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Radiological Hazards
Instructional GoalTo help you understand the potential health hazards of radioactive sources that could be associated with a hazardous waste site.
Radiological Hazards
Detection of radiation is solely dependent on monitoring by instrument.
Safety First
In order to avoid exposure, it is important that worker realize the precautions that must be taken when dealing with radiological waste or sources.
Radiation Types
Non-ionizing radiation includes radiant heat, radio waves, ultraviolet radiation, and light.
– welding– laser instruments
RADIOACTIVE
Radiation Types
Ionizing radiation is radiation that has sufficient energy to remove electrons from atoms.
– alpha– beta– gamma
Radiation Dosage
• Standard Radiation Units– Roentgen applies only to X‑rays and
gamma rays. – Rad measures Absorbed Dose; i.e.,
the amount of ionizing radiation (any type) absorbed into a material.
– Rem is the most commonly used unit of measure and is used for dose equivalence.
Dose Rates
• R/hr or mR/hr – mR/hr is 1/1000th or 10-3 of the
unit R/hr
• rad/hr or mrad/hr
• rem/hr or mrem/hr
Radiation Dosage
The same term as is found in toxicology: amount of exposure times the duration of exposure.
Dose=(quantity x time)
Chronic Dose
• small amounts of radiation over a long period of time
• the body can tolerate a chronic dose better than an acute dose
Acute Dose• greater effect on the
body as there is no time to repair or replaced damaged body cells
• acute doses over 500,000 mrem may cause so much damage that the body cannot recover.
Radiation Exposure
• Radiosensitivity describes how sensitive a given cell is to radiation damage.
• Cells considered most radiosensitive: – cells of the unborn child– blood and blood-producing organs– reproductive cells– digestive tract cells– immature white blood cells
Chronic Radiation Exposure
• involves low levels of ionizing radiation over a long period of time.
• possible effects: increased risk of developing cancer and cataracts.
Acute Radiation Exposure
• is the result of a large dose in a short period of time.
• possible effects: – lowering of the white blood cell count – nausea and vomiting– diarrhea– loss of appetite– reddening of the skin – fatigue– hair loss– possible sterility
AVERAGE ESTIMATED DAYS LOST DUE TO WORK ACTIVITIES
HEALTH RISK AVERAGE ESTIMATED DAYS LOST
Mining / Quarrying 328
Construction 302
Agriculture 277
Radiation dose of 5,000mrem/year for 50 years 250
Transportation/Utilities 164
All industry 74
Government 55
Service 47
Manufacturing 43
Trade 30
Radiation accidents(deaths from exposure) <1
Radioactive ContaminationFixed
– is not easily transferred from one place to another.
Transferable/Smearable– is easily removed; any object that makes contact with it
will in turn become contaminated.
NOTE: A health physicist should be consulted for proper decontamination procedures. The process for decontamination of radioactive materials is NOT the same as chemical decontamination.
Radiation Protection
• humans cannot sense if a material is giving off radiation
• radiation must be detected and measured using radiation monitoring equipment
• important to check each drum, container, or area for ionizing radiation
Best Radiation Protection
Prevention of Prevention of Contamination!Contamination!
ALARA
An acronym that represents the concept of reducing exposure to ionizing radiation
• As• Low• As• Reasonably• Achievable
Radiation Protection
Workers can apply three principles to protect themselves from ionizing radiation exposure:
Shielding
Distance
Time