Using Radon Measurements Results At Two Small Depths In Local Radon Risk Assessments; Energy Fluxes and Radiation Effects (EFRE-2020 online)
| Parent link: | Energy Fluxes and Radiation Effects (EFRE-2020 online).— 2020.— [P. 1041-1044] |
|---|---|
| Hlavní autor: | |
| Korporativní autor: | |
| Další autoři: | , |
| Shrnutí: | Title screen An important condition for protecting public health is radiation safety associated with natural sources of radiation. These sources primarily include the radioactive gas radon. Radon is emitted from soils lying in the building base and therefore poses a serious threat to the health of the population living on the lower floors. In this regard, in the design and construction of buildings, radon risks are assessed at building sites. In Europe the volumetric activity of radon (VA) in soil air is measured at depths of 0.8-1 m. The measurement results at such depths are considered constant, depth-independent VA values established as a result of equilibrium between the processes of radon formation (radium decay) and its decrease (diffusion). However, the thickness of the loose soil layer, in which radon flows emerging to the surface are formed, reaches 2-3 m. In addition, measurements are carried out at points located at distances of several meters from each other. For relatively large areas of development, carrying out such measurements is time-consuming, and for loose soils, measurements give an underestimated result. The research demonstrates the measurement results of VA1 (0.4 m) and VA2 (0.8 m), carried out by means of RRA-03 measuring complex, in dense loams at a depth of 1.5 m at the building base. The obtained VA results were used to calculate the VA values. The research shows that the VA values of homogeneous soils are described by the normal distribution and are agreement with the results of measuring VA in loams at depths of 8 m and 12 m. Режим доступа: по договору с организацией-держателем ресурса |
| Jazyk: | angličtina |
| Vydáno: |
2020
|
| Témata: | |
| On-line přístup: | https://doi.org/10.1109/EFRE47760.2020.9242022 |
| Médium: | MixedMaterials Elektronický zdroj Kapitola |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=663084 |
Podobné jednotky
The problems of assessing radon hazard of development sites in the Russian Federation and the Czech Republic; Radiation Measurements; Vol. 150
Autor: Ryzhakova (Rizhakova) N. K. Nadezhda Kirillovna
Vydáno: (2022)
Autor: Ryzhakova (Rizhakova) N. K. Nadezhda Kirillovna
Vydáno: (2022)
Infuence of rock type and geophysical properties on radon fux density; Radiation and Environmental Biophysics; Vol. 63
Autor: Ryzhakova (Rizhakova) N. K. Nadezhda Kirillovna
Vydáno: (2024)
Autor: Ryzhakova (Rizhakova) N. K. Nadezhda Kirillovna
Vydáno: (2024)
The plant for obtaining an aqueous radon solution; Applied Radiation and Isotopes; Vol. 170
Autor: Plastun S. A. Sergey Andreevich
Vydáno: (2021)
Autor: Plastun S. A. Sergey Andreevich
Vydáno: (2021)
Dependences In Ground Atmosphere Radon, Thoron And Their Decay Products Dynamics; Journal of Industrial Pollution Control; Vol. 32, iss. 2
Vydáno: (2016)
Vydáno: (2016)
Methods for radiation and cological research of building lands and analysis; Energy Fluxes and Radiation Effects (EFRE-2016)
Vydáno: (2016)
Vydáno: (2016)
Radon-rich waters of the Tulinka aquifers, Novosibirsk, Russia; Groundwater for Sustainable Development; Vol. 20
Vydáno: (2023)
Vydáno: (2023)
X-Ray Tomography Simulation Based on Direct Radon Transform; Key Engineering Materials; Vol. 743 : High Technology: Research and Applications (HTRA 2016)
Autor: Ozdiev A. H. Ali Hosenovich
Vydáno: (2017)
Autor: Ozdiev A. H. Ali Hosenovich
Vydáno: (2017)
