| Peer-Reviewed

Comparative Analysis of Radon Accumulation in Public Buildings of Different Class on the Example of Several Sogd Region Cities of Tajikistan

Received: 7 June 2021     Accepted: 26 June 2021     Published: 13 July 2021
Views:       Downloads:
Abstract

The article presents data and a comparative analysis of the accumulation of radon in public buildings (preschool, school and medical institutions) located near radioactive tailings, deployed in certain regions of Northern Tajikistan (Istiklol, Buston). Most of the preschool and school educational institutions buildings in Istiklol are two-storey and according to the type of building materials – brick, concrete and stone. It has been revealed that the average value of radon volumetric activity in indoor air in public buildings located in Istiklol city (formerly Taboshar) reaches up to 175 Bq/m3 and in Buston city (formerly Chkalovsk) to 26 Bq/m3. The values of radon equivalent equilibrium volumetric activity in indoor air at investigated objects are in the range of 10-330 Bq/m3 in Istiklol and 8-19 Bq/m3 in Buston cities. The range of the annual effective dose is from 0.3 mSv to 7.1 mSv. Toron has been measured in selected public buildings (schools, kindergartens and hospitals) in Istiklol city and its levels have been established between 20 and 160 Bq/m³. Indoor gamma dose values measured in schools and kindergartens fixed in the range of 0.1–1.3 mGy/h and the lowest reading determined less than 0.2 mGy/h. It has been discovered that building materials are the main source for radon intake. But the geology of the region also plays an important role. The data obtained from radon monitoring will be used in preventive measures to protect children from the effects of a radioactive factor. It is noted that the issue of protecting future generation from the harmful effects of ionizing radiation requires a comprehensive study and assessment. For preventive purposes, it is necessary to recommend mandatory periodic ventilation of preschool and school institutions.

Published in Journal of Health and Environmental Research (Volume 7, Issue 3)
DOI 10.11648/j.jher.20210703.11
Page(s) 122-125
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2021. Published by Science Publishing Group

Keywords

Radonometer, Radon, Monitoring, Detectors, Dose, Activity, Irradiation, School, Kindergarten

References
[1] Kendivan, O. D. -S., Kuular, A. T. (2014). Radon volumetric activity in the air of preschool buildings in Kyzyl. News of Omsk University, 2, 76-78 (in Russian).
[2] Lespukh, E., Stegnar, P., Yunusov, M., Tilloboev, H., Zyazev, G., Kayukov, P., Hosseini, A., Strømman, G., Salbu B. (2013). Assessment radiological impact of gamma and radon dose rates at former U mining sites in Tajikistan. Journal of Environmental Radioactivity, 126, 147-155.
[3] Mirsaidov, U. M., Nazarov, Kh. M., Shosafarova, Sh. G., Makhmudova, M. M. (2020). Radon monitoring in the territory of Northern Tajikistan. Radiation hygiene, 13 (1), 68-73 (in Russian).
[4] Boboev, B. D., Khakimov, N., Ermatov, K. A., Nazarov, Kh. M. (2013). Radon concentration in the air of some residential and work premises Chkalovsk and Kairakkum cities. Reports of the Academy of Sciences of the Republic of Tajikistan, 56 (8), 639-642 (in Russian).
[5] Ermatov, K. A., Boboev, B. D., Nazarov, Kh. M., Salomov J. A. (2015). Recommendations for reducing radon concentration in water from springs and wells in the Jabbor Rasulov region. News of the Academy of Sciences of the Republic of Tajikistan, 2 (159), 83-86 (in Russian).
[6] Ermatov, K. A., Nazarov, Kh. M., Muminov, S. V., Bakhronov, S. M., Mirsaidov, I. U. (2017). Radon hazard assessment in territory B. Gafurov district of the Republic of Tajikistan. Reports of the Academy of Sciences of the Republic of Tajikistan, 60 (9), 452-455 (in Russian).
[7] Mirsaidov, I. U., Nazarov, Kh. M., Boboev, B. D., Ermatov, K. A., Adkhamov, A., Akhmedov, M. Z., Bakhronov, S. M. (2017). Radon monitoring in the territory of J. Rasulov district of the Republic of Tajikistan. News of the Academy of Sciences of the Republic of Tajikistan, 1 (166), 88-93 (in Russian).
[8] Ermatov, K. A., Salomov, J. A., Khakimov, N., Nazarov, Kh. M., Rakhmatov, N. N. (2015). Environmental aspects of the uranium tailings rehabilitation in Istiklol city in the Republic of Tajikistan. News of the Academy of Sciences of the Republic of Tajikistan, 2 (159), 87-92 (in Russian).
[9] Nazarov, Kh. M., Boboev, B. D., Ermatov, K. A. (2017). Assessment of the radon hazard on the territory of the Digmay tailing dump. XXI century Technosphere safety, 2 (3), 44-48 (in Russian).
[10] Ermatov, K. A., Nazarov, Kh. M., Salomov, J., Bahronov, S. M., Mirsaidov, U. (2018). Former uranium facilities potential radiation hazardassessment for population in Istiklol city, Republic of Tajikistan. Radiation hygiene, 11 (2), 83-90 (in Russian).
[11] Nazarov, Kh. M., Ermatov, K. A., Bakhronov, S. M., Mukhamedova, S. G., Mirsaidov, U. M. (2019). Digmai tailing dump (Tajikistan) potential radiation hazard assessment for population living around it. Radiation hygiene, 12 (1), 115-121 (in Russian).
[12] Nazarov, Kh. M., Boboev, B. D., Ermatov, K. A., Bahronov, S. M., Muminov, S. V. (2018). Radon content in the air of the Spitamen region of the Republic of Tajikistan. Reports of the Academy of Sciences of the Republic of Tajikistan, 61 (3), 293-295 (in Russian).
[13] Nazarov, Kh. M., Boboev, B. D., Ermatov, K. A., Murtazaev, H. (2019). The current radiation situation in the JabborRasulov region. Scientific notes of KSU. Series of natural and economic sciences, 1 (48), 68-73 (in Russian).
[14] RRA-01M-03 radon radiometer: Operation manual (2006). 35 (in Russian).
[15] Sources and effects of ionizing radiation. UNSCEAR 2000 report to the General Assembly with scientific annexes. Volume 1: Sources (part 1) (2002). Translation from English, ed. acad. RAMS L. A. Ilyin and prof. S. P. Yarmonenko. M. RADEKON, 308 (in Russian).
[16] Ionizing Radiation Effects (2009). UNSCEAR 2006 Report to the General Assembly with Scientific Annexes. Volume II: Scientific Annexes C, D and E. Annex E: Sources-to-effects assessment for radon in homes and workplaces. New York, United Nations, 142.
[17] Radiation safety standards (NRB-06 SP 2.6.1. 001-06), (2006). Dushanbe, Ministry of Justice of the Republic of Tajikistan, 172 (in Russian).
Cite This Article
  • APA Style

