Determination of In Vitro Lung Solubility and Intake-to-Dose Conversion Factors for Tritiated LaNi<sub>4.15</sub>Al<sub>0.85</sub> and 13X Zeolite

Greg Staack; Yung-Sung Cheng; Yue Zhou; Tom LaBone

doi:dx.doi.org/10.1080/15361055.2017.1291041

/Create an Account

Home / Publications / Journals / Fusion Science and Technology / Volume 71 / Number 4

Determination of In Vitro Lung Solubility and Intake-to-Dose Conversion Factors for Tritiated LaNi_4.15Al_0.85 and 13X Zeolite

Greg Staack, Yung-Sung Cheng, Yue Zhou, Tom LaBone

Fusion Science and Technology / Volume 71 / Number 4 / May 2017 / Pages 570-574

Technical Note / dx.doi.org/10.1080/15361055.2017.1291041

First Online Publication:May 11, 2017

pdf View or Purchase Article

Articles are hosted by Taylor and Francis Online.

Samples of tritiated LaNi_4.15Al_0.85 (LANA.85) and 13X zeolite were analyzed to obtain particle size distributions and tritium evolution rates in a simulated lung environment. This information was used to calculate intake-to-dose conversion factors (DCFs), which estimate the committed effective dose (CED) a worker would receive after inhaling either tritiated particulate. The DCFs for tritiated LANA.85 and 13X particulate with a default activity mean aerodynamic diameter (AMAD) of 5 μm were determined to be 1.01E-11 Sv/Bq and 1.11E-11 Sv/Bq, respectively. These results are comparable to that of HTO, 1.8E-11 Sv/Bq, indicating that urine bioassay results can conservatively estimate the dose delivered if the worker was exposed to any mixture of HTO, LANA.85, or 13X.

Determination of In Vitro Lung Solubility and Intake-to-Dose Conversion Factors for Tritiated LaNi4.15Al0.85 and 13X Zeolite

Determination of In Vitro Lung Solubility and Intake-to-Dose Conversion Factors for Tritiated LaNi_4.15Al_0.85 and 13X Zeolite