Global ETD Search

1	Use of treated clays for extinguishing fires Newton, Seaborn Alton 08 1900 (has links) No description available. Clay Fire extinction Fire extinguishing agents
2	A performance evaluation of low pressure carbon dioxide discharge test Lee, Sung-Mo. January 2004 (has links) Thesis (M.S.)--Worcester Polytechnic Institute. / Keywords: Deap-seated fire; flow calculation; maximum percent of agent in pipe; free efflux; carbon dioxide extinguishing system; low pressure; no efflux; surface fire; NFPA 12. Includes bibliographical references (p. 69-70).
3	Thermal decomposition products testing with 1,1,1,2,2,4,5,5,5 nonafluoro-4-trifluoromethyl pentan-3-one (C6 F-ketone) during fire extinguishing Ditch, Benjamin D. January 2003 (has links) Thesis (M.S.)--Worcester Polytechnic Institute. / Keywords: clean extinguishing agent; c₆f-ketone; novec 1230; thermal decomposition products; halon alternative. Includes bibliographical references.
4	Synthesis of bromochloromethane using phase transfer catalysis Brooks, Lancelot L January 2011 (has links) The synthesis of bromochloromethane (BCM) in a batch reactor, using phase transfer catalysis, was investigated. During the synthetic procedure, sodium bromide (100.0g, 0.97mol) along with an excess amount of dichloromethane (265.0g, 3.12 mol) was charged to a reactor containing benzyl triethylammonium chloride (13 mmol), dissolved in 50 ml of water. The bench scale reactions were all carried out in a Parr 4520 bench top pressure reactor coupled to a Parr 4841 temperature controller. The method produced a 50.0 percent yield of the product BCM after a reaction time of 12 to 13 hours. The main objective for this investigation was to optimize the abovementioned reaction with respect to yield and reactor throughput. Quantitative analysis of BCM was performed on a Focus Gas Chromatograph, fitted with a flame ionization detector, and a BP20 column (30m × 0,32mm ID × 0,25 mm). Delta software, version 5.0, was applied for data collection and processing. The injector and detector port were set at 250°C and 280°C, respectively. The oven temperature was set and held at 40°C for a period of 2 minutes, then gradually increased at a rate of 10°C/min to 130°C, with the final hold time set for 1 minute. An analytical method for the quantitative analysis of BCM was developed, optimized and validated. Validation of the analytical method commenced over a period of three days, and focussed the following validation parameters: Accuracy, precision, and ruggedness. Statistical evaluation of the results obtained for precision showed that the error between individual injections is less than 2 percent for each component. However, ANOVA analysis showed a significant difference between the mean response factors obtained in the three day period (p-value < 0.05). Thus we could conclude that the response factors had to be determined on each day before quantitatively analyzing samples. The accuracy of the analytical method was assessed by using the percent recovery method. Results obtained showed that a mean percent recovery of 100.18 percent was obtained for BCM, with the absolute bias = 0.0004, and the percent bias = 0.18 percent. Hence the 95 confidence intervals for the percent recovery and percent bias are given by: (Lz, Uz) = (100.56 percent percent 102.15 percent), 13 (LPB, UPB) = (0.56 percent, 2.15 percent), respectively. Since the 95 percent confidence interval for the percent recovery contains 100, or equivalently, the 95 percent confidence interval for percent bias contains 0, the assay method is considered accurate and validated for BCM. In the same manner the accuracy and percent recovery for DCM and DBM was evaluated. The method was found to be accurate and validated for DBM, however, slightly biased in determining the recovered amount of DCM. With the analytical method validated, the batch production process could be evaluated. A total of six process variables, namely reaction time, water amount, temperature, volume of the two phases, stirring rate, and catalyst concentration, were selected for the study. The effects of the individual variables were determined in the classical manner, by varying only the one of interest while keeping all others constant. The experimental data generated was fit to a quadratic response surface model. The profile plots that were obtained from this model allowed a visual representation of the effect of the six variables. The experimental results obtained showed that the reaction follows pseudo zero-order kinetics and that the rate of the reaction is directly proportional to the concentration of the catalyst. The reaction obeys the Arrhenius equation, and the relatively high activation energy of 87kJ.mol -1 signifies that the rate constant is strongly dependent on the temperature of the reaction. The results also showed that the formation of BCM is favoured by an increase in the reaction temperature, catalyst concentration, and a high organic: aqueous phase ratio. Thus the synthesis of BCM using phase transfer catalyst could be optimised, to obtain a 100 percent yield BCM, by increasing both the reaction temperature to 105°C, and the concentration of the phase transfer catalyst -benzyl triethylammonium chloride - to 5.36 mol percent. The reaction time was also reduced to 6 hours. Chemistry, Analytic Fire extinguishing agents Chemical systems Physical science
5	Ekotoxicita vybraných hasebních prostředků / Ecotoxicity of selected extinguishing agents Konečná, Markéta January 2012 (has links) The dynamic development of industry and the constant production of new substances affecting the environment is currently one of the priorities of the interests of the human population. This thesis is focused on the ecotoxicological evaluation of selected extinguishing agent which are applied in case of fire. They must effectively extinguish fire because a live protection and material resources in any case very important, but Theky should be also environmentally friendly. In this work were tested surfactants, which are the main component of foaming extinguishing agent with the following commercial names: STAMEX F-15, F-15 EXPYROL, MOUSOL APS F-15, FINIFLAM F-15 and PYROCOOL B. Since surfactants have a negative impact mainly on aquatic ecosystem assessment were mainly used ecotoxicity tests using aquatic organisms. Test organisms were aquatic crustacean Daphnia magna and Thamnocephalus platyurus aquatic dicotyledons plant Lemna minor and terrestrial monocotyledons plant Sinapis alba. Based on the results of the tests were values of LC50, EC50 and IC50 for the tested substances determined and their ecotoxicity compared.