    Ulmas Mirsaidov, Kholmurod Maripovich Nazarov, Manizha Mahkamovna Makhmudova, Zhakhon Abdurakhmonovich Misratov, Komiljon Abdulmalikovich Ermatov, et al. (2021). Comparative Analysis of Radon Accumulation in Public Buildings of Different Class on the Example of Several Sogd Region Cities of Tajikistan. Journal of Health and Environmental Research, 7(3), 122-125. https://doi.org/10.11648/j.jher.20210703.11

    Copy | Download

    ACS Style

    Ulmas Mirsaidov; Kholmurod Maripovich Nazarov; Manizha Mahkamovna Makhmudova; Zhakhon Abdurakhmonovich Misratov; Komiljon Abdulmalikovich Ermatov, et al. Comparative Analysis of Radon Accumulation in Public Buildings of Different Class on the Example of Several Sogd Region Cities of Tajikistan. J. Health Environ. Res. 2021, 7(3), 122-125. doi: 10.11648/j.jher.20210703.11

    Copy | Download

    AMA Style

    Ulmas Mirsaidov, Kholmurod Maripovich Nazarov, Manizha Mahkamovna Makhmudova, Zhakhon Abdurakhmonovich Misratov, Komiljon Abdulmalikovich Ermatov, et al. Comparative Analysis of Radon Accumulation in Public Buildings of Different Class on the Example of Several Sogd Region Cities of Tajikistan. J Health Environ Res. 2021;7(3):122-125. doi: 10.11648/j.jher.20210703.11

