Global ETD Search

341	A microscale chemical sensor platform for environmental monitoring Truax, Stuart 18 August 2011 (has links) The objective of this research is to apply micromachined silicon-based resonant gravimetric sensors to the detection of gas-phase volatile organic compounds (VOCs). This is done in two primary tasks: 1) the optimization and application of silicon disk resonators to the detection of gas-phase VOCs, and 2) the development and application of a novel gravimetric-capacitive multisensor platform for the detection of gas-phase VOCs. In the rst task, the design and fabrication of a silicon-based disk resonator structure utilizing an in-plane resonance mode is undertaken. The resonance characteristics of the disk resonator are characterized and optimized. The optimized characteristics include the resonator Q-factor as a function of geometric parameters, and the dynamic displacement of the in-plane resonance mode. The Q-factors of the disk resonators range from 2600 to 4360 at atmosphere for disk silicon thicknesses from 7 µm to 18 µm, respectively. The resonance frequency of the in-plane resonance mode ranges from 260 kHz up to 750 kHz. The disk resonators are applied to the sensing of gas-phase VOCs using (poly)isobutylene as a sensitive layer. Limits of detection for benzene, toluene and m-xylene vapors of 5.3 ppm, 1.2 ppm, and 0.6 ppm are respectively obtained. Finally, models for the limits of detection and chemical sensitivity of the resonator structures are developed for the case of the polymer layers used. In the second task, a silicon-based resonator is combined with a capacitive structure to produce a multisensor structure for the sensing of gas-phase VOCs. Fabrication of the multisensor structure is undertaken, and the sensor is theoretically modeled. The baseline capacitance of the capacitor component of the multisensor is estimated to be 170 fF. Finally, initial VOC detection results for the capacitive aspect of the sensor are obtained. Chemical sensor Gas sensor Resonator Microresonator Gravimetry Volatile organic compounds MEMS Silicon Q-factor Capacitive sensor Multisensor PIB Toluene Polymer In-plane High Q Environmental monitoring Chemical detectors Gas detectors
342	Efecto de la exposición a contaminación atmosférica durante el embarazo sobre el crecimiento fetal Aguilera Jiménez, Inmaculada 14 October 2009 (has links) Antecedentes y objetivo: Un creciente número de estudios epidemiológicos han asociado la exposición prenatal a contaminación atmosférica urbana con un menor crecimiento fetal, pero pocos están basados en cohortes prospectivas con modelos de exposición que capten la variabilidad espacial a pequeña escala de la contaminación dentro de una misma ciudad. Métodos: A partir de modelos basados en medidas de contaminación con captadores pasivos y variables geográficas, se estimó la exposición prenatal a dióxido de nitrógeno (NO2) y compuestos orgánicos volátiles (COVs) en una cohorte de 611 embarazadas de Sabadell. El crecimiento fetal se midió como peso al nacer y también longitudinalmente mediante ecografías obstétricas.Resultados: Tras estratificar por determinados patrones de tiempo-actividad, se halló un efecto negativo de la exposición prenatal a COVs por incremento en el rango intercuartílico sobre el peso al nacer (-77 gr, p<0.05). Al evaluar el crecimiento fetal mediante ecografías se halló una asociación entre exposición a NO2 y COVs desde el inicio del embarazo y un menor crecimiento de varios parámetros fetales a partir de la semana 20 de gestación. Conclusiones: La variabilidad en la exposición a contaminación atmosférica asociada al tráfico dentro de una misma ciudad tiene un efecto negativo sobre el crecimiento fetal. Este efecto comienza a manifestarse hacia la mitad del embarazo y parece persisitir hasta el nacimiento. / Background and objective: A growing number of studies have found an association between prenatal exposure to urban air pollution and fetal growth, but few of them are based on prospective cohorts with exposure models developed to capture the small-scale spatial variability in air pollution levels within a city.Methods: We developed models based on air pollution measurements with passive samplers and geographic variables. They were applied to