MODELLING THE EXPOSURE OF RESIDENTS OF A RADIUM-CONTAMINATED LIVING PLACE.

Within the framework of the Swiss Radium Action Plan 2015-22, which aims to investigate and remediate sites contaminated by the radium used in the Swiss watch industry, a reference level of 1 mSv per y has been defined for the exposure of residents. An additional protection objective has been set for soil contamination, which should not exceed the value of 1000 Bq per kg 226Ra. Based on measurements on the study sites, the doses received by residents were calculated accordingly to the methodology, in both indoor and outdoor areas, taking into account external exposure and ingestion.

REMEDIATION OF RADIUM LEGACIES FROM THE SWISS WATCH INDUSTRY.

Discovery of radioactive radium contaminations in a former landfill site in Biel was made in 2014. Following this, it was decided to search for and remediate sites that had possibly been contaminated with radium as a result of its use in the watchmaking industry between 1920 and 1960. This work describe the general approach to identify survey and remediate affected sites.

Modeling of geogenic radon in Switzerland based on ordered logistic regression.

Purpose: The estimation of the radon hazard of a future construction site should ideally be based on the geogenic radon potential (GRP), since this estimate is free of anthropogenic influences and building characteristics. The goal of this study was to evaluate terrestrial gamma dose rate (TGD), geology, fault lines and topsoil permeability as predictors for the creation of a GRP map based on logistic regression.

Method: Soil gas radon measurements (SRC) are more suited for the estimation of GRP than indoor radon measurements (IRC) since the former do not depend on ventilation and heating habits or building characteristics.

Improved predictive mapping of indoor radon concentrations using ensemble regression trees based on automatic clustering of geological units.

Purpose: According to estimations around 230 people die as a result of radon exposure in Switzerland. This public health concern makes reliable indoor radon prediction and mapping methods necessary in order to improve risk communication to the public. The aim of this study was to develop an automated method to classify lithological units according to their radon characteristics and to develop mapping and predictive tools in order to improve local radon prediction.

Implementation of the new international standards in Swiss legislation on radon protection in dwellings.

The current revision of the Swiss Radiological Protection Ordinance aims to bring Swiss legislation in line with new international standards. In future, the control of radon exposure in dwellings will be based on a reference level of 300 Bq m(-3). Since this value is exceeded in >10 % of the buildings so far investigated nationwide, the new strategy requires the development of efficient measures to reduce radon-related health risks at an acceptable cost.

Predictive analysis and mapping of indoor radon concentrations in a complex environment using kernel estimation: an application to Switzerland.

Purpose: The aim of this study was to develop models based on kernel regression and probability estimation in order to predict and map IRC in Switzerland by taking into account all of the following: architectural factors, spatial relationships between the measurements, as well as geological information.

Methods: We looked at about 240,000 IRC measurements carried out in about 150,000 houses. As predictor variables we included: building type, foundation type, year of construction, detector type, geographical coordinates, altitude, temperature and lithology into the kernel estimation models.