    Copy | Download

  • @article{10.11648/j.jher.20210703.11,
      author = {Ulmas Mirsaidov and Kholmurod Maripovich Nazarov and Manizha Mahkamovna Makhmudova and Zhakhon Abdurakhmonovich Misratov and Komiljon Abdulmalikovich Ermatov and Matin Zafarjonovich Akhmedov},
      title = {Comparative Analysis of Radon Accumulation in Public Buildings of Different Class on the Example of Several Sogd Region Cities of Tajikistan},
      journal = {Journal of Health and Environmental Research},
      volume = {7},
      number = {3},
      pages = {122-125},
      doi = {10.11648/j.jher.20210703.11},
      url = {https://doi.org/10.11648/j.jher.20210703.11},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.jher.20210703.11},
      abstract = {The article presents data and a comparative analysis of the accumulation of radon in public buildings (preschool, school and medical institutions) located near radioactive tailings, deployed in certain regions of Northern Tajikistan (Istiklol, Buston). Most of the preschool and school educational institutions buildings in Istiklol are two-storey and according to the type of building materials – brick, concrete and stone. It has been revealed that the average value of radon volumetric activity in indoor air in public buildings located in Istiklol city (formerly Taboshar) reaches up to 175 Bq/m3 and in Buston city (formerly Chkalovsk) to 26 Bq/m3. The values of radon equivalent equilibrium volumetric activity in indoor air at investigated objects are in the range of 10-330 Bq/m3 in Istiklol and 8-19 Bq/m3 in Buston cities. The range of the annual effective dose is from 0.3 mSv to 7.1 mSv. Toron has been measured in selected public buildings (schools, kindergartens and hospitals) in Istiklol city and its levels have been established between 20 and 160 Bq/m³. Indoor gamma dose values measured in schools and kindergartens fixed in the range of 0.1–1.3 mGy/h and the lowest reading determined less than 0.2 mGy/h. It has been discovered that building materials are the main source for radon intake. But the geology of the region also plays an important role. The data obtained from radon monitoring will be used in preventive measures to protect children from the effects of a radioactive factor. It is noted that the issue of protecting future generation from the harmful effects of ionizing radiation requires a comprehensive study and assessment. For preventive purposes, it is necessary to recommend mandatory periodic ventilation of preschool and school institutions.},
     year = {2021}
    }
    

    Copy | Download

  • TY  - JOUR
    T1  - Comparative Analysis of Radon Accumulation in Public Buildings of Different Class on the Example of Several Sogd Region Cities of Tajikistan
    AU  - Ulmas Mirsaidov
    AU  - Kholmurod Maripovich Nazarov
    AU  - Manizha Mahkamovna Makhmudova
    AU  - Zhakhon Abdurakhmonovich Misratov
    AU  - Komiljon Abdulmalikovich Ermatov
    AU  - Matin Zafarjonovich Akhmedov
    Y1  - 2021/07/13
    PY  - 2021
    N1  - https://doi.org/10.11648/j.jher.20210703.11
    DO  - 10.11648/j.jher.20210703.11
    T2  - Journal of Health and Environmental Research
    JF  - Journal of Health and Environmental Research
    JO  - Journal of Health and Environmental Research
    SP  - 122
    EP  - 125
    PB  - Science Publishing Group
    SN  - 2472-3592
    UR  - https://doi.org/10.11648/j.jher.20210703.11
    AB  - The article presents data and a comparative analysis of the accumulation of radon in public buildings (preschool, school and medical institutions) located near radioactive tailings, deployed in certain regions of Northern Tajikistan (Istiklol, Buston). Most of the preschool and school educational institutions buildings in Istiklol are two-storey and according to the type of building materials – brick, concrete and stone. It has been revealed that the average value of radon volumetric activity in indoor air in public buildings located in Istiklol city (formerly Taboshar) reaches up to 175 Bq/m3 and in Buston city (formerly Chkalovsk) to 26 Bq/m3. The values of radon equivalent equilibrium volumetric activity in indoor air at investigated objects are in the range of 10-330 Bq/m3 in Istiklol and 8-19 Bq/m3 in Buston cities. The range of the annual effective dose is from 0.3 mSv to 7.1 mSv. Toron has been measured in selected public buildings (schools, kindergartens and hospitals) in Istiklol city and its levels have been established between 20 and 160 Bq/m³. Indoor gamma dose values measured in schools and kindergartens fixed in the range of 0.1–1.3 mGy/h and the lowest reading determined less than 0.2 mGy/h. It has been discovered that building materials are the main source for radon intake. But the geology of the region also plays an important role. The data obtained from radon monitoring will be used in preventive measures to protect children from the effects of a radioactive factor. It is noted that the issue of protecting future generation from the harmful effects of ionizing radiation requires a comprehensive study and assessment. For preventive purposes, it is necessary to recommend mandatory periodic ventilation of preschool and school institutions.
    VL  - 7
    IS  - 3
    ER  - 

    Copy | Download

Author Information
  • Nuclear and Radiation Safety Agency, National Academy of Sciences of Tajikistan, Dushanbe, Republic of Tajikistan

  • Nuclear and Radiation Safety Agency, National Academy of Sciences of Tajikistan, Dushanbe, Republic of Tajikistan

  • Department of Paediatrics, Avicenna Tajik State Medical University, Dushanbe, Republic of Tajikistan

  • Nuclear and Radiation Safety Agency, National Academy of Sciences of Tajikistan, Dushanbe, Republic of Tajikistan

  • Nuclear and Radiation Safety Agency, National Academy of Sciences of Tajikistan, Dushanbe, Republic of Tajikistan

  • Nuclear and Radiation Safety Agency, National Academy of Sciences of Tajikistan, Dushanbe, Republic of Tajikistan

  • Sections