Гидрогеология и гидрогеохимия месторождения радоновых вод "Каменское" (г. Новосибирск); Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 332, № 4
Vydáno: (2021)
Vydáno: (2021)
Первые результаты комплексных изотопно-гидрогеохимических исследований Новобибеевского проявления радоновых вод; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 333, № 1
Vydáno: (2022)
Vydáno: (2022)
Уран в подземных водах Северного Казахстана; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 335, № 10
Vydáno: (2024)
Vydáno: (2024)
Geant4 Simulation of Precipitated Activity-to-?-Dose Rate Conversion Factors for Radon and Thoron Decay Products; Mathematics; Vol. 10, iss. 3
Vydáno: (2022)
Vydáno: (2022)
Criteria of radon risk of territories and methods for their determination; Applied Radiation and Isotopes; Vol. 91
Autor: Ryzhakova (Rizhakova) N. K. Nadezhda Kirillovna
Vydáno: (2014)
Autor: Ryzhakova (Rizhakova) N. K. Nadezhda Kirillovna
Vydáno: (2014)
Изотопно-геохимические особенности проявления слаборадоновых вод "Инские источники" (юг Западной Сибири); Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 332, № 3
Vydáno: (2021)
Vydáno: (2021)
Распределение радона-222 в почвах поймы и надпойменных террас рек Иртыша и Тобола; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 333, № 12
Vydáno: (2022)
Vydáno: (2022)
Model for Reconstruction of gamma-Background during Liquid Atmospheric Precipitation; Mathematics; Vol. 9, iss. 14
Vydáno: (2021)
Vydáno: (2021)
Impact of Environmental Radiation on the Incidence of Cancer and Birth Defects in Regions with High Natural Radioactivity; International Journal of Environmental Research and Public Health; Vol. 19, iss. 14
Vydáno: (2022)
Vydáno: (2022)
Parameters of modeling radon transfer through soil and methods of their determination; Journal of Applied Geophysics; Vol. 80
Autor: Ryzhakova (Rizhakova) N. K. Nadezhda Kirillovna
Vydáno: (2012)
Autor: Ryzhakova (Rizhakova) N. K. Nadezhda Kirillovna
Vydáno: (2012)
A new method for estimating the coefficients of diffusion and emanation of radon in the soil; Journal of Environmental Radioactivity; Vol. 135
Autor: Ryzhakova (Rizhakova) N. K. Nadezhda Kirillovna
Vydáno: (2014)
Autor: Ryzhakova (Rizhakova) N. K. Nadezhda Kirillovna
Vydáno: (2014)
Об открытии слаборадоновых вод - Седова Заимка; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 333, № 12
Vydáno: (2022)
Vydáno: (2022)
Радиоэкологическая опасность для населения в районах распространения высокорадиоактивных гранитов; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 330, № 3
Vydáno: (2019)
Vydáno: (2019)
Rainfall Intensity and Quantity Estimation Method Based on Gamma-Dose Rate Monitoring; Sensors; Vol. 21, iss. 19
Vydáno: (2021)
Vydáno: (2021)
Исследование и охрана радоновых источников в окрестностях г. Томска; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 327, № 7
Vydáno: (2016)
Vydáno: (2016)
Use of diffusion model of radon transfer through soil for radon risk assessment of building plots; 6th International Congress on Energy Fluxes and Radiation Effects; 18th International Conference on Radiation Physics and Chemistry of Condensed Matter (18th RPC)
Autor: Stavitskaya K. O. Ksenia Olegovna
Vydáno: (2018)
Autor: Stavitskaya K. O. Ksenia Olegovna
Vydáno: (2018)
Radon and its decay products dynamics inside the accumulative chamber; Бутаковские чтения
Autor: Yeboah E.
Vydáno: (2022)
Autor: Yeboah E.
Vydáno: (2022)
Comparative Analysis of the Measuring Results of the Radon Flux Density and Ra-226 Specific Activity for Different Soils Types; AIP Conference Proceedings; Vol. 2101 : Isotopes: Technologies, Materials and Application (ITMA-2018)
Vydáno: (2019)
Vydáno: (2019)
Radon isotopes as an indicators of dynamic atmospheric processes; Изотопы: технологии, материалы и применение
Autor: Yakovlev G. A.