estimate prenatal exposure to nitrogen dioxide (NO2) and volatile organic compounds (VOCs) in a cohort of 611 pregnant women from Sabadell. Fetal growth was assessed as birth weight and also through obstetric ultrasounds.Results: After stratifying by some specific time-activity patterns, a negative effect of prenatal exposure to VOCs was found on birth weight (-77 gr, p<0.05 for an interquartilic range increase in VOCs levels). When fetal growth was longitudinally assessed through ultrasound examinations, an association was found between exposure to NO2 and VOCs from early pregnancy and impaired growth in several fetal parameters from week 20 onwards. Conclusiones: Within-city variations in exposure to traffic-related air pollution have an effect on fetal growth. This effect already manifests during mid-pregnancy and seems to persist until birth. INMA study cohort study birth weight fetal growth nitrogen dioxide volatile organic compounds exposure assessment air pollution estudio INMA estudio de cohorte peso al nacer crecimiento fetal dióxido de nitrógeno compuestos orgánicos volátiles evaluación de la exposición contaminación atmosférica 57
343	Olfaktorische Habitatfindung ausgewählter Macrolepidopteren (Abendpfauenauge Smerinthus ocellatus L. und Großer Gabelschwanz Cerura vinula L.) an Salweide (Salix caprea L.) und Zitterpappel (Populus tremula L.) in Waldmantelgesellschaften / Übersetzter Titel: Olfactory habitat selection of the macrolepidoptera Paczkowska, Marta 28 February 2012 (has links) No description available. 500 Naturwissenschaften Forest Sciences and Forest Ecology Waldrand Habitatfindung Cerura vinula Smerinthus ocellatus Volatile Duftmuster Verhalten forest margin habitat selection Cerura vinula Smerinthus ocellatus volatile organic compounds VOC insects behavior Land- und Forstwirtschaft YR 000 Forstzoologie
344	Caractérisation de la pharmacocinétique suite à l’exposition multivoie au toluène, au n-hexane et au cyclohexane chez le rat Gagné, Michelle 12 1900 (has links) La contribution de l’inhalation et de la voie percutanée à l’exposition totale à des composés organiques volatils (COV) présents dans l’eau potable est une problématique qui suscite un intérêt grandissant en santé publique et au niveau réglementaire. Jusqu’à tout récemment, seule l’ingestion était considérée dans l’évaluation du risque des contaminants de l’eau. L’objectif de ce projet était de caractériser l’impact de l’exposition multivoie sur la pharmacocinétique et la dose interne de trois COV : le toluène (TOL), le n-hexane (HEX) et le cyclohexane (CYCLO). À cette fin, un modèle expérimental animal a été utilisé et un modèle toxicocinétique à base physiologique (TCBP) a été adapté pour le TOL. Des rats Sprague-Dawley ont été exposés par voies uniques (inhalation, orale et percutanée) ou simultanées (multivoie) aux solvants. Pour le TOL, les trois voies ont été expérimentées, alors que la voie percutanée n’a pas été retenue pour le HEX et le CYCLO. Des prélèvements sanguins ont permis de caractériser les cinétiques sanguines. Les niveaux sanguins, obtenus lors des expositions multivoies, étaient généralement plus élevés que la somme des niveaux associés aux expositions par voies uniques, fait illustré par le rapport des surfaces sous la courbe expérimentale versus les prédictions (TOL : 1,30 et 2,19 ; HEX : 1,55 ; CYCLO : 0,98 et 0,99). Le modèle TCBP prédit bien la cinétique du TOL lors d’expositions par voies uniques et par multivoies. Les données expérimentales obtenues suggèrent que la dose interne résultant d’une exposition multivoie ne peut pas toujours être prédite par la somme des doses internes obtenues lors d’expositions par voies uniques. Ce phénomène serait explicable par la saturation du métabolisme. La modélisation TCBP est un outil efficace pour l’estimation du risque relatif à l’exposition multivoie aux COV présents dans l’eau potable. / The contribution of dermal and inhalation routes of exposure to volatile organic chemicals (VOCs) in drinking water is increasingly drawing attention. Until recently, ingestion was the only route considered in risk assessment of drinking water contaminants. The general objective of this study was to characterize multi-route exposures on the pharmacokinetics and internal dose of three