Global ETD Search

871	Windback seal design for gas compressors: a numerical and experimental study Al-Ghasem, Adnan Mahmoud 17 September 2007 (has links) Seals are considered one of the important flow elements of a turbomachinery device. Traditional labyrinth seals have proven their performance functionality by reducing leakage rates. Significant improvements on labyrinth seal functionality were obtained through altering the design geometry of labyrinth seals to prevent contamination across a seal and maintaining small leakage flowrates. This results in a windback seal that has only one tooth which continuously winds around the shaft like a screw thread. These seals are used in gas compressors to isolate the gas face seal from bearing oil. A purge gas is passed through the seal into the bearing housing. The helical design allows the seal to clear itself of any oil contamination. Windback seal performance is controlled through changing the seal geometry. A 2D graphical design tool for calculating the total and cavity leakage flowrates for windback seals is introduced. The effectiveness of the Fluent CFD (Computational Fluid Dynamics) commercial code to accurately predict the leakage rate for windback seals was evaluated. The objective is to determine if CFD simulations can be used along with a few experimental tests to study windback seals of this design with air as the working fluid. Comparison of measurement and predictions for a windback seal using the ÃÂº-ÃÂµ turbulence model with enhanced wall treatment functions show predictions and measurements comparing very well with a maximum difference of 5% for leakage rate. Similarly, the leakage rate of the tested smooth seal compares favorably with two dimensional CFD predictions, with a difference of 2%-11% and 8%-15% using laminar and ÃÂº-ÃÂµ turbulent flow models, respectively. The variation of leakage with shaft speed and pressure ratio across the seals is accurately predicted by the CFD simulations. Increasing the rotor speed to 15000 rpm increases the measured leakage flowrate for the windback seal by 2% at high differential pressure and 4.5% at low differential pressure, and decreases it by 10 % for the smooth seal. The effects of seal clearance, tooth pitch, cavity depth and the tooth number of starts on leakage flowrate, velocity and pressure distributions were studied numerically for three differential pressures and four rotor speeds. Windback seal Gas seal Seal design Labyrinth seal Oil contamination geometrical parameters
872	Remediation of NAPL-contaminated soils and groundwater by a three-stage treatment train system Tsai, Tzai-Tang 21 August 2009 (has links) The industrial solvent trichloroethylene (TCE) and petroleum hydrocarbons (e.g., fuel oil) are among the most ubiquitous organic compounds found in subsurface contaminated environment. The developed treatment train system included the first stage of groundwater and surfactant flushing followed by the second stage of chemical oxidation such as potassium permanganate (KMnO4) and Fenton-like treatment. The third stage was the application of enhanced bioremediation for the further removal of residual contaminants after the first two treatment processes. The objectives of this study were to (1) assess the applicability of treatment train system for the remediation of organic compounds contaminated subsurface environment, (2) determine the optimal operational conditions of the three-stage treatment system, and (3) evaluate the effects of residual surfactant Simple GreenTM (SG) and hydrogen peroxide (H2O2) after chemical oxidation stage on the efficiency of bioremediation process. In this study, three different surfactants [SG, Triton X-100, and Tween 80] were evaluated in batch experiments for their feasibility on contaminants removal. Results from the surfactant biodegradation and microbial enumeration study indicate that SG was more biodegradable and was able to enhance the microbial activity of the intrinsic microorganisms. Thus, SG was applied in the following batch or column experiments of the treatment train system. Results from this study indicate that approximately 87.6% of TCE in the system (with initial concentration of 40 mg L-1) could be removed from the simulated dense non-aqueous-phase liquids (DNAPLs) system after groundwater flushing followed by biodegradable surfactant (1 g L-1 of SG) flushing, while the TCE concentrations dropped from 40 to 4.96 mg L-1 at the end of the flushing experiment. Moreover, approximately 10.7% of the remaining TCE could be removed from the system after the oxidation process using KMnO4 as the oxidant. Results from the oxidation process show that TCE was reduced from 4.96 to 0.69 mg L-1, and chloride concentation was increased from ND to 0.88 mg L-1 with the presence of 1 g L-1 of SG. The residual 1.7% of the TCE could be further remediated via the enhanced bioremediation stage, and the TCE concentrations dropped from 0.69 mg L-1 to below detection limit at the end of the bioremediation experiment. Results also indicate