6	Thermal Decomposition Products Testing With 1,1,1,2,2,4,5,5,5 nonafluoro-4-trifluoromethyl pentan-3-one (C6 F-ketone) During Fire Extinguishing Ditch, Benjamin D. 06 January 2003 (has links) The thermal decomposition products (TDP) generated during fire suppression with 1,1,1,2,2,4,5,5,5 nonafluoro-4-trifluoromethyl pentan-3-one were studied using wet chemistry and FTIR. Small-scale testing was conducted in a 1.28-m3 (45-ft3) enclosure. The effects of fire size, agent discharge time, and agent concentration on TDP are reported. A comparison of the two methods is presented. In terms of magnitude and generation trends, the TDPs were found to be comparable to other in-kind halon alternatives. novec 1230 c6 f-ketone clean extinguishing agent thermal decomposition products halon alternative Fire extinguishing agents Testing Fire extinguishing agents Toxicology Ketones Testing Fourier transform infrared spectroscopy
7	Posouzení vlivů běžně používaných hasiv na vybrané složky životního prostředí / Impact assessment of ordinarily used firefighting agents on selected environmental compartments Jabandžievová, Barbora January 2017 (has links) This diploma thesis is focused on the evaluation of effects of the most frequently used extinguishing agents in the South Moravian region on selected aquatic and terrestrial organisms. Extinguishing substances which have been tested are foaming agents Sthamex and Moussol, rigid wetting agent TS ECO and TS Turbo and ABC FAVORIT fire - extinguishing powder. Their effects have been tested on aquatic organisms Daphnia magna and Scenedesmus subspicatus and terrestric organisms such as Folsomia candida, Lactuca sativa, and Eisenia fetida. Validation test on standard substances have been performed to verify the validity of the test results. From the obtained results values of IC50, LC50 and EC50 were calculated, through which the impact of individual extinguishing agents on the components of the environment was assessed.
8	Transport and dispersion of fire extinguishing agents downstream from clutter elements of aircraft engine nacelles Unknown Date (has links) The combination of highly turbulent airflow, flammable fluids, and numerous ignition sources makes aircraft engine nacelles a difficult fire zone to protect. Better understanding of nacelle air flow and how it influences the spread of fires and fire extinguishing agents is needed to improve the efficiency of fire suppression. The first objective was to establish a CFD model for a flow field test section to analyze the transport and dispersion of fire extinguishing agents in the presence of various clutter elements. To validate the use of the CFD model, the simulation results of the CFD model were compared to the experimental data and they show an agreement with the experimental data. The second objective was to present parametric studies to show the effects of the coflow speed, turbulence intensity and agent droplet size on the transport and dispersion of the agent particles downstream from the clutter elements. / by Khaled Zbeeb. / Thesis (M.S.C.S.)--Florida Atlantic University, 2009. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2009. Mode of access: World Wide Web. Airplanes--Nacelles--Safety measures Airplanes--Fires and fire prevention Fire extinguishing agents--Testing
9	Ekotoxikologické posouzení bodových zdrojů znečištění v ekosystému / Ecotoxicological Assessment of Point Pollution in the Ecosystem Doležalová, Šárka January 2018 (has links) The main subject of this dissertation is the ecotoxicological evaluation of significant point sources of pollution. These include wildfires and wide fires of factories and also industrial and urban wastewater treatment plants. The local application of pyrolytic product obtained from sewage sludge as the point source of pollution was also included in the thesis. Tests in aquatic and contact arrangement with using both water and soil organisms for ecotoxicity evaluation of selected matrices were chosen. Crustaceans Thamnocephalus platyurus, Daphnia magna Straus and sea bacteria Vibrio fischeri were selected as representative organisms of water animals. Duckweed Lemna minor was chosen as water plant. Further collembola Folsomia candida and earthworm Eisenia fetida were chosen as representatives of soil animals. Finally onion Allium cepa L. and mustard Sinapis alba are representatives of terrestrial plants. Submitted thesis deals about analytes of interest, their properties and ways of distribution to the environments. The output of the thesis is a comprehensive assessment of the effects of selected point sources of pollution on aquatic and terrestrial ecosystems organisms and ecotoxicological risks assessment. The fire extinguishing agents have been proven to be the most stressful substances for all selecteded organisms.
10	Stanovení tenzidů v hasebních prostředcích / Determination of surfactants in fire extinguishing devices Janebová, Bibiana January 2011 (has links) Nowadays are foam concentrates used as the primary extinguishing agent for flammable liquid fires (especially hydrocarbons), means of transports fires, the release of chemical substances in environmental accidents, and their importance is still growing with the industrial development. All units of fire protection have foam concentrates in their equipment, so it is important that firefighters to have some necessary knowledge about their characteristics and to be able to use them effectively and safely for the environment. The basic component of foaming concentrates are surfactants. This diploma thesis analyzes foam samples which are commonly used, by methods for analysis of drinking, surface and wastewater and determines cationic, anionic and nonionic surfactants.

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