VOCs: toluene (TOL), n-hexane (HEX) and cyclohexane (CYCLO). Towards this goal, an experimental animal model was developed and a physiologically-based toxicokinetic (PBTK) model was adapted in order to take account route-specific absorption parameters of TOL. Sprague-Dawley rats were given a single dose of VOCs by oral ingestion, inhalation or dermal route. Additional groups of rat were exposed by the three routes simultaneously. In the case of HEX and CYCLO, dermal route was not considered. Blood samples were collected in order to compare kinetics following simple and multiroute exposures. Blood levels obtained following multiroute exposures were generally higher than predictions (i.e., the sum of the blood levels obtained for single route exposures) (as revealed by area under curve ratio: TOL :1,30 et 2,19; HEX : 1,55; CYCLO : 0,98 et 0,99). The PBTK model described adequately the kinetics of TOL in rats following single and multiroute exposures. The results suggest that internal dose arising from multiple routes is not necessarely comparable to the sum of the blood levels obtained for single route exposures. This phenomenon would be attributable to degree of saturation during aggregate exposures. Furthermore, the present study demonstrated that PBTK model can be used to predict/interpret blood levels associated with multiroute exposures to VOCs in drinking water, using toluene as a model substance. Exposition multivoie Composés organiques volatils Toluène n-hexane Cyclohexane Modèle expérimental animal Modèle toxicocinétique Multiroute exposure Volatile organic compounds Toluene Experimental animal model Toxicokinetic modeling
345	Volatile metabolites from microorganisms in indoor environments : sampling, analysis and identification Sunesson, Anna-Lena January 1995 (has links) Microorganisms are able to produce a wide variety of volatile organic compounds. This thesis deals with sampling, analysis and identification of such compounds, produced by microorganisms commonly found in buildings. The volatiles were sampled on adsorbents and analysed by thermal desorption cold trap-injection gas chromatography, with flame ionization and mass-spectrometric detection. The injection was optimized, with respect to the recovery of adsorbed components and the efficiency of the chromatographic separation, using multivariate methods. Eight adsorbents were evaluated with the object of finding the most suitable for sampling microbial volatiles. Among the adsorbents tested, Tenax TA proved to have the best properties for the purpose. Some carbon-containing adsorbents, e.g., Tenax GR and Carbopack B, showed a catalytic effect on thermal decomposition of some compounds, mainly terpene derivatives. Five fungal species, Aspergillus versicolor, Pénicillium commune, Cladosporium cladosporioides, Paecilomyces variotii and Phialophora fastigiata, and anactinomycete, Streptomyces albidoflavus, were cultivated on various artificial media and/or building materials. Cultivation was performed in culture flasks, provided with air inlet and outlet tubes. Humidified air was constantly led through the flasks, and samples were taken by attaching adsorbent tubes to the outlet tubes of the flasks. The cultivation medium proved to be of vital importance for metabolite production, quantitatively as well as qualitatively. For Streptomyces albidoflavus the effect of medium, cultivation temperature, and oxygen and carbon dioxide levels in the supplied air on the production of volatiles, was studied using multivariate techniques. The medium and the temperature exerted the largest influence, but the oxygen and carbon dioxide levels also affected the amounts of some metabolites produced. The produced volatile metabolites were identified by mass spectrometry and reference compounds. Alcohols, ketones, sulphur compounds and terpenes were most frequently found, but hydrocarbons, ethers and esters were also produced by some species. Among the most commonly produced metabolites, which are also suggested as potential indicator substances for excessive growth of microorganisms in buildings, were 3-methyl-1-butanol, 2-methyl-1-butanol, 3-methyl-2-butanone, 3-methyl-2-pentanone, dimethyl disulphide, -methylfuran, 2,5-dimethylfuran and geosmin. / <p>Diss. (sammanfattning) Umeå : Umeå universitet, 1995, härtill 5 uppsatser.</p> / digitalisering@umu Adsorbents Analysis Cultivation Determination Gas chromatography Identification Indicator substances Indoor air Mass spectrometry Metabolites Microbial volatile organic compounds Optimization Sampling Sick buildings Thermal desorption Aspergillus versicolor Cladosporium cladosporioides Paecilomyces variotii Pénicillium commune Phialophora fastigiata Streptomyces albidoflavus
