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Studium zplodin vznikajících hořením vybraných látek / Study of fumes from burning materials selectedŠEBA, Jaroslav January 2012 (has links)
The topic of my diploma thesis draws on my bachelor thesis, which described combustion products of selected substances in the complete combustion. The diploma thesis focused on the incomplete combustion in the same substances to make a comparison possible. In the chapter on the substances selected for burning, the substances were described theoretically first. Further, the burning was carried out, the products that came into being were collected into collection bags and sent to the laboratory of the Institute of Population Protection in Lázně Bohdaneč to be analysed. After receiving the records all possible effects on human health were carried out, and the results were compared with those of the bachelor thesis. The analyses showed that carbon monoxide and sulphur dioxide appeared in all analyses, while the remaining substances differed to a minimum extent, however, they are in much higher concentrations than in the perfect combustion. I added two more substances that had not been in my bachelor thesis to those that were burnt, but in the course of two years their application became a common practice, and they play an increasingly more significant role in our life. The task of the chapter dealing with the detection technique was to find out and describe the possibilities of the commander in detecting the combustion products directly on the spot of the actual operation in the shortest possible time, to enable him to propose the protection of the firemen, and possibly to establish the possibilities of taking samples, transport to the laboratory, conducting a laboratory analysis and establishing the approximate time when he could obtain the first sampling results. All of this was focused on the possibilities of the Fire Rescue Service of the Region of South Bohemia (HZS JčK). The next chapter concerned their colleagues of the Fire Rescue Service of the Region of South Bohemia in České Budějovice, in which a questionnaire investigation was focused on them, identical with that of my bachelor thesis. As I had succeeded in including the results of my bachelor thesis into a training course, I wondered whether the knowledge would improve or not. After a comparison with the results from my bachelor thesis with the new ones the conclusions turned out to be favourable, and suggested in which way the training courses - not only for the professional units - should proceed. The results of the new questionnaire investigation, which showed an improvement, should form a basis of a campaign focusing on the non-professional public, which should be acquainted with what they breathe in the event that they burn vast variety of waste. I believe that results would be achieved even here in the form of a deeper knowledge and a better quality of the air we breathe.
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Improved efficiencies in flame weedingde Rooy, S. C. January 1992 (has links)
Possible areas of improving the efficiencies of the Lincoln University flame weeder are identified and investigated. The Hoffmann burner initially used in the Lincoln University flame weeder was found not to entrain sufficient air to allow complete combustion of the LPG used. A new burner, the Modified Lincoln University burner, was designed to improve the entrainment of air. Results show that the new design entrained sufficient air to theoretically allow complete combustion of the LPG, and this resulted in a 22.7% increase in heat output per Kg of LPG used over the Hoffmann burner. Temperature x time exposure constants required to kill weeds 0 - 15, 15 - 30, and 30 - 45 mm in size, were found to be respectively 750, 882, and 989 degrees Celsius.Seconds. These constants can be used to calculate the maximum speed of travel an operator can use a flame weeder at, once the temperature profile underneath its shields are established at various travel speeds, and therefore ensure that the flame weeder is used at its maximum efficiency. The constants can also be used to establish the cost efficiency of any flame weeder (in $/Ha), depending on the size of the weeds to be treated. The materials and methods used in establishing the temperature x time exposure constants can be used to establish the temperature x time exposure constant of any weed species at any size.
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