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Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Technical Meeting on Radiation Safety in Industrial RadiographyTechnical Meeting on Radiation Safety in Industrial RadiographyIAEA – ViennaIAEA – Vienna
23 - 27 June 201423 - 27 June 2014
Dr. Francisco Cesar Augusto Da SilvaInstituto de Radioproteção e Dosimetria - IRD/CNEN
Brasil
Brazilian Industrial Radiography Accident: Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons LearnedReconstructive Dosimetry and Lessons Learned
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Nuclear and Radioactive Installations
Nuclear InstallationsNuclear Power Plant: 2 Nuclear Research Reator: 4Nuclear Mining and Milling: 2Fuel Cycle Industrial Complex : 2 unitsNavy Industrial Complex: 1 unit
CNEN Research Institutes: 5 units(radioisotopes production, cyclotron accelerator; industrial irradiator, gammagraphy source production, metrology laboratory,...)
Radioactive Installations: 1574Industry Area: 635Medical Area - Radiotherapy and Nuclear
Medicine: 680Research: 228 Service: 31
Medical X Ray Devices:100000
Brazilian Overview
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Reference: CASEC/IRD/CNEN June 2014
7Calibration of
Equipment Laboratories
(1 SSDL)
12 Individual
Monitoring Laboratories
(Film Badge, TLD and OSL)
Approved Laboratories165000Radiation Workers
Medical Area: 75%
Industry, Research & Other Areas: 25%
Brazilian Overview
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
92 Installations (Companies)
Reference: CNEN´s Database – June 2014
276 Radiation Protection Officers
1700 Radiographers (Operators)
300 Gamma Devices with sources of 192Ir, 75Se, 60Co
Industrial Radiography
200 Daily On-site Radiographies
Brazilian Overview
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
CNEN Regulations
General Regulations:
NN-3.01-2014: BASIC SAFETY STANDARDS FOR RADIATION PROTECTION
NE-5.01-1988: SAFE TRANSPORT OF RADIOACTIVE MATERIAL
Specifics Regulations applied to Industrial Radiography:
Res 166-2014: Licensing Requirements for Radioactive Installations
NN-6.04-2013: Safety and Radiation Protection Requirements for Industrial Radiography Services
NE-3.02-1988: Requirements to Radiation Protection Services
NN-7.01-2013: Certification of Qualification for Radiation Protection Officer
CNENNational Commission of
Nuclear EnergyBrazilian Regulatory
Authority
Brazilian Overview
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Relevant Radiological AccidentsEvents with severe injuries
Wrong emergency rescue procedure: a trainee operator held the source holder with his the hand.
1997 -192Ir - 1.62 TBq (43Ci)
2000 – 60Co - 2.11 TBq (57Ci)
Due to a procedure failure, during routine maintenance work of a cobalt device, an operator kept his left hand very close to the radioactive source, during approximately 30 seconds. Reference: GADE/IRD
Brazilian data include 5 serious radiological accidents affecting 7 radiation workers and 19 members of the public, resulting in the development of the Cutaneous Radiation Syndrome in hands and fingers.
A device was stolen from the transport vehicle and a truck driver found it. The radioactive source was removed and handled by members of the public.
1985 -192Ir - 0.88 TBq (23Ci)
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
The Radiological Accident – May 2000
An industrial gamma radiographer was performing routine exposures with a 60Co Gammamat apparatus (model TK100, Isotopen-Technik Dr. Sauerwein) containing a 2.11 TBq (57 Ci) source.
The operator was not bearing a personal monitor with alarm, and did no carry a survey meter.
At the end of the tasks, when he tried to detach the guide tube from the exposure container - unaware that the source was not in the secured position - he kept his left hand very close to the radioactive source, for approximately 30 seconds.
Noticing that it was impossible to detach the guide tube from the device, area monitoring was conducted, which showed that indeed the source was not in the secured position. The source was jammed in the internal tube near the guide tube.
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
The effective and absorbed dose estimations of the Brazilian accident were performed using the following methods:
Reconstructive Dosimetry Methods
Physical Method by film badge individual monitor and a simulator of a left hand with thermoluminescent dosimeters;
Biological Dosimetry Method by cytogenetic analysis
Computational Method by a Brazilian Monte Carlo calculation code, named “Visual Monte Carlo –VMC”, with human body voxel simulator
Clinical Observation of the signs of the lesion, particularly in the fingers and hand with radiation-induced necrosis.
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Physical and Computacional Methods
The dose reconstruction used for assessment of the distribution of doses on the worker’s left hand and organs were made using two methods: physical and computational techniques.