346	Insect olfaction as an information filter for chemo-analytical applications Paczkowski, Sebastian 29 May 2013 (has links) Die Geruchswahrnehmung von Insekten ist an die spezifischen Anforderungen der Ökosysteme angepasst, in denen sie leben. Von Insekten wahrgenommene Volatile können Informationen über den Ort eines geeigneten Ovipositionsplatzes oder den physiologischen Zustand einer Wirtspflanze geben. Da der Geruchssinn der Insekten sich seit Millionen von Jahren an die Wahrnehmung bestimmter Volatile angepasst hat, können die wahrgenommenen Volatile als Markerstoffe angesehen werden, die zuverlässig einen Ökosystemzustand angeben können. Die Identifikation dieser Markerzustände und die Evaluation ihrer Nützlichkeit für spurenanalytische Anwendungen ist das Ziel dieser Arbeit. Es wurden drei Themen ausgewählt um die Verwendungsmöglichkeit des Insektengeruchssinns für Sensoranwendungen zu überprüfen: Fleischfrische, Todeszeitbestimmung (post mortem Intervall, PMI) und frühzeitige Feuererkennung. Spurenanalytik (GC-MS), Elektrophysiologie (EAG, GC-MS/EAD), Verhaltensversuche und Feldtests wurden angewandt, um die chemoökologische Interaktion der Schmeißfliege Calliphora vicina und der „Feuerkäfer“ Melanophila cuspidata, Merimna atrata and Acanthocnemus nigricans mit ihrer natürlichen Umgebung zu untersuchen. Die Resultate aus diesen Methoden erlaubten die Selektion von Volatilen, die drei Kriteria erfüllen: hohe Quantität, zuverlässige Emission und die ausschliessliche Emission von der untersuchten und keiner anderen Quelle. Diese drei Auswahlkriterien wurden aufgestellt um zu gewährleisten, dass die ausgewählten Markervolatile nicht nur zuverlässig mit dem physiologischen Status der Substrate (Alter von verderbendem Fleisch, PMI, Temperatur von erhitzten Spänen) korrelieren, sondern auch den Ansprüchen technischen Sensorsysteme genügen. Im Falle des alternden Fleisches unter warmen und trockenen Bedingungen ist Nonanal ein Zeiger für die korrekte Reifung des Fleisches zu Schinken. Dimethyl Trisulfid, Phenol und Indol zeigen das Verderben des Fleisches unter warmen und feuchten Bedingungen an. Bei niedrigen Temperaturen sind zunehmende 2,3 Butandiol Emission und abnehmende Nonanal Emission ein Zeiger für zunehmendes Verderben des Fleisches, sowohl unter trockenen als auch feuchten Bedingungen. Allerdings wurde 2,3 Butandiol nicht von C. vicina wahrgenommen, da die Fliege während der Vegetationszeit aktiv ist und unter diesen Bedingungen Dimethyl Trisulfid, Phenol und Indol emittiert werden. Nonanal, Hexanal, Dimethyl Disulfid, Dimethyl Trisulfid, Butan-1-ol und Phenol wurden als nützliche Volatile zur Eingrenzung der Leichenliegezeit ausgewählt. Die genannten Aldehyde sind typisch für die frühen Stadien der Verwesung, gefolgt von Butan-1-ol und den Schwefelsulfiden. Phenol wird hauptsächlich in den späteren Verwesungsstadien emittiert. Allerdings werden Phenol und 1-Butanol nicht von der Fliege wahrgenommen, da diese ein Generalist ist und nicht zwischen dem geblähten und aktivem Stadium der Verwesung unterscheiden muss. Daher wird zusätzlich die Geruchswahrnehmung des Speckkäfers Dermestes maculans betrachtet. Die Untersuchung anderer necrophager Insekten können weitere Einblicke in die Zeitabhängigkeit der Volatilemissionen während der Vertebratenverwesung geben. Die im Rahmen dieser Arbeit gewonnenen Ergebnisse erlauben eine Korrelation zwischen Emissionen und Leichenliegezeit und können eine Grundlage für eine volatilenbasierte post mortem Zeitbestimmung für Polizeikräfte sein. Terpene, aliphatische Aldehyde, Furfural und Methoxyphenole werden von erhitztem Holz emittiert. Komponenten aus all diesen Stoffklassen werden von M. cuspidata und M. atrata wahrgenommen, da diese Käfer den Erhitzungszustand von Baumstämmen nach einem Feuer erkennen können, um einen geeigneten