Measurements of emanation of radon isotopes in residental and administrative buildings

Authors

  • V.V. Dyachkov National Nanotechnology Laboratory of Open Type, Kazakhstan, Almaty
  • Z.M. Biyasheva Scientific Research Institute Of Biology And Biotechnology Problems, Kazakhstan, Almaty
  • D.A. Ismagulova Scientific Research Institute Of Biology And Biotechnology Problems, Kazakhstan, Almaty
  • A.B. Nuketay Scientific Research Institute Of Biology And Biotechnology Problems, Kazakhstan, Almaty
  • Y. Zaripova National Nanotechnology Laboratory of Open Type, Scientific Research Institute Of Biology And Biotechnology Problems, Kazakhstan, Almaty
  • A.L. Shakirov National Nanotechnology Laboratory of Open Type, Scientific Research Institute Of Biology And Biotechnology Problems, Kazakhstan, Almaty
  • A.V. Yushkov National Nanotechnology Laboratory of Open Type, Kazakhstan, Almaty

DOI:

https://doi.org/10.26577/RCPh-2019-i3-3
        165 50

Keywords:

radon;, radon decay daughter products;, alpha activity;, tectonic faults;, natural radiation background.

Abstract

The distribution of alpha activity of natural radionuclides in boarding schools located near the tectonic fault zones of Almaty was studied. Measurements were made in boarding schools, which are both residential and administrative buildings. As a result of the measurements, a 2D topology of the distribution of the alpha-radiation flux density of radon isotopes and their daughter decay products from the measurement height (number of storeys) for each boarding school was made. In addition, a 2D topology of the distribution of alpha-radiation flux density from the distance to the tectonic fault was compiled. According to the measurement results, the concentration coefficient of radon was found depending on the distance from the tectonic fault. Using the obtained regularity, it is possible to construct a graph of the dependence of volume alpha activity for other schools, if their distance from the tectonic fault is known.

References

1 ICRP Publication 65. Protection Against Radon-222 at Home and at Work, Ann. ICRP 23(2), 1-45 (1993).

2 ICRP Publication 50. Lung Cancer Risk from Exposures to Radon Daughters, Ann. ICRP 17(1), 1-60 (1987).

3 2012 IARC Monographs on the Evaluation of Carcinogenic Risks to Humans, (IARC, Vol. 100D Radiation, 2012), 341 p.

4 The World Health Organization (WHO). WHO Handbook on Indoor Radon (2009). –http://whqlibdoc.who.int/publications/2009/9789241547673_eng.pdf.

5 W.W. Nazaroff, Reviews of Geophysics 30 (2), 137-160 (1992).

6 G.V. Ashok, N. Nagaiah and N.G. Shiva Prasad, Radiation Protection Dosimetry 148 (1), 92-100 (2012).

7 J. Milner, C. Shrubsole, P. Das, B. Jones, I. Ridley, Z. Chalabi, I. Hamilton, B. Armstrong, M. Davies and P. Wilkinson, BMJ 348 (2014).

8 I.M. Fisenne, L. Machta and N.H. Harley, The Natural Radiation Environment VII: VIIth Int. Symp. On the NRE 7, 715-721 (2005).

9 S. Darby, D. Hill, H. Deo and et al, Scand J Work Environ Health 32, 1-84 (2006).

10 I.V. Yarmoshenko, I.A. Kirdin, M.V. Zhukovskij and S.Yu. Astrahanceva, Medicinskaya radiologiya i radiacionnaya bezopasnost’ 48(5), 33-43 (2003). (in Russ).

11 J. Chen, D. Moir and J. Whyte, Radiat Prot Dosimetry 152, 9-13 (2012).

12 Y. Fan, Y. Jiang, J. Xiang, J. Wang, Z. Sun, G. Ren, S. Yao, R. Chang, Y. Zhao, Y. Qiao and Q. Zhou, Zhongguo Fei Ai Za Zhi 16 (4), 184-190 (2013).

13 J. Chen and B. Tracy, Can. J. Respir. Ther. 41, 19–27 (2005).

14 R.G. McGregor, P. Vasudev, E.G. Letourneau, R.S. McCullough, F.A. Prantl and H. Taniguchi, Health Phys. 39, 285–289 (1980).

15 L. Tomasek, J Radoil Prot. 32(3), 301-314 (2012).

16 Measurement Protocol for Radon in Dwellings. NRPA, 17 (2013).

17 R.J. Watson, M.A. Smethurst, G.V. Ganerod, I. Finne and A.L. Rudjord, Radioact. 166, 341–354 (2017).

18 J.H. Lubin, Z.Y. Wang, J.D. Boice, Xu Z.Y., Blot W.J., L. De Wang and R.A. Kleinerman, Int. J. Canc. 109, 132–137 (2004).

19 E.V. Brauner, T.V. Rasmussen and L. Gunnarsen, Indoor 23(4), 311-317 (2013).

20 V.N. Sevostyanov Problema radonobezopasnosti v Kazahstane (Almaty: KazgosINTI, 2004), 212 p. (in Russ).

21 M. Wilkening Radon in the Environment (Elsevier Science, 1990), pp. 59-70.

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How to Cite

Dyachkov, V., Biyasheva, Z., Ismagulova, D., Nuketay, A., Zaripova, Y., Shakirov, A., & Yushkov, A. (2019). Measurements of emanation of radon isotopes in residental and administrative buildings. Recent Contributions to Physics (Rec.Contr.Phys.), 70(3), 23–28. https://doi.org/10.26577/RCPh-2019-i3-3

Issue

Section

Theoretical Physics. Nuclear and Elementary Particle Physics. Astrophysics

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