T. Przylibski, P. Maciejewski, K. Zagożdżon, P. Zagożdżon
{"title":"Szybkość uwalniania się 222Rn z wód podziemnych do atmosfery","authors":"T. Przylibski, P. Maciejewski, K. Zagożdżon, P. Zagożdżon","doi":"10.7306/2022.27","DOIUrl":null,"url":null,"abstract":"222 Rn release rate from groundwater to the atmosphere. Prz. Geol., 70: 742–750; doi: 10.7306/2022.27 A b s t r a c t. The authors conducted studies on the re- lease rate of 222 Rn from groundwater flowing out of a spring, from metamorphic reservoir rocks. This source gives rise to a stream about 205 m long. The activity concentration of 222 Rn in the spring was about 700 Bq/dm 3 . We found that the rate of radon release into the atmosphere was best described by a third degree polynomial function. This means that the rate of radon release to the atmosphere decreases with distance from the spring. This process is accelerated by all zones of turbulent water flow in the stream – cascades, waterfalls, rapids, and similar zones. The decrease in the radon concentration to the values characteristic for surface waters in the investigated stream, which was a constant and minimum value, equal to about 1 Bq/dm 3 , took place at a distance of about 170–180 metres from the spring. With regard to the water flow path, flow time and the volume of water flowing through the cross-section of the tested stream, the exhalation coefficient of 222 Rn from water to atmospheric air is 3.80 Bq/dm 3 /m, 1.51 Bq/dm 3 /s and 1.25 Bq/dm 3 /dm 3 , respctively. According to the authors, further research conducted in other springs occurring in other types of rocks and under different flow conditions (at different times of the year) will allow characterizing the dynamics of the process of 222 Rn release from groundwater through surface waters into the atmosphere. Per-haps this process can be described with a universal mathematical function.","PeriodicalId":35787,"journal":{"name":"Przeglad Geologiczny","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2020-11-23","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Przeglad Geologiczny","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.7306/2022.27","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"Earth and Planetary Sciences","Score":null,"Total":0}
引用次数: 1
Abstract
222 Rn release rate from groundwater to the atmosphere. Prz. Geol., 70: 742–750; doi: 10.7306/2022.27 A b s t r a c t. The authors conducted studies on the re- lease rate of 222 Rn from groundwater flowing out of a spring, from metamorphic reservoir rocks. This source gives rise to a stream about 205 m long. The activity concentration of 222 Rn in the spring was about 700 Bq/dm 3 . We found that the rate of radon release into the atmosphere was best described by a third degree polynomial function. This means that the rate of radon release to the atmosphere decreases with distance from the spring. This process is accelerated by all zones of turbulent water flow in the stream – cascades, waterfalls, rapids, and similar zones. The decrease in the radon concentration to the values characteristic for surface waters in the investigated stream, which was a constant and minimum value, equal to about 1 Bq/dm 3 , took place at a distance of about 170–180 metres from the spring. With regard to the water flow path, flow time and the volume of water flowing through the cross-section of the tested stream, the exhalation coefficient of 222 Rn from water to atmospheric air is 3.80 Bq/dm 3 /m, 1.51 Bq/dm 3 /s and 1.25 Bq/dm 3 /dm 3 , respctively. According to the authors, further research conducted in other springs occurring in other types of rocks and under different flow conditions (at different times of the year) will allow characterizing the dynamics of the process of 222 Rn release from groundwater through surface waters into the atmosphere. Per-haps this process can be described with a universal mathematical function.
222 Rn从地下水向大气的释放速率。Prz。Geol。,70:742–750;doi:10.7306/222.27 A b s t r A c t。作者对从泉水流出的地下水和变质储层岩石中重新释放222 Rn的速率进行了研究。这个源头产生了一条长约205米的溪流。春季222 Rn的活性浓度约为700 Bq/dm3。我们发现,氡释放到大气中的速率最好用三次多项式函数来描述。这意味着氡释放到大气中的速率随着距离泉水的距离而降低。这一过程被溪流中的所有湍流区域加速——瀑布、瀑布、急流和类似区域。氡浓度在距离泉水约170-180米处下降到所调查溪流地表水的特征值,这是一个恒定的最小值,约等于1 Bq/dm3。关于水的流动路径、流动时间和流过测试流的横截面的水的体积,222 Rn从水到大气的呼气系数分别为3.80 Bq/dm3/m、1.51 Bq/dm2/s和1.25 Bq/dm3/dm3。根据作者的说法,在其他类型的岩石中以及在不同的流动条件下(一年中的不同时间)对其他泉水进行的进一步研究,将有助于表征地下水通过地表水向大气释放222 Rn的过程动力学。也许这个过程可以用一个通用的数学函数来描述。