Ovipositionsplatz zu finden. A. nigricans nimmt vor allem Methoxyphenole wahr, wohingegen M. atrata und M. acuminata Furfural zur Orientierung verwenden. Diese Unterschiede komplementieren das bekannte Verhalten dieser Käfer in ihrer natürlichen Umgebung, da A. nigricans auf verkohlten Stämmen, die große Mengen von Methoxyphenolen emittieren, seine Eier ablegt, und M. atrata und M. cuspidata auf Stämmen ihre Eier ablegen, die vom Feuer zwar äußerlich verkohlt, aber innerlich nur erhitzt wurden und daher Furfural emittieren. Halbleitergassensoren, die Furfural mit einer ausreichenden Selektivität vermessen können, können Holzbrände schon während ansteigender Temperatur und damit vor der Entzündung detektieren. Derartige Sensoren können sowohl als neuartige Frühwarnsysteme für die holzverarbeitende Industrie als auch für Waldbrandwarnsysteme oder den Haushalt dienen. 570 forensic science forensic chemo-ecology post mortem interval Calliphora vicina vertebrate decomposition VOC volatile organic compounds electrophysiology GC-MS GC-MS/EAD fire ecology Melanophila cuspidata Merimna atrata Acanthocnemus nigricans thermal oxidation wood wood combustion Forstwirtschaft (PPN621305413)
347	Design and Fabrication of Conjugated Molecule Based Resistive Sensor for Environmental Monitoring Detecting Targeted Analytes Mallya, Ashwini N January 2015 (has links) (PDF) Volatile organic compounds (VOCs) in air and heavy metal ions, anions, microorganism in water are environmental contaminants that require detection at certain low concentrations to avoid detrimental effects. Analytical instruments can accurately determine the concentration and composition of the contaminants at trace levels. However, these methods require skilled personnel to operate. Hence sensors should have fast response, low maintenance and easy to handle. In the present work, environmental monitoring sensor for volatile organic compounds, anion and E. coli was developed. The sensor is resistive sensor architecture with organic nanocomposite as sensing layer. The conjugated organic molecule with receptor moieties that can interact and exhibit affinity to each of the analyte was designed and synthesized. A new conducting polymer for sensing toluene, aldehyde is designed and fabricated. The sensor shows highest sensitivity and selectivity for targeted analyte. The sensor response is explained by molecular dynamics simulation. The solubility parameter of the new polymers is calculated by molecular dynamics and is used for elucidation of rationale of the mechanism for selectivity. The interaction energy of the sensing layer calculated by simulation is higher for targeted analyte than that for other analytes. The adsorption of vapors on the sensing layer results in volumetric change of the sensing layer. The effect can be experimentally determined by monitoring the thickness of the film and the change in the parameters such as mass change, capacitance, resistance change, refractive index change that occurs due to absorption of vapors in the polymers. Here, laser Doppler vibrometry, a non contact method is used to measure the displacement occurring due to interaction of a new polymer film with analyte vapors. A sensor for real time monitoring of nitrate ion concentration in water is fabricated. A new conjugated polymer is designed for selection of nitrate is used as a sensing molecule. The sensor is tested for various concentrations of nitrate ions and possible interferents effect. An organic nanocomposite based resistive sensor is designed and fabricated to detect E. coli in water. The organic molecule with receptor groups was selected such that receptor group would interact and exhibit affinity to the functional groups present on outer membrane of the cell wall of the E. coli. The resistance change is caused due to interaction and is because of E. coli acting as p-dopant to sensor molecule. The electrostatic interaction between positively charged amine groups on sensor molecule and negatively charged E. coli is believed to be the interaction mechanism. This work demonstrates that the conjugated molecules with suitable moieties can bind with analyte like VOCs, heavy metal ions, anions, microorganism, that can be used as sensing element in resistive sensor architecture. Volatile Organic Compounds Organic Sensors Conjugated Molecule Sensors Toluene Sensing Mechanism Poly (DTCPA-co-BHTBT) Polymer Nanocomposite Organic Nanocomposite Sensor Polymer Carbon Black Nanocomposite Polyaniline Materials Engineering
