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Analysis of Organic Markers for Identification of Sources of Atmospheric Aerosols
Křůmal, Kamil ; Chýlková, Jaromíra (referee) ; Vávrová, Milada (referee) ; Smolík,, Jiří (referee) ; Večeřa, Zbyněk (advisor)
In this work the organic markers that serve for identification of sources of aerosols are monitored. Theoretic part deals with detailed survey of organic markers emitted from the most significant sources of atmospheric aerosols (biomass combustion, combustion of fossil fuels and traffic) as well as with sampling of aerosols and analysis of organic markers by analytical techniques. Monosaccharide anhydrides (emissions from biomass combustion) and polyaromatic hydrocarbons (emissions from traffic and incomplete combustion) were observed especially. Hopanes and steranes (traffic, coal combustion) and fatty acids (cooking) were next groups of monitored organic markers. Markers were studied mainly in size fraction PM1 because this fraction of aerosols is the most harmful to human health. Aerosols were sampled in two seasons (winter and summer) in two towns in 2009. Higher concentrations of aerosols and organic compounds were found in winter season, which resulted from increased combustion of biomass, coal and other organic material while traffic was the most significant source of aerosols in summer.
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STUDY OF BIOGENOUS BINDERS
Cupák, Petr ; Jelínek, Petr (referee) ; Neudert, Alois (referee) ; Rusín, Karel (advisor)
oundry production, which forms an integral part of the engineering industry, is a source of waste with a negative impact on the working and living environment. The pressure on greening the production in all production branches of industry does not dodge the foundry industry and technical engineers seek out possibilities of decreasing the negative impact of the production of casting on the environment. An important source of environmentally dangerous waste in foundry operation is the use of organic compounds during the preparation of shaping and core mixtures. Their substitution with materials that would ensure similar technological features of the shaping and core mixtures as the organic materials used hitherto and at the same time decrease the amount of solid, liquid and gaseous ecologically undesirable compounds used in or arising during the preparation and use of shaping and core mixtures, would be significant for decreasing the ecological burden connected to casting production. A promising group of materials usable as components of shaping and core mixtures are the biopolymer materials which can substitute the organic connective systems used in the production of foundry cores by the means of the so-called hot processes – Hot-Box and Warm-Box. This work focuses on the exploration of the technological and ecological features of several biopolymer materials available on the domestic market which have the potential to become a full alternative of the binders used so far on the basis of urea-formaldehyde, melamine-formaldehyde, phenol-formaldehyde and furan resins.
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Study of chemical composition of atmospheric aerosols
Gazdošová, Lucie ; Čáslavský, Josef (referee) ; RNDr. P. Mikuška, CSc. (advisor)
Atmospheric aerosols play an important role in various atmospheric issues (effect to the radiation budget of the atmosphere, visibility reduction, smog production, destruction of stratospheric ozone, …). Epidemiological studies proved a correlation between increased mortality and high concentration of ambient particulate matter. Over the past decade, a growing attention has been focused on the organic compounds that are constituents of aerosol particles. Although organic compounds comprise often up to 60% of the total aerosol mass, their composition, concentration and formation mechanisms are not well understood. Diploma thesis will deal with the study of chemical composition of organic compounds bound to atmospheric aerosols with focus on polyaromatic hydrocarbons and sugars. Atmospheric aerosols will be sampled on filters and filter extracts will be analysed for content of studied organic compounds by means of GC, GC-MS or LC, respectively. Development and optimalization of extraction methods (PSE, …) and detection of compounds of interest. Concentration of studied organic compounds in aerosol size fractions PM 10, PM 2.5 and PM 1 will be compared.
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Soil contamination by polycyclic aromatic hydrocarbons from local heating
Šustáček, Jan ; Mikulová, Vlastimila (advisor) ; Jiří, Jiří (referee)
Polyaromatic hydrocarbons (PAHs) are the pollutants of the environment. These dangerous chemical compounds are produced by man and its activities. The source of these pollutants are mainly burning of fossil fuels and biomass, as well as transportation and industrial production. From the literature they were obtained evidence regarding PAHs, their properties and group trends. For the main PAHs was found their relative genetic toxicity and was described mechanism of their effect on DNA. Based on the literature was compiled ranking of fuels with respect to the production of PAHs.
The monitoring of untouched area by industry and transportation. The sampling was done in the surroundings Bušanovice village located in Prachatice district. The samples were taken from surface soil horizon. Samples were taken in 2015 to various remote locations from the center of the village. These samples were analyzed by HPLC technique.
It was found that the largest source of contamination are local furnaces burning solid fuels such as wood and coal. The concentrations of PAHs in the samples was in the range of 0.24 to 19.21 mg / kg dm. These values are considerably higher than was expected and in the European scale concentrations correspond to large cities with heavy traffic or industrial areas.
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The contents of selected persistent organic pollutants in soils at selected locations within Hradec Králové city
Bartošová, Barbora ; Száková, Jiřina (advisor) ; Radim, Radim (referee)
Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous contaminants entering the environment from both natural and anthropogenic sources. The main anthropogenic sources are processes for the production of electricity and thermal energy, waste incineration, road traffic and motor vehicles, aircraft, boats, steam and diesel-electric locomotives and some industrial technologies. Besides these main sources there are still a number of others, less important, e.g. working with hot tar, asphalt pavement wear and tire during vehicle operation, coking plants, plants for processing of oil and some metals plants. An indispensable source in the cities as domestic solid fuel burning furnaces.
