6に配置する。測定点M1〜M6における各移動式
放射線測定ポスト5の放射線測定値はパソコン11は取
込まれ画面表示される。
When the radiation dose at the measurement points L1 to L8 does not change and measurement is performed at another point, the measurement points are set again, for example, as measurement points M1 to M6 in FIG. The mobile radiation measurement post 5 is collected by the carrier 2 and rearranged, or the mobile radiation measurement post 5 is self-propelled and the measurement point M1 is measured.
To M6. The radiation measurement values of the movable radiation measurement posts 5 at the measurement points M1 to M6 are captured by the personal computer 11 and displayed on the screen.

【0025】このようにして放射線漏れ事故による放射
線汚染状況を監視するのであるが、放射線漏れを測定す
べき複数の地点に移動式の放射線測定ポストを移送して
配置し、これら複数の放射線測定ポストで測定された放
射線量を取込み放射線汚染状況を検知するようにしてい
る。放射線漏れ事故が発生した原子力施設の複数の地点
に移動式放射線測定ポストを移送配置して放射線量を測
定し、その放射線測定値結果によって放射線測定ポスト
を回収して他の地域の複数の地点に移送し再配置して放
射線量を測定することができる。したがって、放射線漏
れ事故に機動性を持って機敏に対応できるので、気象条
件に拘りなく放射線汚染状況を正確に把握することが可
能となる。
In this way, the state of radiation contamination due to the radiation leakage accident is monitored. The movable radiation measurement posts are transported and arranged at a plurality of points where radiation leakage is to be measured. The radiation dose measured by is taken in to detect the radiation contamination status. The mobile radiation measurement posts are transferred to multiple locations of the nuclear facility where the radiation leak occurred, the radiation dose is measured, the radiation measurement results are collected, and the radiation measurement posts are collected and transferred to multiple locations in other areas. It can be transferred and repositioned to measure the radiation dose. Therefore, it is possible to respond to a radiation leak accident with agility and agility, and it is possible to accurately grasp the state of radiation contamination regardless of weather conditions.

【0026】また、地震などによって放射線漏れ事故が
発生し固定式の放射線測定ポストが異常になっても、移
動式の放射線測定ポストを移送配置することによって放
射線漏れ事故を確実に検出できる。
Further, even if a radiation leakage accident occurs due to an earthquake or the like and the fixed radiation measurement post becomes abnormal, the radiation leakage accident can be reliably detected by transferring and disposing the movable radiation measurement post.

【0027】さらに、移動式の放射線測定ポストの配置
を密にすることにより放射線汚染状況をより一層精度良
く正確に把握することが可能となる。
Further, by closely disposing the movable radiation measurement posts, it is possible to more accurately and accurately grasp the state of radiation contamination.

【0028】なお、上述の実施例は監視車と搬送車を別
車両にしているが、一台の車両で監視と搬送を行っても
よいことは明らかなことである。
Although the monitoring vehicle and the carrier are different vehicles in the above-described embodiment, it is obvious that the monitoring and the carrier may be performed by one vehicle.

【0029】[0029]

【発明の効果】本発明によれば、放射線漏れ事故が発生
した原子力施設の複数の地点に移動式放射線測定ポスト
を移送配置して放射線量を測定し、その放射線測定値結
果によって放射線測定ポストを回収して他の地域の複数
の地点に移送し再配置して放射線量を測定することがで
きる。したがって、放射線漏れ事故に機動性を持って機
敏に対応できるので、気象条件に拘りなく放射線汚染状
況を正確に把握することが可能となる。
According to the present invention, a mobile radiation measuring post is transferred and arranged at a plurality of points in a nuclear facility where a radiation leakage accident has occurred to measure a radiation dose, and the radiation measuring post is determined based on the radiation measurement result. It can be collected, transported to multiple locations in other areas, and relocated to measure radiation dose. Therefore, it is possible to respond to a radiation leak accident with agility and agility, and it is possible to accurately grasp the state of radiation contamination regardless of weather conditions.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の一実施例を示す監視車の平面図であ
る。
FIG. 1 is a plan view of a monitoring vehicle showing one embodiment of the present invention.

【図2】図1の横断面図である。FIG. 2 is a cross-sectional view of FIG.

【図3】本発明による移動式の放射線測定ポストを搬送
する搬送車の一例を示す構成図である。
FIG. 3 is a configuration diagram illustrating an example of a transport vehicle that transports a mobile radiation measurement post according to the present invention.

【図4】本発明による移動式の放射線測定ポストの一例
を示す構成図である。
FIG. 4 is a configuration diagram illustrating an example of a mobile radiation measurement post according to the present invention.