348	Matrices nanoporeuses pour la détection de métabolites volatils microbiens par transduction optique directe / Nanoporous materials for the detection of volatile microbial metabolites with direct optical transduction Vrignaud, Marjorie 10 November 2015 (has links) La présence de microorganismes peut être révélée par des métabolites volatils caractéristiques. Cette approche est particulièrement intéressante pour la détection non-invasive de pathogènes dans des échantillons complexes comme les matrices alimentaires, les échantillons sanguins, ou encore les plaies chroniques. Des capteurs nanoporeux à grande surface spécifique ont été préparés par voie sol-gel (xérogels) ; leur rôle est à la fois de capturer, concentrer et permettre une détection optique des Composés Organiques Volatils (COV) microbiens. Des capteurs dopés avec une molécule sonde, l'acide 5,5′ dithiobis 2 nitrobenzoïque, ont été développés pour mettre en évidence le sulfure d'hydrogène (H2S) produit par Salmonella, un pathogène d'intérêt dans le domaine de l'agroalimentaire. La capture d'H2S provoque un changement de couleur du capteur dès 5 ppm. Une partie du travail de recherche porte également sur la détection de métabolites dits « exogènes », libérés suite à l'hydrolyse d'un substrat enzymatique. C'est alors l'activité enzymatique qui est spécifique du micro-organisme ciblé. Deux COV exogènes sont envisagés : la β naphthylamine (β NA) et le 2 nitrophénol (2 NP). La première est issue d'activités enzymatiques peptidases, le second est issu d'activités glycosidases ou estérases. Pour ce dernier, une détection directe est possible dès 14 ppb grâce à son absorbance intrinsèque dans le visible. Après un travail sur la composition chimique des xérogels, une mise en forme originale par moulage des gels en forme de coin de cube permet une lecture de l'absorbance des xérogels en réflexion. Enfin, les capteurs obtenus ont été testés vis-à-vis de COV générés par 3 pathogènes: Salmonella, Escherichia coli et Staphylococcus aureus dans des matrices complexes (sang et échantillons alimentaires). / The presence of micro-organisms can be revealed by specific volatile metabolites. This approach is interesting for the non-invasive detection of pathogenic species in complex samples, such as food, blood or exudate. Nanoporous materials developing a high surface area have been prepared by sol-gel process (xerogels). They trap, concentrate and reveal the presence of microbial Volatile Organic Compounds (VOC) by means of an optical detection. Sensors have been doped with a probe molecule (5,5′ dithiobis 2 nitrobenzoic acid) in order to detect hydrogen sulfide emitted by foodborne pathogen Salmonella. The colour of sensor changes in the presence of 5 ppm of H2S. Another detection method is the use of enzymatic substrates which release exogenous VOCs. In this approach, the enzymatic activity is specific to the targeted pathogenic bacteria. Sensors have been developed for two exogenous VOCs: β naphthylamine (β NA) and 2 nitrophenol (2-NP). β NA is issued from peptidase activity, whereas 2 NP is produced by glycosidase or esterase activity. The latter can be detected above 14 ppb through absorbance in the visible region. The work focused both on the chemical composition of the xerogels and on their shape. After molding the xerogels into a trihedral prism (“corner reflector”), the absorbance can be easily monitored using the reflected light. VOCs produced by 3 pathogenic bacteria, Salmonella, Escherichia coli and Staphylococcus aureus, in complex media (blood and food samples) have been monitored with the obtained sensors. Sol-Gel Transduction optique Composés organiques volatiless (COV) Détection de bactéries Sulfure d’hydrogène 2-Nitrophénol Sol-Gel Optical transduction Volatile organic compounds (VOC) Bacteria detection Hydrogen sulfide 2-Nitrophenol 540
