Indoor radon activity concentrations and effective dose rates at houses in the Afyonkarahisar province of Turkey

Abstract Due to the Fukushima Daiichi Nuclear Power Plant (FDNPP) accident, the evacuees from Namie Town still cannot reside in the town, and some continue to live in temporary housing units. In this study, the radon activity concentrations were measured at temporary housing facilities, apartments and detached houses in Fukushima Prefecture in order to estimate the annual internal exposure dose of residents. A passive radon–thoron monitor (using a CR-39) and a pulse-type ionization chamber were used to evaluate the radon activity concentration. The average radon activity concentrations at temporary housing units, including a medical clinic, apartments and detached houses, were 5, 7 and 9 Bq m −3 , respectively. Assuming the residents lived in these facilities for one year, the average annual effective doses due to indoor radon in each housing type were evaluated as 0.18, 0.22 and 0.29 mSv, respectively. The average effective doses to all residents in Fukushima Prefecture due to natural and artificial sources were estimated using the results of the indoor radon measurements and published data. The average effective dose due to natural sources for the evacuees from Namie Town was estimated to be 1.9 mSv. In comparison, for the first year after the FDNPP accident, the average effective dose for the evacuees due to artificial sources from the accident was 5.0 mSv. Although residents' internal and external exposures due to natural radionuclides cannot be avoided, it might be possible to lower external exposure due to the artificial radionuclides by changing some behaviors of residents.

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ASSESSMENT OF ANNUAL EFFECTIVE DOSE FROM EXPOSURE TO NATURAL RADIOACTIVITY SOURCES IN A CASE–CONTROL STUDY IN BIHOR COUNTY, ROMANIA

Radiation Protection Dosimetry ◽

10.1093/rpd/ncy211 ◽

2018 ◽

Vol 185 (1) ◽

pp. 7-16 ◽

Cited By ~ 2

Author(s):

T Dicu ◽

B D Burghele ◽

A Cucoș ◽

R Mishra ◽

B K Sapra

Keyword(s):

Effective Dose ◽

Annual Effective Dose ◽

Indoor Radon ◽

Control Sample ◽

Track Detector ◽

Radon Activity ◽

Thermoluminescent Dosimeters ◽

Activity Concentrations ◽

Two Samples ◽

Significant Difference

Abstract The purpose of the article is to evaluate the annual effective dose for 80 women divided into two samples; one sample located in the former uranium Băiţa-Ştei area, hereinafter referred to as case sample, respectively for a control sample, located in the same county, but exposed in most cases to indoor radon activity concentrations <300 Bq m−3. In this regard, the homemade ‘RaThoGamma’ kit was used, which contained two thermoluminescent dosimeters, a CR-39 track detector (RSKS) for indoor radon activity concentration, two CR-39 track detectors (Radtrak2®/ Radtrak2T®) for radon and thoron activity concentrations as well as Direct Radon Progeny Sensors/Direct Thoron Progeny Sensors for measuring time-averaged radon and thoron progenies concentrations. In addition, a total of 80 water samples were collected in order to evaluate the ingestion dose due to radon and radium activity concentrations in drinking water. The maximum total annual effective dose in the control sample was 14.1 mSv, while in the case sample the maximum annual effective dose was 60.5 mSv. This difference is mainly due to radon progenies inhalation. Other pathways did not show a statistically significant difference between the two samples, showing a minor contribution to the annual effective dose.

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Indoor radon activity concentration and effective dose rates at schools and thermal spas of Ilgin

Nuclear Technology and Radiation Protection ◽

10.2298/ntrp2004339e ◽

2020 ◽

Vol 35 (4) ◽

pp. 339-346

Author(s):

Mehmet Erdogan ◽

Murat Abaka ◽

Kaan Manisa ◽

Hasan Bircan ◽

Coskun Kus ◽

...

