In many countries around the world (including the United States, Canada, and Spain), research is being conducted into the impact of air pollution on the formation of various types of cancer. For a long time it was thought that the inhalation of pollutants could lead to lung diseases. Now the effects of air pollutants on tumors in the airways, kidneys, bladder, breast, and colon have been investigated and are better understood. It is now known that particulates in air pollution can cross the blood–brain barrier and also reach the placenta. The aim of this study was to find a possible relationship between the emission of pollutants into the atmosphere and the formation of specific types of tumors in the Polish population. Two databases available on the Internet were used in the analysis: the bank of measurement data on air quality in Poland (the repository of Environmental Protection Inspection) and cancer statistics. The pollution measurement data for the years 2000–2016 were taken from the Chief Inspectorate for Environmental Protection website, a database with results from 264 stations located in Poland for 13 types of gases and atmospheric pollutants. Statistical data on cancer C00–D09 (according to the International Statistical Classification of Diseases and Related Health Problems, 10th Revision (ICD-10)) in the Polish population in the years 1999–2015 were retrieved from onkologia.org.pl. A novel code was constructed, allowing the downloading of statistics from the databases, examination of their correlation, and selection of the best model of regression through machine learning. The results of the analyses indicate a high correlation of air pollution with the incidence of selected types of cancer. Particularly noteworthy is the observed effect of NOx on the incidence of small and large intestine cancers in the Masovia and West Pomerania provinces. The other gases and pollutants with the most significant impact on the incidence of gastrointestinal cancer have also been identified. Based on statistical analysis, we found a correlation between air pollution and tumor incidence in individual provinces, as well as an influence of the emission of nitrogen oxides on the cancer incidence rate.
Satellite monitoring systems can be used for remote monitoring of the atmosphere over a given area but they do not provide information on the state of pollution at a given time. Additional information could only be obtained after several days. Measurements from an aircraft may be obtained almost at real-time and in different geometries – vertical and horizontal. The future of this type of monitoring is remote-controlled unmanned aerial vehicles (airplanes, helicopters and balloons tethered), equipped with telemetric monitoring.
On 2 October 2003 in Saint-Romain-en-Jarez (France) a fire in a farm building triggered an explosion in which 26 people were injured. Police investigation, based solely on an analysis of the effects and on general engineering knowledge, showed that the explosion was caused by an uncontrollably generated mixture of ammonium nitrate (AN) and molten plastic crates which formed an explosive mixture similar to ammonium nitrate fuel oil (ANFO). This is the only commonly known example of an ammonium nitrate blast taking place at its end user destination. Is such an explanation of the incident plausible and could a similar blast possibly happen anywhere else? The experimental results support this thesis of French investigators but raise further doubts. Laboratory reconstruction of the self-acting process of generating the explosive material confirmed the investigators’ report. However, other materials at the incident site could have influenced the final outcome too. The lab-recreated explosion of a mixture of AN and molten plastic partially confirmed the report’s thesis.
This article is a continuation of a case study in which we presented the results of research on processes generated under fire conditions by mixing molten ammonium nitrate (AN) with selected polymers. Here, we present an analysis of how certain materials, which may frequently appear in farm buildings and are commonly used in the immediate vicinity of humans, can potentially form explosives. The chosen materials include polyamides (PA) from which the wear-resistant machine elements are made (e.g., high-performance gears, wheels of transport trolleys); polyvinyl chloride (PVC) used, i.e., in construction carpentry, electrical insulation, and hydraulic pipes; polystyrene (PS) used, i.e., in insulation and containers; and poly(methyl methacrylate) (PMMA), i.e., so-called organic glass and plexiglass. The research results showed that these seemingly harmless and safe materials, mixed with AN and heated under fire conditions, may turn into explosives and stimulate stored AN. This creates significant risks of an uncontrolled fire progress.
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