Vydáno: (2018)
Autor: Yakovlev G. A.
Vydáno: (2018)
The plant for obtaining an aqueous radon solution; Перспективы развития фундаментальных наук; Т. 1 : Физика
Autor: Plastun S. A. Sergey Andreevich
Vydáno: (2019)
Autor: Plastun S. A. Sergey Andreevich
Vydáno: (2019)
Gesundheitliche Auswirkungen von Radon und Seinen Zerfallsprodukten auf den Menschen; Перспективы развития фундаментальных наук
Autor: Petrakowa N. N.
Vydáno: (2013)
Autor: Petrakowa N. N.
Vydáno: (2013)
Состояние и перспективы использования рекреационно-оздоровительной зоны «Ключи» (Томская область); Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 328, № 9
Vydáno: (2017)
Vydáno: (2017)
The difficulties of detector calibration used for monitoring soil radon-222; Изотопы: технологии, материалы и применение
Autor: Cherepnev M. S. Maksim Sviatoslavovich
Vydáno: (2018)
Autor: Cherepnev M. S. Maksim Sviatoslavovich
Vydáno: (2018)
Systematic study of the influence of atmospheric conditions on the radon flux from the surface of soils; 6th International Congress on Energy Fluxes and Radiation Effects; 18th International Conference on Radiation Physics and Chemistry of Condensed Matter (18th RPC)
Autor: Stavitskaya K. O. Ksenia Olegovna
Vydáno: (2018)
Autor: Stavitskaya K. O. Ksenia Olegovna
Vydáno: (2018)
Temporal and spatial dependences in behavior of atmospheric radon, thoron and their decay products; Физико-технические проблемы в науке, промышленности и медицине
Autor: Kondrateva (Kondratieva) A. G. Alla Georgievna
Vydáno: (2015)
Autor: Kondrateva (Kondratieva) A. G. Alla Georgievna
Vydáno: (2015)
Impact of radon and thoron levels on technosphere objects in the total urban environment; Научная инициатива иностранных студентов и аспирантов; Т. 2
Vydáno: (2021)
Vydáno: (2021)
Guide for calibration of alpha-, beta- and gamma-radiation detectors used for soil radon monitoring; Физико-технические проблемы в науке, промышленности и медицине
Autor: Cherepnev M. S. Maksim Sviatoslavovich
Vydáno: (2015)
Autor: Cherepnev M. S. Maksim Sviatoslavovich
Vydáno: (2015)
Investigation of Features in Radon Soil Dynamics and Search for Influencing Factors; AIP Conference Proceedings; Vol. 1938 : Isotopes: Technologies, Materials and Application (ITMA-2017)
Vydáno: (2018)
Vydáno: (2018)
Radon Emission from Coal Mines of Kuzbass Region; IOP Conference Series: Materials Science and Engineering; Vol. 127 : Urgent Problems of Modern Mechanical Engineering
Autor: Portola V. A. Vyacheslav Alekseevich
Vydáno: (2016)
Autor: Portola V. A. Vyacheslav Alekseevich
Vydáno: (2016)
The Influence of Meteorological Parameters and Other Factors on Soil Radon Dynamics; IOP Conference Series: Materials Science and Engineering; Vol. 142 : Innovative Technologies in Engineering
Vydáno: (2016)
Vydáno: (2016)
Dosimetric and radiobiological comparison of simultaneous integrated boost and sequential boost of locally advanced cervical cancer; Physica Medica; Vol. 73
Vydáno: (2020)
Vydáno: (2020)
Radon Flux Density Measurement on Rock Surfaces; Atomic Energy; Vol. 131, iss. 3
Vydáno: (2022)
Vydáno: (2022)
The influence of radon on atmospheric ionizing radiation fields; First East European Radon Symposium, Cluj-Napoca, September 2-5, 2012
Autor: Cherepnev M. S. Maksim Sviatoslavovich
Vydáno: (2012)
Autor: Cherepnev M. S. Maksim Sviatoslavovich
Vydáno: (2012)