Keyword(s):

Radon Concentration ◽

Primary Schools ◽

Indoor Radon ◽

Reference Level ◽

Distribution Analysis ◽

Indoor Radon Concentration ◽

Radon Activity ◽

Dose Rates ◽

Basement Floor ◽

Effective Doses

Indoor radon activity concentrations and radon doses on the ground floor and basement floor of 19 schools (kindergardens, primary schools, secondary schools, and high schools) and thermal spas of Ilgin district in Konya, have been measured using the AlphaGUARD PQ 2000PRO radon detector, for three days in the first half of 2016. According to the results, while the indoor radon concentration for only one location, in total, is above the Turkish action level of 400 Bqm?3, the values for 10 locations are above the reference level of 100 Bqm?3, recommended by WHO. The calculated annual effective doses for inhalation of the radon in indoor air were also found to be 0.26 ?Sv for the minimum and 4.36 ?Sv for the maximum. The parametric distribution analysis is also performed with 3-parameter Weibull distribution and some remarks are provided on radon concentration activity.

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Determination of radon levels in dwellings and social objects and evaluation annual effective dose from inhalation of radon in Stepnogorsk area Northern Kazakhstan

Eurasian journal of physics and functional materials ◽

10.29317/ejpfm.2020040408 ◽

2020 ◽

Vol 4 (4) ◽

pp. 343-349

Author(s):

D.S. Ibrayeva ◽

M.N. Aumalikova ◽

K.B. Ilbekova ◽

M.M. Bakhtin ◽

P.K. Kazymbet

Keyword(s):

Effective Dose ◽

Annual Effective Dose ◽

Noble Gas ◽

Indoor Radon ◽

Radioactive Decay ◽

Annual Dose ◽

Natural Radiation ◽

Mining Sites ◽

Decay Products ◽

Activity Concentrations

Radon is a noble gas that is one of the natural radioactive decay products of radium resulting from the disintegration of uranium. Humans are exposed to sources of natural radiation activity, being radon and its progeny breathing air responsible for more than 50% of the annual dose received from natural radiation. The aim of this study was to determine the radon concentration in the air in settlements’ dwellings and social objects and calculate the annual effective dose of population from radon on the territory mining activities in Stepnogorsk area. The study has shown that activity concentrations of indoor radon in the buildings ranged from 8 to 870 Bq · m−3 in Aqsu, 3-540 Bq · m−3 in Kvartsitka located close to former gold mining sites. The Einh corresponding to the activity concentrations ranged from 1-27 mSv · y−1 received by the settlements’ public. The highest value of Einh in Aqsu School reaches up to 68 mSv · y−1 received by the critical group of public was found at the territory of former mining the Stepnogorsk area. The results of this study show significant radiation hazards in Aqsu School which located at the territory of former mining site, and there is evidence of radon health risk to the members of the public.

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Radon concentrations in multi-story buildings in Montenegro

Nuclear Technology and Radiation Protection ◽

10.2298/ntrp181108020v ◽

2019 ◽

Vol 34 (2) ◽

pp. 165-174

Author(s):

Perko Vukotic ◽

Ranko Zekic ◽

Nevenka Antovic ◽

Tomislav Andjelic

Keyword(s):

Radon Concentration ◽

Building Materials ◽

Indoor Radon ◽

Small Contribution ◽

Indoor Radon Concentration ◽

Climate Conditions ◽

Floor Level ◽

Radon Activity ◽

Activity Concentrations ◽

Radon Concentrations

Change of radon concentrations in dwellings with floor level was studied in six multi-story buildings, in four towns of Montenegro with different climate conditions. The annual aver- age radon activity concentrations in 35 dwellings are found to be very low, mostly at a level of 20-30 Bqm?3. Absorbed gamma dose rates in these dwellings are in the range of 14-58 nGyh?1. The low radon concentrations are a consequence of a good tightness of the structures in contact with the ground and a small contribution of building materials to radon indoors. A clear general trend of changes in radon concentrations with floor level is not observed. In most of the dwellings on different floors in the multi-story building radon concentration varies very little, mostly within measurement error. A small decrease in radon concentration is noted between the two or three floors closest to the ground, but only in some of the buildings. Therefore, a decrease of indoor radon concentration with floor level cannot be considered as a general characteristic of multi-story buildings. Although the seasonal radon variations have not been in the focus of this study, it was found that the average radon activity concentrations in dwellings of the multi-story buildings are higher in warmer than in cooler half-year period, what is contrary to the general rule for homes in the world and in Montenegro as well.

