Indian Journal of Pure and Applied Physics

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Mapping the Variation in Indoor Radon, Thoron and their Progeny Concentration for Different Seasons


Affiliations
1 Department of Physics, Sri Guru Teg Bahadur Khalsa College, Sri Anandpur Sahib 140 118, India
2 Department of Physics, Punjabi University, Patiala 147 002, India
3 Scientific Officer RP & AD, Bhabha Atomic Research Centre, Mumbai 400 085, India
 

An investigation on passive measurement of indoor radon and thoron concentration was carried out in 50 dwellings of the Patiala district of Punjab, India. A one-year study was conducted to cover all the seasons, and seasonal variation of these radioactive gases was reported. All the measurements were performed using pin-hole dosimeters for passive measurement of radon and thoron gases and their progeny for different seasons. To quantify attached and unattached progeny concentration, DRPS/DTPS and wire-mesh DRPS/DTPS were deployed with dosimeters. The average radon and thoron concentration in all the seasons was below the ICRP action level limit of 200-300 Bq/m3. Out of all season's data, the maximum value of radon and thoron was observed during the winter and the minimum for summer. The ratio of radon and thoron concentration for different seasons was also calculated in this report. Average annual indoor concentrations are compared with the average concentration of different seasons. It was concluded that the average concentration value is very near to monsoon season values, suggesting that the monsoon season is ideal for radon and thoron measurements.

Keywords

Radon, Thoron, Concentration, Seasonal, Progenies.
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  • Pugliese M, Quarto M, De Cicco F, De Sterlich C & Roca V, Indoor Built Environ, 22 (2013) 575.

  • Kendall G M & Smith T J, J Radiol Prot, 22 (2002) 389.

  • Mehta V, Shikha D, Singh S. P, Chauhan R P & Mudahar G S, Nucl Technol Radiat Prot, 31(3) (2016) 299.

  • Kumar A, Chauhan R P, Joshi M & Sahoo B K, J Environ Radioact, 127 (2014) 50.

  • Schubert M, Musolff A & Weiss H, J Environ Radioactivity, 192 (2018) 81.

  • Kaur R, Shikha D, Singh S P & Mehta V, J Geol Soc India, 93 (2019) 603.

  • Evans R D, Harley J H, Jacobi W, Mclean A S, Mills W A & Stewart C G, Nature, 290 (1981) 98.

  • Kaur R, Shikha D, Singh S P & Mehta V, Nucl Technol Radiat Prot, 35 (2020) 268.

  • Hopke, P K, Technical Report Series, (1990). DOE/ER0451Pt.

  • Ramamurthi M &Hopke P, Health Phys, 56 (1989) 189.

  • ICRP, Protection against Radon-222 at home and at work, ICRP Publication 65, Pergamon Press, Ann, ICRP 23 (1993).

  • WHO, WHO Handbook on Indoor Radon, Int J Environ Stud, 67 (2009) 108.

  • Christopher Y H, Thomas C W & Burnett J, Build Environ, 32 (1997) 527.

  • Mehta V, Chauhan R P & Mudahar G S, Environ Earth Sci, 74 (2015) 4145.

  • Mehta V, Chauhan RP & Mudahar G S, Indoor Built Environ, 24 (2015) 52.

  • Sahoo B K, Sapra B K, Kanse S D, Gaware J J & Mayya Y S, Radiat Meas, 58 (2013) 52.

  • Mishra R & Mayya Y S, Radiat Meas, 43 (2008) 1408.

  • Mishra R, Prajith R, Sapra B K & Mayya Y S, Nucl Instrum Meth Phys Res B: Beam Interact Mater At, 268 (2010) 671.

  • Mishra R, Sapra B K & Mayya Y S, Rev Sci Instrum, 85 (2014) 022105.

  • Mishra R, Sapra B K & Mayya Y S, Nucl Instrum Meth Phys Res B: Beam Interact Mater At, 267 (2009) 3574.


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  • Mapping the Variation in Indoor Radon, Thoron and their Progeny Concentration for Different Seasons

Abstract Views: 74  |  PDF Views: 80

Authors

Vimal Mehta
Department of Physics, Sri Guru Teg Bahadur Khalsa College, Sri Anandpur Sahib 140 118, India
Chandan Kapil
Department of Physics, Punjabi University, Patiala 147 002, India
Deep Shikha
Department of Physics, Sri Guru Teg Bahadur Khalsa College, Sri Anandpur Sahib 140 118, India
Sandeep Kanse
Scientific Officer RP & AD, Bhabha Atomic Research Centre, Mumbai 400 085, India

Abstract


An investigation on passive measurement of indoor radon and thoron concentration was carried out in 50 dwellings of the Patiala district of Punjab, India. A one-year study was conducted to cover all the seasons, and seasonal variation of these radioactive gases was reported. All the measurements were performed using pin-hole dosimeters for passive measurement of radon and thoron gases and their progeny for different seasons. To quantify attached and unattached progeny concentration, DRPS/DTPS and wire-mesh DRPS/DTPS were deployed with dosimeters. The average radon and thoron concentration in all the seasons was below the ICRP action level limit of 200-300 Bq/m3. Out of all season's data, the maximum value of radon and thoron was observed during the winter and the minimum for summer. The ratio of radon and thoron concentration for different seasons was also calculated in this report. Average annual indoor concentrations are compared with the average concentration of different seasons. It was concluded that the average concentration value is very near to monsoon season values, suggesting that the monsoon season is ideal for radon and thoron measurements.

Keywords


Radon, Thoron, Concentration, Seasonal, Progenies.

References