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Nuclear accident dosimetry intercomparison studies.

C S Sims1

  • 1Oak Ridge National Laboratory, TN 37831-6379.

Health Physics
|September 1, 1989
PubMed
Summary
This summary is machine-generated.

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Nuclear accident dosimetry intercomparison studies since 1965 provided crucial data on neutron and gamma-ray dosimetry systems. While many neutron dose measurements met accuracy guidelines, gamma dose measurements showed lower accuracy rates.

Area of Science:

  • Health Physics
  • Radiation Detection and Measurement
  • Nuclear Safety

Background:

  • Since 1965, Oak Ridge National Laboratory's Health Physics Research Reactor hosted 22 nuclear accident dosimetry intercomparison studies.
  • These studies involved 62 organizations, simulating 69 criticality accidents with diverse neutron energy spectra.

Purpose of the Study:

  • To provide a platform for discussing criticality accident dosimetry.
  • To enable organizations to test neutron and gamma-ray dosimetry systems under simulated accident conditions.
  • To compare measurement results against reference values and other participants' data.

Main Methods:

  • Simulated criticality accidents using a fast-pulse reactor.
  • Neutron dosimetry primarily utilized activation foils, thermoluminescent dosimeters (TLDs), and blood sodium activation.

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  • Gamma dose measurements employed TLDs, radiophotoluminescent glass, and film dosimeters.
  • Main Results:

    • A total of 2,289 dose measurements (1,311 neutron, 978 gamma) were recorded across simulated accidents.
    • Neutron doses ranged from 0.2-8.5 Gy; gamma doses ranged from 0.1-2.0 Gy.
    • Approximately 68% of neutron measurements met the +/- 25% accuracy guideline, while 52% of gamma measurements met the +/- 20% criterion.

    Conclusions:

    • The intercomparison studies have been vital for advancing nuclear accident dosimetry.
    • Results indicate a need for improved accuracy in gamma dosimetry for criticality accidents.
    • Continuous participation and comparison are essential for refining dosimetry techniques and ensuring personnel safety.