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Measurements of radon, thoron and their progeny concentrations using twin cup dosimeter for indoor Al-Madaan city – Baghdad – Iraq

Iraqi Journal of Physics (IJP) ◽

10.30723/ijp.v14i30.192 ◽

2019 ◽

Vol 14 (30) ◽

pp. 24-32 ◽

Cited By ~ 2

Author(s):

Shafik S. Shafik

Keyword(s):

Lung Cancer ◽

Effective Dose ◽

Radon Concentration ◽

Annual Effective Dose ◽

Indoor Radon ◽

Health Hazard ◽

Health Hazards ◽

Radon Progeny ◽

Average Value ◽

Activity Concentrations

In this study, the activity concentrations of indoor radon, thoronand their progeny have been measured in air for 61 differentlocations of Al-Maddan city using twin cup dosimeter. Furthermore,some useful parameters concerning the health hazards have beenestimated; working level month (WLM), annual effective dose (Eff),and excess lung cancer per million person per year (ELC).The resultsshow that the values of radon gas levels in the investigated districtsvaried from 56.28 to 194.43Bq/m3with an overall average value132.96Bq/m3, while 0.313 to 1.085 for WLM with an overall average0.740, respectively. The value of Eff and ELC have been found tovary from 1.420 to 4.918 mSv/y with an overall average value3.354mSv/y, and 852 to 2951 with an overall average value 2013,respectively. For thoron gas only, the results showed that the thoronactivity concentration varied from 15.05 to 172.40 Bq/m3 with anoverall average 76.48 Bq/m3, and 0.021to 0.240for WLM with anoverall average 0.106, respectively. The values of Eff and ELC havebeen found to vary from 0.256 to 2.94 mSv/y with an overallaverage1.30 mSv/y and from 57 to 652 with an overall average of298, respectively. The concentration of radon progeny varied from59.44 to 301.39 Bq/m3 with an overall average 157.62 Bq/m3. Theresults illustrated that there is a large variation in the values of themeasured concentrations. This is due to the wide variation in theconstruction of the houses in Al-Madaan city. However, allinvestigated locations have radon concentration below the actionlevel (200-300Bq/m3) that recommended byICRP. Therefore, there isno health hazard of radon in the region of Al-Madaan city wheremeasurements have been performed.

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EFFECTIVE DOSES DUE TO OUTDOOR AND INDOOR RADON AT A MEDITERRANEAN SITE

Radiation Protection Dosimetry ◽

10.1093/rpd/ncz155 ◽

2019 ◽

Vol 187 (2) ◽

pp. 215-219

Author(s):

Dafina Kikaj ◽

Janja Vaupotič

Keyword(s):

Effective Dose ◽

Activity Concentration ◽

Continuous Measurement ◽

Annual Effective Dose ◽

Indoor Radon ◽

Outdoor Air ◽

Night Time ◽

Radon Activity ◽

Effective Doses

Abstract A year-long continuous measurement of the radon activity concentration in the outdoor air at a Mediterranean site has shown a range of 2–144 Bq m−3 and annual mean of 18 ± 14 Bq m−3. Seasonal means were: 15 ± 10 Bq m−3 in winter, 15 ± 12 Bq m−3 in spring, 22 ± 19 Bq m−3 in summer and 17 ± 12 Bq m−3 in autumn. In summer, the average radon activity concentration in the daytime (6–22 h) was 15.2 Bq m−3 and in the night-time (22–6 h) 33.4 Bq m−3. The annual effective dose was 1.83 mSv, with 1.66 mSv from indoor and 0.17 mSv (9%) from outdoor radon. The related doses for the summertime were (mSv): 0.29, 0.24 and 0.05 (18%).