【図5】本発明の監視動作の説明図である。FIG. 5 is an explanatory diagram of a monitoring operation according to the present invention.

【図6】本発明の監視動作の説明図である。FIG. 6 is an explanatory diagram of a monitoring operation according to the present invention.

【図7】本発明の監視動作の説明図である。FIG. 7 is an explanatory diagram of a monitoring operation according to the present invention.

【符号の説明】[Explanation of symbols]

1…監視車、2…搬送車、3…固定式放射線測定ポス
ト、5…移動式放射線測定ポスト、11…パ―ソナルコ
ンピュータ。
DESCRIPTION OF SYMBOLS 1 ... Monitoring vehicle, 2 ... Carrier, 3 ... Fixed radiation measurement post, 5 ... Mobile radiation measurement post, 11 ... Personal computer.

───────────────────────────────────────────────────── フロントページの続き (72)発明者 真庭 一彦 茨城県日立市幸町三丁目2番2号 株式会 社日立エンジニアリングサービス内 (72)発明者 八塚 尚 茨城県日立市幸町三丁目2番2号 株式会 社日立エンジニアリングサービス内 (72)発明者 温品 俊彦 茨城県日立市幸町三丁目2番2号 株式会 社日立エンジニアリングサービス内 (72)発明者 真野 多喜夫 茨城県日立市幸町三丁目1番1号 株式会 社日立製作所日立事業所内 Fターム(参考) 2G075 AA01 AA17 AA18 BA12 CA01 DA08 DA10 EA03 FA13 FA18 FB01 FC03 FC15 FD01 GA01 GA09 GA19 GA21 GA37 2G088 AA07 EE11 EE21 FF17 JJ36 KK20 KK32 MM02 MM10  ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Kazuhiko Maniwa 3-2-2, Sachimachi, Hitachi, Ibaraki Prefecture Within Hitachi Engineering Services Co., Ltd. (72) Inventor Takashi Yatsuka 3-2-2, Sachimachi, Hitachi, Ibaraki No. 2 Within Hitachi Engineering Services Co., Ltd. (72) Inventor Toshihiko Toshinhiko 2-2-2, Sachimachi, Hitachi City, Ibaraki Prefecture Within Hitachi Engineering Services Co., Ltd. (72) Takio Mano 3-chome, Sachimachi, Hitachi City, Ibaraki Prefecture No. 1-1 F-term in Hitachi, Ltd. Hitachi Works (reference) 2G075 AA01 AA17 AA18 BA12 CA01 DA08 DA10 EA03 FA13 FA18 FB01 FC03 FC15 FD01 GA01 GA09 GA19 GA21 GA37 2G088 AA07 EE11 EE21 FF17 JJ36 KK20 KK32 KK32 MM

Claims (9)

