Indoor radon levels and total gamma dose rates measurements in Portuguese thermal spas

Silva, A. S.; Dinis, Maria de Lurdes

doi:10.24840/2184-0954_001.001_0008

Cited by 4 publications

(4 citation statements)

References 20 publications

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“…In this thermal bath, no storage reservoirs for water are present, unlike in other modern spas. The 222 Rn concentrations are significantly higher when compared with those observed in modern spas elsewhere (see Table 1: Sohrabi, 1997;Radoli c et al, 2005;Song et al, 2005;Beitollahi et al, 2007;R odenas et al, 2008;Bituh et al, 2009;Onishchenko et al, 2010;Nikolov et al, 2012;Pugliese et al, 2013;Kasi c et al, 2015;M} ullerov a et al, 2016;Uzun and Demir€ oz, 2016;Karakaya et al, 2017;Silva and Dinis, 2017;Wang et al, 2017).…”

Section: Resultsmentioning

confidence: 90%

“…Since the water source is the same for the baths and thermal pools, the concentration of 226 Ra fell approximately within the same range. If these values are compared with the results shown in Table 1 in which the reported indoor radon and 226 Ra activity concentrations in water in various spas around the world are presented, it can be seen that the concentration of this radionuclide is elevated compared to typical levels in surface waters (Radoli c et al, 2005;Song et al, 2005;Beitollahi et al, 2007;R odenas et al, 2008;Bituh et al, 2009;Onishchenko et al, 2010;Nikolov et al, 2012;Pugliese et al, 2013;Kasi c et al, 2015;M} ullerov a et al, 2016;Uzun and Demir€ oz, 2016;Karakaya et al, 2017;Silva and Dinis, 2017;Wang et al, 2017) but similar to radium levels in other spas.…”

Section: Resultsmentioning

confidence: 91%

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High level of natural ionizing radiation at a thermal bath in Dehloran, Iran

Adelikhah

Shahrokhi

Chałupnik

et al. 2020

Heliyon

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It has been proven that more than half of the exposure to natural background radiation originates from radon isotopes and their decay products. The inhalation of radon and its decay products causes the irradiation of respiratory tracts, thus increasing the risk of lung cancer. In this study, the concentrations of radon and thoron in thermal baths at a spa in Dehloran (Iran) were investigated. The concentrations of dissolved 226 Ra in samples of water from thermal baths were also measured. Additionally, the activity concentrations of abundant naturally occurring radionuclides in farmland soils irrigated with water from hot springs was measured and compared with other soil samples irrigated with water from other sources to estimate possible radioecological effects of natural radiation staff, patients and tourists at the spa are exposed to. In addition, the search for a link between the concentration of naturally occurring radionuclides in soil and the use of water from hot springs for irrigation was one of the main goals of the study. The activity concentrations of three major naturally occurring radionuclides in soil samples were measured; the ranges for 40 K, 226 Ra and 228 Ra were 101 AE 8 to 240 AE 12, 276 AE 7 to 322 AE 12 and 20 AE 7 to 80 AE 10 Bq.kg À1 , respectively. Higher activity concentrations of 226 Ra and 228 Ra were recorded in soil samples irrigated with hot spring water. The water from the same spring was used in all thermal baths so concentrations of dissolved 226 Ra in water samples from different thermal baths were approximated to also be 0.42 AE 0.20 Bq.l À1 . The indoor radon concentrations in the private thermal baths over a period of 45 days (including both occupied and vacant time) were measured to be between 1880 AE 410 and 2450 AE 530 Bq.m À3 and the radon concentrations in the spa galleries were measured to be between 790 AE 135 and 1050 AE 120 Bq.m À3 , however, thoron concentrations were below the detection limit. The ventilation and centralized heating systems at the spa under investigation are inefficient so the radon concentrations in the therapy rooms and baths are high.The maximum radiation doses originating from the inhalation of radon for tourists and the staff were estimated to be 0.13 and 5.5 mSv.yr À1 , respectively, which is slightly over the national limit in Iran (5 mSv.yr À1 ). The exposure duration was estimated 15 and 1468 h per year for visitors and workers, respectively.

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Section: Resultsmentioning

confidence: 90%

Section: Resultsmentioning

confidence: 91%

High level of natural ionizing radiation at a thermal bath in Dehloran, Iran

Adelikhah

Shahrokhi

Chałupnik

et al. 2020

Heliyon

View full text Add to dashboard Cite

show abstract

“…They are produced by disintegration of 226 Ra and 224 Ra, respectively. Being inert gases, 222 Rn and 220 Rn are not affected by chemical processes and their concentrations in indoor atmospheres are strongly influenced by geological, geophysical, and atmospheric conditions (Anastasiou et al 2003;Kávási et al 2006;Lévesque et al 1997;Silva and Dinis 2017;Xie et al 2015;). As a result of the disintegration of 222 Rn and 220 Rn present in indoor atmospheres, solid isotopes of polonium ( 218 Po, 214 Po, 216 Po, and 212 Po), lead ( 214 Pb, 212 Pb), bismuth ( 214 Bi, 212 Bi), and thallium ( 208 Tl) are formed.…”

mentioning

confidence: 99%

“…222 Rn, 220 Rn, and their progeny are present in the air of dwellings and workplaces (Dehnert et al 2020;Sharma et al 2018;Singh et al 2015;ICRP 1993;Prasad et al 2016;Yu et al 1997;Ha et al 1999;UNSCEAR 1993;Misdaq et al 2015a). According to previous works, it has been shown that concentration levels of 222 Rn, 220 Rn and their progeny are significantly increased when pollutants are present in indoor air such as cigarette smoke (Misdaq and Flata 2003), thermal water vapor (Nikolopoulos et al, 2010;Silva and Dinis 2017;Misdaq et al 2012), marble dusts (Misdaq et al 2019), and petrol and gas-oil exhaust fumes (Misdaq et al 2015a). To assess radiation exposure for workers inside spa rooms, one should measure concentrations of 222 Rn,220 Rn, and their progeny in the air of these rooms.…”

mentioning

confidence: 99%