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Radon, gamma-ray exposure and natural radionuclides

Proceedings in Radiochemistry ◽

10.1524/rcpr.2011.0049 ◽

2011 ◽

Vol 1 (1) ◽

pp. 285-287

Author(s):

P. Wanabongse ◽

W. Thorarit ◽

N. Yimchalam ◽

S. Bovornkitti

Keyword(s):

Gamma Ray ◽

Indoor Radon ◽

Natural Radionuclides ◽

Radon Exposure ◽

Dose Rates ◽

Naturally Occurring ◽

Gamma Dose Rates ◽

Activity Concentrations ◽

Naturally Occurring Radionuclides ◽

Exposure Levels

Abstract Measurements were conducted to determine residential radon exposure levels in provinces with high lung cancer incidence in three different regions of Thailand. The measurements revealed that the average indoor radon levels were 20.0, 24.4, and 13.1 Bq m−3, and that the average gamma dose rates were 145, 164, and 54 nSv h−1 in Chiangmai, Songkhla and Khonkaen provinces, respectively. The spectroscopic analysis of soil samples collected from the three provinces showed that the highest contents of Ra-226, Th-232, and K-40 were present in Songkhla, with values of 93.7, 71.9, and 786.9 Bq kg−1, respectively, and the lowest contents were present in Khonkaen, with values of 15.6, 19.0, and 46.8 Bq kg−1, respectively. The results of our analysis of the activity concentrations of naturally occurring radionuclides helped explain the lower levels of radon gas and gamma-ray exposure in Khonkaen.

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Alpha Spectrometry of Radon Short-Lived Progeny in Drinking Water and Assessment of the Public Effective Dose: Results from the Cilento Area, Province of Salerno, Southern Italy

Materials ◽

10.3390/ma13245840 ◽

2020 ◽

Vol 13 (24) ◽

pp. 5840

Author(s):

Enver Faella ◽

Simona Mancini ◽

Michele Guida ◽

Albina Cuomo ◽

Domenico Guida

Keyword(s):

Drinking Water ◽

Effective Dose ◽

Health Hazard ◽

Age Groups ◽

Internal Exposure ◽

Threshold Values ◽

Campania Region ◽

Radon Activity ◽

National Regulation ◽

South Italy

Radon is a naturally occurring radioactive gas present in the hydrosphere, lithosphere and atmosphere abundantly. Its ionizing radiation provides the largest human internal exposure by inhalation and ingestion to natural sources, constituting a serious health hazard. The contribution to total exposure is mainly due to inhalation, as ingestion by food or drinking water is typically very small. However, because of public health concerns, the contributions from all these sources are limited by regulations and remedial action should be taken in the event that the defined threshold values are overcome. In this paper, the first campaign of measurements to control the radon activity concentration in drinking water from public water supplies in the province of Salerno, south Italy, is described. The results represent a main reference for the area, as it was never investigated before. The purpose of this survey was to contribute to data compilation concerning the presence of radon-222 in groundwater in the Campania region and to determine the associated risk for different age groups. The maximum radon activity concentrations and the related total annual public effective dose turned out to be lower than the threshold values (100 Bq/l and 0.1 mSv/y, respectively) indicated by international guidelines and the national regulation, showing that the health risks for public consumption can be considered negligible.

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MEASUREMENT OF THE ACTIVITY CONCENTRATIONS OF GAMMA EMITTING RADIONUCLIDES IN TOOTHPASTE SAMPLES AND ASSESSMENT OF THE CORRESPONDING ANNUAL EFFECTIVE DOSES

Radiation Protection Dosimetry ◽

10.1093/rpd/ncab038 ◽

2021 ◽

Author(s):

Anas M Ababneh ◽

Qutad M Samarah

Keyword(s):

Effective Dose ◽

Oral Hygiene ◽

Annual Effective Dose ◽

Daily Basis ◽

Dose Assessment ◽

Accidental Ingestion ◽

Activity Concentrations ◽

Effective Doses

Abstract It is inevitable that we are exposed to radiation daily from various sources and products that we consume on daily basis. The use of toothpaste for oral hygiene is one of the most common daily practices by humans and yet very little data are available regarding its radiation content. In this work, we investigated the concentrations of gamma emitting radionuclides in toothpaste samples consumed in Jordan. 40K and 226Ra were detected in almost one-third of the samples, whereas 228Ra was detected in nearly half of them. The corresponding activity concentrations in the detected samples were in the ranges of 68.7–154.2, 4.6–14.1 and 1.3–10.0 Bq/kg, respectively. Dose assessment of accidental ingestion of toothpaste for children and adults was made, and its contribution to the annual effective dose was found to be very minimal with maximum doses of ~2.9 and 1.3 μSv for children and adults, respectively.

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