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What Spectral Methods Can Tell Us About Heat Transfer Effects in Water Calorimeters
Published
Author(s)
Ronald E. Tosh, Huaiyu H. Chen-Mayer
Abstract
In water calorimetry, numerous ancillary effects such as radiation-induced chemical reactions, scattering and excess heat from nonwater materials, and dose nonuniformities within the phantom complicate the determination of absorbed dose from measurements of radiation-induced heating. Corrections for thermal transport due to excess heat and dose nonuniformities can be difficult to assess because the effects are delayed by variable amounts of time from seconds to hours that depend upon the geometry of the probes, the calorimeter vessel and the radiation beam. Typically, such corrections involve finite-element modeling of these elements that is analyzed in the time domain and, accordingly, is sensitive to timing details of the source. We have developed a technique that may alleviate this difficulty by using periodic modulation of the radiation source and measuring an effective frequency response, or system transfer function, of the calorimeter. By tracing the frequency dependence of systematic deviations from nominal or applied dose rates due to heat conduction, our approach provides a basis for assessing systematic errors for all radiation exposure times, including those that can not be handled by data analysis techniques like midpoint extrapolation.
Proceedings Title
Proceedings of the Absorbed Dose and Air Kerma Primary Standards Workshop | | 2007 |
Conference Dates
May 1, 2007
Conference Location
Paris, FR
Conference Title
Absorbed Dose and Air Kerma Primary Standards Proceedings
Pub Type
Conferences
Keywords
absorbed dose to water, finite element modeling, frequency-domain analysis, heat transfer, radiation dosimetry, water calorimetry
Citation
Tosh, R.
and Chen-Mayer, H.
(2007),
What Spectral Methods Can Tell Us About Heat Transfer Effects in Water Calorimeters, Proceedings of the Absorbed Dose and Air Kerma Primary Standards Workshop | | 2007 |, Paris, FR
(Accessed December 15, 2024)