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T. Otto,

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Title: Personendosimetrie am CERN Author: Thomas Otto Last modified by: Thomas Otto Created Date: 10/15/2001 9:50:04 AM Document presentation format – PowerPoint PPT presentation

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Title: T. Otto,


1
Personal Dosimetry in a RIB Facility
  • External Exposure
  • Internal Exposure
  • Biokinetic Models
  • Dosimetry
  • Threshold Measurements
  • Particularities of a RIB facility
  • Thomas Otto, CERN, TIS-RP

2
Dosimetry basic concept
  • Absorbed dose
  • together with suitable weighting or quality
    factors dose equivalent H
  • radiation detriment is assumed to be proportional
    to dose equivalent in the low dose, low doserate
    regime
  • dose equivalent H key quantity for radiological
    risk assessment

3
External vs. Internal Exposure
4
Effective Dose
  • ICRP 60
  • Risk-related quantityeffective Dose E
  • Tissue weighting factors wT for 13 organs
    (tissues)
  • Legal limits expressed in E
  • E is one dose equivalent quantity

5
Dosimetry of External Exposure
  • Dose measurement
  • Organs inaccessible for measurement
  • Effective Dose cannot be measured directly
  • Operational quantity Personal dose equivalent
    for protection purposes
  • H gt E
  • Measure H with calibrated dosimeter on
    representative part of body

6
Personal Dosimeters
  • Gamma/Beta
  • mature technology
  • TLD or OSL
  • Neutrons
  • Wide range of relevant energies
  • Dosimeters only for partial energy range
  • Albedo, Track-etch

7
Internal Exposure
  • Penetration of radioisotopes into the body
  • inhalation via respiratory tract
  • ingestion via Gastro-Intestinal tract
  • by wounds
  • description by biokinetic models

8
Respiratory Tract Model
  • Describe
  • deposition in airways
  • clearance into blood
  • compartment model
  • 1st order rate equations
  • Particle size spectrum
  • 1 um 51 deposition
  • 5 um 82 deposition
  • Clearance type
  • Fast, Medium, Slow
  • 10 min , 140 days, 20 years

9
Dose Calculation
  • Result of Calculations
  • ICRP publications
  • dose coefficients dose per activity
    (Sv/Bq)
  • for workers and members of public
  • for different particle sizes and clearance types
  • for large range of isotopes
  • Activity in target organs from biokinetic models
  • Sum over 50 years
  • all decays in one organ
  • all organs
  • Committed dose E(50)

10
Dosimetry
  • Dose measurement
  • Organs inaccessible for measurement
  • Effective Dose cannot be measured directly
  • Calculation of dose from incorporated activity
  • Need to estimate incorporated activity

11
Incorporation Measurements
  • Direct Measurement
  • whole-body
  • whole-body counters
  • Anthropogammametry
  • body part
  • thyroid measurement
  • for g-emitters
  • Excretion Analysis
  • urine
  • feces
  • chemical preparation
  • nuclear counting techniques
  • (AMS)
  • for a/b-emitters

12
Whole-Body Counters
13
Excretion Analysis
  • Relation of excreted activity to incorporated
    activity
  • biokinetic models
  • experiments on volunteers
  • experience from accidents

14
Excretion Analysis (2)
  • Reference data for standard isotopes
  • ICRP Publ. 78
  • 3H, 59Fe
  • 57,58,60Co
  • 85,89,90Sr, 106Ru
  • 125,129,131I
  • 134,137Cs,
  • 226,228Ra, 228,232Th
  • 234,235,238U, 37Np
  • 7 Transuranium isotopes

15
Workplace Measurement
  • Swiss Ordinance for Dosimetry
  • documented measurement of aerosol concentration
    at workplace with threshold for full internal
    dosimetry
  • thresholdE(50) ? 1 mSv
  • Isotope-specific thresholds
  • Guidance only for few isotopes
  • Difficult Isotope discrimination

16
Characteristics of a RIB facility
  • Wide range of isotopes
  • Prototype-like installation without large body of
    experience (as e.g. NPP)
  • Experimental (vs. industrial) way of operation

17
External Dosimetry in RIB Facility
  • Full-body gamma dosimeters
  • Electronic dosimeter upon access to activated
    area (front-end, separator, reactor, storage) for
    immediate dose control
  • Extremity g/b dosimeters for specific work
  • during operation, neutron dosimeter(type
    depending on driver reactor vs. accelerator)

18
Workplace Monitoring in RIB Facility
  • Regular checks for volatile contamination
  • Activity-inair measurements
  • Look for representative tracer nuclides and
    estimate total contamination from their
    concentration
  • Identify such tracers
  • Determine best measurement practice(Instrument
    sensitivities, sample preparation)

19
Internal Dosimetry in RIB Facilities
  • Periodic whole-body scans for gamma emitters are
    simple, low-cost and reassuring for emplyer and
    staff
  • Periodicity has to be reviewed
  • Extra-scans after incidents
  • Excretion analysis needs identification of
    tracers and development of specific sample
    preparation/detection methods
  • Use of automated equipment and personal
    protective equipment to raise threshold for
    real internal dosimetry

20
Summary
  • Personal dosimetry key element of radiological
    protection programme
  • External vs. internal dosimetry
  • Specific challenges of RIB-facilities
  • non-standard character of installation
  • range of isotopes
  • Development work for implementation of full
    dosimetry programme is still necessary
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