that the remaining KMnO4 had no significant inhibition on bacterial growth and TCE biodegradation. Thus, SG flushing and KMnO4 oxidation would not cause adverse effect on subsequent bioremediation process using intrinsic bacteria. Thus, complete TCE remediation was observed in this study using the three-stage treatment scheme. Results from the column experiment reveal that a complete TPH removal could be obtained after the application of three consecutive treatment processes. Results show that TPH concentration could be reduced from 50,000 mg kg-1 to below detection limit. This indicates that the treatment train system is a promising technology to remediate fuel-oil contaminated soils. Results from the column study indicate that approximate 80.3% of initial TPH in the soil could be removed after the SG [50 pore volumes (PVs)] followed by groundwater (30 PVs) flushing. The Fenton-like oxidation (with 6% of H2O2 addition) was able to remove another 15.0% of TPH. The observed first-order reaction rate constant of TPH oxidation was 2.74¡Ñ10-2 min-1, and the half-life was 25.3 min during the first 40 min of reaction. The residual 4.7% of the TPH could be further remediated via the aerobic bioremediation process. Thus, complete TPH removal was obtained in this study using the three-stage treatment scheme. The proposed treatment train system would be expected to provide a more efficient and cost-effective alternative to remediate chlorinated solvent and petroleum hydrocarbons contaminated sites. Soil and groundwater contamination surfactant flushing treatment train system
873	Physico-Chemical study of the Focused Electron Beam Induced Deposition Process Bret, Tristan 25 November 2005 (has links) (PDF) La technique de croissance assistée par faisceau focalisé d'électrons offre des perspectives attrayantes pour la nano et micro-fabrication en trois dimensions. Les faisceaux d'électrons peuvent être focalisés sur des dimensions inférieures à 1 Å, ce qui permet l'observation, l'analyse et la modification d'objets à l'échelle atomique. De nombreuses applications peuvent être envisagées, mais supposent une description précise des mécanismes physico-chimiques mis en jeu.<br /><br />Une étude bibliographique montre d'abord que cette technique est dérivée du phénomène de contamination observé en microscopie électronique. Puis, afin d'en faire un outil expérimental efficace, un microscope électronique à balayage a été muni de systèmes d'approvisionnement en gaz précurseur et de condensation. De nouvelles méthodes électriques et optiques ont été mises au point pour le suivi in-situ du procédé. La démarche scientifique s'est déroulée en deux phases. La physique du phénomène a d'abord été étudiée, en déposant des films minces de carbone, d'un composite cuivre-carbone, puis d'or pur. La propagation des électrons dans ces films a été décrite grâce à la mesure en continu de la fraction du courant de sonde absorbée dans l'échantillon. Les effets des électrons diffusés sur le taux de croissance ont été étudiés. Un modèle physique a été développé pour rendre compte des résultats. La deuxième phase a été la croissance de pointes composites sous un faisceau immobile. La forme des pointes est déterminée par la diffusion des électrons. Un modèle physique décrivant les trajectoires des électrons à l'intérieur et autour des pointes a été mis au point. La troisième phase a été la construction de micro-structures tridimensionnelles, dont la forme illustre les effets de la profondeur de pénétration des électrons, qui est plus grande que l'épaisseur des dépôts.<br /><br />Pour comprendre la chimie du phénomène, les dépôts de carbone obtenus ont été analysés par plusieurs techniques de micro-sonde. Tous les dépôts obtenus à partir de précurseurs pourtant différents avaient la composition C9H2±xO1±x (x<1). La fraction d'hybridation sp2 de la phase carbone amorphe est de 90%. Le taux de croissance augmente avec la pression de vapeur, le moment dipolaire et la masse moléculaire du précurseur. Il diminue avec la température de l'échantillon. La réaction de fixation du précurseur adsorbé est une ionisation, suivie de la perte des éléments volatils H, N, O, F et Cl. L'analyse des dépôts composites de métaux a montré qu'ils peuvent être conducteurs. Des micro-dispositifs ont été démontrés, comme un contact électrique à un nanotube et un capteur de champ magnétique présentant une surface active de 500 × 500 nm2. [PHYS:PHYS] Physics/Physics Microscopie électronique nanotechnologies contamination Couches minces électron faisceau focalisé micro-analyse
874	Effect of different marinade treatments on survival and morphology of pathogens in beef jerky Khurana, Sandeep K., Clarke, Andrew Douglas. January 2009 (has links) The entire thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file; a non-technical public abstract appears in the public.pdf file. Title from PDF of title page (University of Missouri--Columbia, viewed on December 29, 2009). Thesis advisor: Dr. Andrew D. Clarke. Includes bibliographical references.