For the first technique a physical hand simulator was built and it was also used the Alderson Rando phantom for organs doses.
The computational method was performed using microcomputer software for external dose calculations, named ‘Visual Monte-Carlo - VMC’, together with a hand voxel simulator and Alderson Rando phantom.
The values obtained through both methods for the distribution of absorbed doses on the operator’s left hand and organs doses were compared.
Computational Simulation to Hand Dose
Computational Simulation to Organ Dose
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Effective dose of 88.1 mSv using film badge individual monitor.
Effective dose of 60 mGy based on observation of none dicentrics observed at one thousand cells scored using the cytogenetic analysis.
Results of Dose Estimations
Absorbed doses of 7.41 Gy and 17.56 Gy in the thumb and index fingers using a left hand physical simulator.
Absorbed doses between 10 Gy and 20 Gy in the thumb and index fingers based on the clinical observation of oedema and erythema in operator`s hands after 8 days; appearance of blisters on his left hand, mainly on the thumb and index finger after 21 days and dry desquamation on both hands after 23 days.
Absorbed doses of 7.80 Gy and 15.90 Gy in the thumb and index fingers using Visual Monte Carlo computational dosimetry method
Absorbed doses (mGy)
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Erythema, oedema and blisters on the operator’s hands (Day 30).
Regulatory Authority Enforcement
Formal reprimand to the Company’s Director.
Temporary suspension of the facility operation.
Restriction of using of the 60Co gamma device.
Permanent removal of the operator from radiation job.
Main Causes Operator Consequences The radioactive source had stuck inside the exposure container, but not in the secured position due to corrosion inside the container and poor maintenance of the equipment.
The operator was not carrying his personal alarm.
The operator did not perform the proper and necessary radiation monitoring of the gamma device with a portable radiation monitor.
The operator failed to follow the safety procedures.
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
To assess periodically the gamma device internal channel with an industrial borescope.
To perform periodically the smear test inside the gamma device internal channel.
To provide the use of individual monitor with audible and vibrating alarms for all operators permanently.
To maintain continuous education and training in radiation protection and safety in industrial radiography.
Lessons Learned
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Education and Training in Radiation Protection and Safety in Industrial Radiography
Lessons Learned
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Education and Training in Radiation Protection and Safety in Industrial Radiography
Lessons Learned
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Evaluation of Eye Lens Doses on Industrial Gamma Radiography Workers using Monte
Carlo Method
Portable Gamma Devices
Radioactive Source:Iridium-192 – gamma
radiationActivity Max. 3.7 TBq
Education and Training in Radiation Protection and Safety in Industrial Radiography
Lessons Learned
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Safety Evaluation of Gamma Radiography Devices
Portable Gamma Devices
Radioactive Source:Iridium-192 – gamma radiationActivity Max. 3.7 TBq
Industrial radiography is used throughout the world to examine the structural integrity of materials in a non-destructive manner.
In Industrial Radiography were recorded more than 40 radiological accidents involving 37 workers, 110 members of public and 12 deaths, around the world.
Education and Training in Radiation Protection and Safety in Industrial Radiography
Lessons Learned
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Education and Training in Radiation Protection and Safety in Industrial Radiography
Lessons Learned
ANALYSIS OF RADIOLOGICAL ACCIDENTS IN INDUSTRIAL
RADIOGRAPHY
LESSONS LESSONS IDENTIFIED LESSONSLEARNED
ANALYSIS OF RADIOLOGICAL ACCIDENTS IN INDUSTRIAL
RADIOGRAPHY
LESSONS LESSONS IDENTIFIED LESSONSLEARNED
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Main Objectives: • To investigate all radiation overexposure cases recorded by personnel dosimetry.• To evaluate the worker dose and, if necessary, to give information for medical actions.• To find out the real causes of the event and to emit recommendations to avoid other radiation overexposure cases.• To modify or to ratify the exposure recorded on the personnel monitoring register.• To publish scientific information about all radiation overexposure cases.• To maintain a database of radiation overexposure cases.
Radiation Overexposure Analysis Group
Main Activities:• Technical and scientific analysis of the accident.• Dose investigation and accident reconstruction• Dose calculation• Cytogenetic dosimetry• Technical report with recommendations to avoid other radiation overexposure cases
From 1985 to 2012, 560 persons were investigated of having been overexposed.
Brazilian Industrial Radiography Accident: Reconstructive Dosimetry and Lessons Learned
IAEA Technical Meeting on Radiation Safety in Industrial RadiographyVienna 23-27 June 2014
Francisco Cesar Augusto Da [email protected] - Brasil