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Development of the Monte Carlo Simulation Radiation Dose Assessment Procedure for NORM added Consumer Adhere·Non-Adhere Product based on ICRP 103
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 Title & Authors
Development of the Monte Carlo Simulation Radiation Dose Assessment Procedure for NORM added Consumer Adhere·Non-Adhere Product based on ICRP 103
Go, Ho-Jung; Noh, Siwan; Lee, Jae-Ho; Yeom, Yeon-Soo; Lee, Jai-Ki;
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Radiation exposure to humans can be caused by the gamma rays emitted from natural radioactive elements(such as uranium, thorium and potassium and any of their decay products) of Naturally Occurring Radioactive Materials(NORM) or Technologically Enhanced Naturally Occurring Radioactive Materials(TENORM) added consumer products. In this study, assume that activity of radioactive elements is , , , and the gamma rays emitted from these natural radioactive elements radioactive equilibrium state. In this study, reflected End-User circumstances and evaluated annual exposure dose for products based on ICRP reference voxel phantoms and ICRP Recommendation 103 using the Monte Carlo Method. The consumer products classified according to the adhere to the skin(bracelet, necklace, belt-wrist, belt-ankle, belt-knee, moxa stone) or not(gypsum board, anion wallpaper, anion paint), and Geometric Modeling was reflected in Republic of Korea "Residential Living Trend-distributions and Design Guidelines For Common Types of Household.", was designed the Room model(, a closed room, conservatively) and the ICRP reference phantom's 3D segmentation and modeling. The end-user's usage time assume that "Development and Application of Korean Exposure Factors." or conservatively 24 hours; in case of unknown. In this study, the results of the effective dose were 0.00003 ~ 0.47636 mSv per year and were confirmed the meaning of necessary for geometric modeling to ICRP reference phantoms through the equivalent dose rate of belt products.
NORM added consumer product;Voxel phantom;Exposure dose evaluation;
 Cited by
Construction of New Skin Models and Calculation of Skin Dose Coefficients for Electron Exposures,;;;;;;

Journal of the Korean Physical Society, 2016. vol.69. 4, pp.512-517 crossref(new window)
Construction of new skin models and calculation of skin dose coefficients for electron exposures, Journal of the Korean Physical Society, 2016, 69, 4, 512  crossref(new windwow)
UNSCEAR. Sources and effects of ionizing radiation. Vol. I. UNSCEAR 2008. 2008.

EC. Radiological protection principles concerning the natural radioactivity of building materials. Radiation Protection 112. 1999.

STUK. Radiation dose assessments for materials with elevated natural radioactivity. STUK-B-STO32. 1995.

MEXT. Guideline for ensuring safety of raw materials and products containing uranium or thorium. 2009.

Yoo DH, Lee HC, Shin WG, Choi HJ, Min CH. Characteristic evaluation of exposed dose with NORM added consumer product based on ICRP reference phantom. J Radiat Prot. 2014;39(4): 159-167. crossref(new window)

Ministry of Environment. Development and application of korean exposure factors. 091-042-037. 2007.

ICRP. Adult reference computational phantoms. ICRP Publication 110. 2007.

Ministry of Land, Transport and Maritime Affairs. Korea housing survey. 11-16110000-000436-01. 2012.

Korea Land Housing Corporation. Guideline of housing architectural design. 2010-17. 2010.

U.S. Homeland Security. Compendium of material composition data for radiation transport modeling. revision 1. PNNL-15870. 2011.

Able Software corporation. 3D-doctor user's manual, 3D imaging, modeling and measurement software. ASC-3DDR-BN#120710. 2012.

ICRP. The 2007 recommendations of the international commission on radiological protection. ICRP Publication 103. 2008.

ICRP. Conversion coefficients for radiological protection quantities for external radiation exposures. ICRP Publication 116. 2010.

IAEA. Application of the concepts of exclusion, exemption and clearance. IAEA RS-G-1.7. 2004.

Mustonen R. Methods for evaluation of radiation from building materials. Radiat Prot Dosim. 1984; 7(1-4):235-238. crossref(new window)

ICRP. Nuclear decay data for dosimetric calculations. ICRP Publication 107. 2007.

EC. Principles and methods for establishing concentrations and quantities (exemption values) below which reporting is not required in the european directive. Radiation protection 65. 1993.