【特許請求の範囲】[Claims] 【請求項1】原子力施設の放射線漏れ状況を監視するも
のであって、放射線漏れを測定すべき複数の地点に放射
線測定ポストを移送して配置し、これら複数の放射線測
定ポストで測定された放射線量を取込み放射線汚染状況
を検知するようにしたことを特徴とする放射線汚染状況
監視方法。
An object of the present invention is to monitor the state of radiation leakage in a nuclear facility, wherein a radiation measurement post is transferred to a plurality of points where radiation leakage is to be measured, and the radiation measurement post is measured by the plurality of radiation measurement posts. A radiation contamination status monitoring method, characterized in that the radiation contamination status is detected by taking in a quantity.
【請求項2】原子力施設の放射線漏れ状況を監視するも
のであって、放射線漏れを測定すべき予め定めた複数の
地点に送信機能を有する放射線測定ポストを移送して配
置し、これら複数の放射線測定ポストから送信される放
射線測定値を入力して画面表示し放射線汚染状況を検知
するようにしたことを特徴とする放射線汚染状況監視方
法。
2. A radiation monitoring system for monitoring the state of radiation leakage in a nuclear facility, wherein a radiation measuring post having a transmitting function is transferred and arranged at a plurality of predetermined points where radiation leakage is to be measured. A radiation contamination status monitoring method, wherein a radiation contamination value transmitted from a measurement post is input and displayed on a screen to detect a radiation contamination status.
【請求項3】放射線測定ポストを固定配置されている原
子力施設の放射線漏れ状況を監視するものであって、放
射線漏れを測定すべき複数の地点に送信機能を有する放
射線測定ポストを移送して配置し、これら複数の放射線
測定ポストの配置位置を地図の位置情報として前記複数
の放射線測定ポストから送信される放射線測定値を入力
して地図と画面表示し放射線汚染状況を検知するように
したことを特徴とする放射線汚染状況監視方法。
3. A radiation measuring post for monitoring a radiation leak situation of a nuclear facility in which a radiation measuring post is fixedly arranged, wherein the radiation measuring post having a transmission function is transferred to and arranged at a plurality of points where radiation leakage is to be measured. Then, the arrangement positions of the plurality of radiation measurement posts are input as the position information of the map, and the radiation measurement values transmitted from the plurality of radiation measurement posts are input, the map is displayed on the screen, and the radiation contamination state is detected. Characteristic radiation contamination monitoring method.
【請求項4】放射線測定ポストを固定配置されている原
子力施設の放射線漏れ状況を監視するものであって、放
射線漏れを測定すべき複数の地点に無線送信機能を有す
る放射線測定ポストを車両で移送して配置し、これら複
数の放射線測定ポストの配置位置を地図の位置情報とし
て前記複数の放射線測定ポストから送信される放射線測
定値を受信して前記車両に搭載されている表示装置に放
射線濃度分布を表示するようにしたことを特徴とする放
射線汚染状況監視方法。
4. A radiation monitoring post for monitoring a radiation leakage situation of a nuclear facility in which a radiation measuring post is fixedly arranged, wherein the radiation measuring post having a radio transmission function is transported by a vehicle to a plurality of points where radiation leakage is to be measured. Receiving the radiation measurement values transmitted from the plurality of radiation measurement posts as the position information of the map with the arrangement positions of the plurality of radiation measurement posts and displaying the radiation concentration distribution on a display device mounted on the vehicle. A method for monitoring the status of radiation contamination, characterized by displaying
【請求項5】原子力施設の放射線漏れ状況を監視するも
のにおいて、放射線測定ポストを放射線漏れを測定すべ
き複数の地点にそれぞれ移送して配置し、複数の地点に
配置された複数の放射線測定ポストで測定された放射線
量を取込み放射線汚染状況を検知するディジタル演算手
段を備えることを特徴とする放射線汚染状況監視装置。
5. A radiation monitoring system for monitoring a radiation leak situation in a nuclear facility, wherein the radiation measuring posts are respectively transferred to a plurality of points where the radiation leakage is to be measured, and the plurality of radiation measuring posts are arranged at the plurality of points. A radiation pollution status monitoring device comprising a digital calculation means for taking in the radiation dose measured in (1) and detecting the radiation pollution status.
【請求項6】原子力施設の放射線漏れ状況を監視するも
のにおいて、放射線漏れを測定すべき予め定めた複数の
地点に移送して配置した送信機能を有する複数の放射線
測定ポストから送信される放射線測定値を入力して画面
表示し放射線汚染状況を検知するコンピュータを備える
ことを特徴とする放射線汚染状況監視装置。
6. A radiation monitoring apparatus for monitoring a radiation leakage situation in a nuclear facility, wherein the radiation measurement is transmitted from a plurality of radiation measurement posts having a transmission function and transferred to a plurality of predetermined points where the radiation leakage is to be measured. A radiation contamination status monitoring device comprising a computer for inputting a value and displaying it on a screen to detect a radiation contamination status.
【請求項7】放射線測定ポストを固定配置されている原
子力施設の放射線漏れ状況を監視するものにおいて、放
射線漏れを測定すべき複数の地点に送信機能を有する複
数の放射線測定ポストを移送して配置し、これら複数の
放射線測定ポストの配置位置を地図の位置情報として前
記複数の放射線測定ポストから送信される放射線測定値
を地図画面に表示し放射線汚染状況を検知するコンピュ
ータを備えることを特徴とする放射線汚染状況監視装
置。
7. A radiation monitoring system for monitoring a radiation leakage situation in a nuclear facility in which radiation measuring posts are fixedly arranged, wherein a plurality of radiation measuring posts having a transmission function are transferred and arranged at a plurality of points where radiation leakage is to be measured. The computer further includes a computer that displays the radiation measurement values transmitted from the plurality of radiation measurement posts on a map screen with the arrangement positions of the plurality of radiation measurement posts as position information of a map and detects a radiation contamination state. Radiation pollution status monitoring device.
【請求項8】放射線測定ポストを固定配置されている原
子力施設の放射線漏れ状況を監視するものにおいて、放
射線漏れを測定すべき複数の地点に無線送信機能を有す
る放射線測定ポストを車両で移送して配置し、これら複
数の放射線測定ポストの配置位置を地図の位置情報とし
て前記複数の放射線測定ポストから送信される放射線測
定値を受信して放射線濃度分布を画面表示する前記車両
に搭載されているパーソナルコンピュータを備えること
を特徴とする放射線汚染状況監視装置。
8. A method for monitoring a radiation leakage situation in a nuclear facility in which a radiation measuring post is fixedly arranged, wherein the radiation measuring post having a radio transmission function is transferred by a vehicle to a plurality of points where radiation leakage is to be measured. A personal computer mounted on the vehicle that receives the radiation measurement values transmitted from the plurality of radiation measurement posts as the position information of the map, and displays the radiation concentration distribution on the screen. A radiation contamination status monitoring device comprising a computer.
【請求項9】原子力施設の放射線漏れを測定すべき複数
の地点に無線送信機能を有する放射線測定ポストをそれ
ぞれ搬送して配置し、これら複数の放射線測定ポストの
配置位置を地図の位置情報として前記複数の放射線測定
ポストから送信される放射線測定値を受信して放射線汚
染状況を画面表示するパーソナルコンピュータを搭載さ
れていることを特徴とする放射線汚染状況監視用車両。
9. A radiation measurement post having a radio transmission function is transported and arranged at a plurality of points in a nuclear facility where radiation leakage is to be measured, and the arrangement positions of the plurality of radiation measurement posts are used as map position information as the position information. A radiation contamination status monitoring vehicle comprising a personal computer that receives radiation measurement values transmitted from a plurality of radiation measurement posts and displays the radiation contamination status on a screen.
JP2000131742A 2000-04-28 2000-04-28 Method and device for monitoring radiation contamination situation Pending JP2001311791A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
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Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2000131742A JP2001311791A (en) 2000-04-28 2000-04-28 Method and device for monitoring radiation contamination situation