875	Miljöpåverkan av Cu från mjölkkors klövbad Rüdow, Lina January 2015 (has links) Klövsjukdomen digital dermatit hos kor ger upphov till smärta hos djuren samt störningar i produktionen. För att förebygga och behandla klövsjukdomen används olika preparat, däribland CuSO4-lösning. Syftet med studien är att undersöka om och i så fall i vilken omfattning spridande av kopparförorenad gödsel påverkar Cu-halten i jordbruksmark. Studien genomfördes med provtagning av två oberoende jordbruksmarker där ett av områdena gödslas med kopparförorenad gödsel. Resultaten visar att jordbruksmark där förbrukad CuSO4 spridits med stallgödseln ger upphov till en signifikant ökad Cu-halt i markens översta lager, 0-25 cm. / The hoof disease digital dermatitis rise pain with the cows as well as production disruption. To prevent and treat the hoof disease different substances are used, including CuSO4 solutions. The purpose of this study is to examine if, and in that case in which incidence, the spread of copper contaminated manure affects the copper content in agricultural land. The study was performed sampling two independent agricultural areas. One of the areas was fertilized with copper contaminated manure. The results show that agricultural land where CuSO4 has been spread with the manure has a significant higher content of Cu in the upper level of the soil, 0-25 cm. Copper soil accumulation dairy footbath contamination Koppar åkermark CuSO4 digital dermatit klövsjukdom
876	Photoemission study of stepped surface, thin film and nanowire growth Zhou, Xubing 13 March 2014 (has links) Steps on a high index metal or semiconductor surface may play a fundamental role for electronic structure, adsorption, film growth, chemical reaction and catalysis. The surface atomic and electronic structures of stepped W(110) surfaces have been investigated by a few research groups during the past 20 years. But there is still a lot of controversy. We use high resolution core level photoemission to study several different stepped tungsten surfaces. Curve fittings of the spectra permit tests of core-level binding- energy shift models that relate local atomic coordination to binding -energy differences associated with terrace and step-edge atoms. For the first time we find a well resolved W4f₂/₇ peak associated with step edge atoms. We attribute previous failure to directly detect the step-edge effects in core level photoemission to contamination by hydrogen. The well resolved peaks for surface atoms with different coordinations can serve as a “finger print” for specific atoms. Experiments in which stepped surfaces are systematically dosed by H₂ clarify the role played by H contamination. We also grow Ag nanowires on the stepped W(110) surface and use angle resolved photoemission to study the band structure. We find distinct dispersion for the nanowires along the step edge direction while there is only little dispersion perpendicular to the wires. The second part of the research is core level photoemission study on Cesium film growth on Cu(100) surface. We study the phonon broadening effect for Cs at different temperatures. We compare our data with previous theoretical models and get good results on surface and bulk Debye temperatures and zero temperature phonon broadening. The binding energy shifts for the Cs 5p₂/₇ at different temperatures have also been investigated. The results fit the lattice expansion model very well except at temperature higher than 200 K. The higher temperature deviation is caused by thermal evaporation of Cs films. This conclusion is checked by the following coverage dependent core level peaks study on the Cs/Cu(100) system. / text Step edge atoms Binding-energy differences Photoemission Hydrogen contamination Nanowires Thin film
877	Molecular biology tools for identification and quantification of perchlorate-reduction genes in biotreatment applicatins De Long, Susan Kathleen 10 April 2014 (has links) Perchlorate contamination of drinking water sources in the United States is widespread and represents a public health concern. Biological treatment is an attractive option because perchlorate-reducing bacteria (PRB) are ubiquitous in the environment and can reduce perchlorate completely to chloride. Treatment of perchlorate-contaminated water in fixed-bed bioreactors has been demonstrated at the laboratory- and pilot-scale. However, full-scale development of reliable biological drinking water treatment processes requires a better understanding of the microbial ecology and activity of perchlorate-reducing communities in bioreactors. The objective of this research was to develop molecular biology tools (MBTs) to quantify PRB and expression of genes required for complete perchlorate reduction (pcrA and cld). The development of MBTs targeting specific genes requires that the sequence of the genes be known. In this work, an MBT called prokaryotic Suppression Subtractive Hybridization (SSH) PCR complementary DNA (cDNA) Subtraction was developed to rapidly isolate target genes for sequencing. This new tool was developed and validated using the model bacterium Pseudomonas putida mt-2 and the model pollutant toluene. For this system, over 90% of the isolated gene fragments encoded toluene-related enzymes, and 20 distinct toluene-related genes from three key operons were identified. Based on these results, prokaryotic SSH PCR cDNA Subtraction shows promise as a targeted method for gene identification; however, application to a PRB did not yield new pcrA and cld sequences. Therefore, to