Although Hradec Králové do not belong to the cities with extreme levels of contaminants in the air, according to the Czech Hydrometeorological Institute, the levels of benzo(a)pyrene in the case of annual average concentrations exceeding the maximum allowable concentrations occurred here in 2013. While air quality is monitored regularly, the PAHs contents in soils and vegetation are not so. In our simple single experiment, we decided to assess the level of contamination of soil PAHs in the land of Hradec Kralove. It was collected 86 soil samples, in which were determined contents of 16 PAHs. Further, mushroom fruit samples that were found in the individual sampling points were analyzed.
The results showed large variability of PAHs content in the city, but did not indicate significant levels of contamination. The sum of all the determined PAU does not exceed the permissible value of the contents of these elements in soils. However, in several cases exceeding the maximum allowable content in soils with different PAHs, especially fluoranthene, anthracene and chrysene. Linear correlation analysis showed that the levels of all monitored PAHs are close correlations, which indicates that the entire spectre of PAHs in this case always originates from the same source. The PAH contents in mushrooms were in most cases below the detection limit of the determination, only rarely the detectable contents of individual PAHs were found (Cylocybe gambosa, Agaricus arvensis). We can speculate about the limited ability of fungi to accumulate PAHs or their ability to degrade these substances.
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STUDY OF BIOGENOUS BINDERS
Cupák, Petr ; Jelínek, Petr (referee) ; Neudert, Alois (referee) ; Rusín, Karel (advisor)
oundry production, which forms an integral part of the engineering industry, is a source of waste with a negative impact on the working and living environment. The pressure on greening the production in all production branches of industry does not dodge the foundry industry and technical engineers seek out possibilities of decreasing the negative impact of the production of casting on the environment. An important source of environmentally dangerous waste in foundry operation is the use of organic compounds during the preparation of shaping and core mixtures. Their substitution with materials that would ensure similar technological features of the shaping and core mixtures as the organic materials used hitherto and at the same time decrease the amount of solid, liquid and gaseous ecologically undesirable compounds used in or arising during the preparation and use of shaping and core mixtures, would be significant for decreasing the ecological burden connected to casting production. A promising group of materials usable as components of shaping and core mixtures are the biopolymer materials which can substitute the organic connective systems used in the production of foundry cores by the means of the so-called hot processes – Hot-Box and Warm-Box. This work focuses on the exploration of the technological and ecological features of several biopolymer materials available on the domestic market which have the potential to become a full alternative of the binders used so far on the basis of urea-formaldehyde, melamine-formaldehyde, phenol-formaldehyde and furan resins.
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Analysis of Organic Markers for Identification of Sources of Atmospheric Aerosols
Křůmal, Kamil ; Chýlková, Jaromíra (referee) ; Vávrová, Milada (referee) ; Smolík,, Jiří (referee) ; Večeřa, Zbyněk (advisor)
In this work the organic markers that serve for identification of sources of aerosols are monitored. Theoretic part deals with detailed survey of organic markers emitted from the most significant sources of atmospheric aerosols (biomass combustion, combustion of fossil fuels and traffic) as well as with sampling of aerosols and analysis of organic markers by analytical techniques. Monosaccharide anhydrides (emissions from biomass combustion) and polyaromatic hydrocarbons (emissions from traffic and incomplete combustion) were observed especially. Hopanes and steranes (traffic, coal combustion) and fatty acids (cooking) were next groups of monitored organic markers. Markers were studied mainly in size fraction PM1 because this fraction of aerosols is the most harmful to human health. Aerosols were sampled in two seasons (winter and summer) in two towns in 2009. Higher concentrations of aerosols and organic compounds were found in winter season, which resulted from increased combustion of biomass, coal and other organic material while traffic was the most significant source of aerosols in summer.
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Study of chemical composition of atmospheric aerosols
Gazdošová, Lucie ; Čáslavský, Josef (referee) ; RNDr. P. Mikuška, CSc. (advisor)
Atmospheric aerosols play an important role in various atmospheric issues (effect to the radiation budget of the atmosphere, visibility reduction, smog production, destruction of stratospheric ozone, …). Epidemiological studies proved a correlation between increased mortality and high concentration of ambient particulate matter. Over the past decade, a growing attention has been focused on the organic compounds that are constituents of aerosol particles. Although organic compounds comprise often up to 60% of the total aerosol mass, their composition, concentration and formation mechanisms are not well understood. Diploma thesis will deal with the study of chemical composition of organic compounds bound to atmospheric aerosols with focus on polyaromatic hydrocarbons and sugars. Atmospheric aerosols will be sampled on filters and filter extracts will be analysed for content of studied organic compounds by means of GC, GC-MS or LC, respectively. Development and optimalization of extraction methods (PSE, …) and detection of compounds of interest. Concentration of studied organic compounds in aerosol size fractions PM 10, PM 2.5 and PM 1 will be compared.
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