Publications (1)

Publication Number Publication Date
JP2001311791A true JP2001311791A (en) 2001-11-09

Family

ID=18640582

Family Applications (1)

Application Number Title Priority Date Filing Date
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Country Link
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Publication number Priority date Publication date Assignee Title
KR100757257B1 (en) 2006-04-28 2007-09-10 한국전력공사 Measurement system of nuclear power plant and method for measuring of the same
US7545268B2 (en) 2002-06-12 2009-06-09 Quintell Of Ohio, Llc Shielding detection system for cargo receptacles
JP2010266304A (en) * 2009-05-14 2010-11-25 Genden Information System Co Ltd System and method for monitoring of environmental radiation in emergency
US8010461B2 (en) 2006-12-18 2011-08-30 Quintell Of Ohio, Llc Method of detection of radioactive material
JP2013032926A (en) * 2011-08-01 2013-02-14 Kyoto Univ Method for measuring radiation dose rate and method for creating radiation dose rate map
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US8513618B2 (en) 2010-12-28 2013-08-20 Quintell Of Ohio, Llc Radioactive anomaly discrimination from spectral ratios
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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7545268B2 (en) 2002-06-12 2009-06-09 Quintell Of Ohio, Llc Shielding detection system for cargo receptacles
KR100757257B1 (en) 2006-04-28 2007-09-10 한국전력공사 Measurement system of nuclear power plant and method for measuring of the same
US8010461B2 (en) 2006-12-18 2011-08-30 Quintell Of Ohio, Llc Method of detection of radioactive material
JP2010266304A (en) * 2009-05-14 2010-11-25 Genden Information System Co Ltd System and method for monitoring of environmental radiation in emergency
US8513618B2 (en) 2010-12-28 2013-08-20 Quintell Of Ohio, Llc Radioactive anomaly discrimination from spectral ratios
JP2013032926A (en) * 2011-08-01 2013-02-14 Kyoto Univ Method for measuring radiation dose rate and method for creating radiation dose rate map
JP2013113763A (en) * 2011-11-30 2013-06-10 Toshiba Corp Radiation shield body and vehicle
WO2013089193A1 (en) * 2011-12-16 2013-06-20 株式会社東芝 Radiation measurement device
JP2013127380A (en) * 2011-12-16 2013-06-27 Toshiba Corp Radiation measuring device
US9170339B2 (en) 2011-12-16 2015-10-27 Kabushiki Kaisha Toshiba Radiation measurement apparatus
JP2014145628A (en) * 2013-01-28 2014-08-14 Mitsubishi Heavy Ind Ltd System and method for creating radioactive substance distribution map
US9990751B2 (en) 2013-01-28 2018-06-05 Mitsubishi Heavy Industries, Ltd. Radioactive substance distribution map producing system and method of producing radioactive substance distribution map
KR20210147641A (en) * 2020-05-29 2021-12-07 국방과학연구소 Cbrn monitoring apparatus utilizing cbrn detector, and cbrn detector placement method
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