support the development of biological perchlorate treatment processes, quantitative PCR (qPCR) and reverse transcription qPCR (RT-qPCR) assays targeting pcrA and cld were developed using existing sequences. The qPCR and RT-qPCR assays were applied to a laboratory-scale bioreactor and two pilot-scale bioreactors treating perchlorate-contaminated water. Higher quantities of perchlorate reduction genes and transcripts generally were observed when bioreactor performance was superior. Although no quantitative correlations were established, these assays detected differences in the quantity of PRB and changes in gene expression levels during the course of bioreactor operation and between bioreactors with different performance levels. Furthermore, these assays provided an additional line of evidence that microbial perchlorate reduction was occurring. This marks the first application of qPCR assays to quantify perchlorate reduction genes and transcripts in bioreactors. / text Perchlorate-reducing bacteria Perchlorate contamination Drinking water Molecular biology tools Genes
878	Selection of Pathogen Surrogates and Fresh Produce Safety: Implications for Public Health and Irrigation Water Quality Policy Givan, Ethan 01 October 2015 (has links) Foodborne illness continues to be a substantial public health issue in the United States, with fresh produce being one of the leading causes of outbreaks. Understanding routes of contamination of fresh produce and how pathogens survive on plant surfaces is paramount in improving food safety and reducing risk to public health. The objectives of this study were to select environmental E.coli isolates as pathogen surrogates of Salmonella typhimurium and E.coli O157:H7, assess lettuce plant contamination by spray irrigation water, and evaluate a common industry quality control (QC) E.coli strain (ATCC 25922). Selections of E.coli surrogates were made utilizing biofilm and leaf attachment data from lab scale assays. Five surrogates were found to be similar in biofilm formation and leaf attachment capabilities of the pathogens, while the common QC strain was significantly different than Salmonella in both biofilm formation and leaf attachment (p < 0.05). Persistence of surrogates, pathogens and the QC strain on lettuce plants was assessed in greenhouse scale experiments, where it was found that all isolates were above detection levels for 22 days. Die-off rates were calculated for all isolates, with the QC strain having the greatest rate of die-off in the first experiment (k = -4.52) and the second greatest in the second experiment (-2.82) while the pathogens and selected surrogates had statistically similar and lower rates of die-off. Based on this information, current policies concerning the sampling and management of irrigation waters and crops for microbial safety may be insufficient. It is recommended that sampling methods and frequencies be adjusted for irrigation waters and fresh produce, and the use of projected die-off rates not be used for the determination of time intervals needed before a crop is safe to harvest. contamination food borne illness e coli salmonella Environmental Public Health Public Health
879	The prevalence of coliform species in selected food products with special reference to the detection of Citrobacter koseri. Ramashia, Shonisani Eugenia. January 2013 (has links) M. Tech. Food Technology. / Problems to be solved in this project was to validate isolation and detection methods for C. koseri; to assess the environmental prevalence of C. koseri by testing a range of raw South African food products and to determine the specific risk of neonatal infections by monitoring powdered infant formula on the South African market for the presence of this organism. Dissertations, Academic -- South Africa. Aeromonadaceae. Aeromonadales. Enterobacteriaceae. Food contamination. Neonatal infections.
880	Wastewater treatment using magnetic metal doped iron oxide nano particles. Songo, Morongwa Martha. January 2014 (has links) M. Tech. Chemical Engineering / The lack of clean and fresh water has become a worldwide problem because of water pollution caused by industrialization. Contamination of natural water sources by heavy metal is a worldwide public health problem, leading to waterborne outbreaks of infectious hepatitis, viral gastroenteritis, and cancer. Therefore it very important to remove these toxic metal ions from municipal and industrial effluents in order to protect plants, animals and human beings from their adverse effect before discharging into natural water bodies. Although, several separation methods such as filtration, reverse osmosis and membrane technology have been developed to remove these toxic heavy metal ions from wastewater, however these conventional treatments technologies were found to be expensive on a sustainable basis. Adsorption process was identified as the most effective, and extensively used essential process in wastewater treatment, and in order for adsorption process to feasibly remove pollutants from wastewater, there should be a need for a suitable adsorbent which will have a large porous surface area, and a controllable porous structure. Through the application of nanotechnology, nano adsorbents can be developed as effective adsorbents to treat wastewater. The main objective of this project was to apply magnetic metal doped iron oxides as an efficient adsorption media for the removing of Cr(VI), Cd(II) and V(V) ions from wastewater.

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