349	The impact of Beirut Rafic Hariri International Airport’s activities on the air quality of Beirut & its suburbs : measurements and modelling of VOCs and NO2 / Impact de l'aéroport Rafic Hariri sur la qualité de l'air de Beyrouth : mesure de modélisation des COVs et NO2 Mokalled, Tharwat 23 September 2016 (has links) Cette thèse étudie l’impact de l’Aéroport international de Beyrouth sur la qualité de l’air de Beyrouth et ses banlieues par mesures et modélisation des COVs et NO2. Il s’agit de la première étude qui identifie les signatures des émissions (COVs) issues des avions sous opération réelle. Grâce aux signatures détectées lors de 4 campagnes réalisées, nous constatons que l’aéroport a un impact sur la qualité de l’air de son voisinage, la zone côtière (trajectoire d’atterrissage), et les zones montagneuses. Ces résultats sont confirmés via le modèle ADMS-Airport, utilisé pour la première fois au Moyen-Orient et validé pour les conditions libanaises (r = 0.86). Par ailleurs, les concentrations de 47 COVs ont été mesurées pour la première fois à l'intérieur d’un bâtiment de l'aéroport. Les teneurs en COVs qui sont corrélées au nombre d’avions sont en dessous des valeurs seuils sauf pour l'acroléine alors que la celle de NO2 peut constituer un danger pour la santé. / This work mainly investigated the impact of Beirut Airport on the air quality of Beirut and its suburbs via both measurements and modeling of VOCs and NO2. This is the first study to determine VOC signatures of exhaust emissions from aircraft under real operation. Using these signatures, the impact of the airport activities was tracked in 4 transect campaigns, where it was found that the airport impacts air quality not only in its vicinity, but also on the seashore (landing jet trajectory) and in mountainous areas. These results were confirmed via modeling with ADMS-Airport, implemented for the first time in the Middle East, after being validated in the Lebanese conditions (r = 0.86). As a secondary goal, and for the first time, 47 VOCs were assessed inside an airport building. Measured VOC levels did not present any risks except for acrolein. In the arrivals hall, NO2 levels indicated a health hazard; while a direct relationship was found between aircraft number and VOC concentrations. Aéroport Composés organiques volatils Dioxyde d’azote Métrologie Air ambiant Air intérieur Inventaire des emissions Airport Volatile organic compounds Nitrogen dioxide Meteorology Ambient air Indoor air Emissions inventory 543
350	Design gr?fico da pluma de contamina??o por compostos org?nicos vol?teiss utilizando software CAD na investiga??o de passivo ambiental em um posto revendedor de combust?veis em Natal/RN Aquino Sobrinho, Hercules Lisboa de 31 January 2011 (has links) Made available in DSpace on 2014-12-17T14:08:48Z (GMT). No. of bitstreams: 1 HerculesLAS_DISSERT.pdf: 3304337 bytes, checksum: 041717a4cfd116130802eab3678923c7 (MD5) Previous issue date: 2011-01-31 / Among the potentially polluting economic activities that compromise the quality of groundwater are the gas stations. The city of Natal has about 120 gas stations, of which only has an environmental license for operation. Discontinuities in the offices were notified by the Public Ministry of Rio Grande do Norte to carry out the environmental adaptations, among which is the investigation of environmental liabilities. The preliminary and confirmatory stages of this investigation consisted in the evaluation of soil gas surveys with two confirmatory chemical analysis of BTEX, PAH and TPH. To get a good evaluation and interpretation of results obtained in the field, it became necessary three-dimensional representation of them. We used a CAD software to graph the equipment installed in a retail service station fuel in Natal, as well as the plumes of contamination by volatile organic compounds. The tool was concluded that contamination is not located in the current system of underground storage of fuel development, but reflects the historical past in which tanks were removed not tight gasoline and diesel / Dentre as atividades econ?micas potencialmente poluidoras que comprometem a qualidade das ?guas subterr?neas est?o os Postos Revendedores de Combust?veis. A cidade do Natal possui cerca de 120 postos de combust?veis, dos quais, apenas um possui licen?a ambiental de opera??o. Os postos em desconformidade foram notificados pelo Minist?rio P?blico do Rio Grande do Norte para realizarem as adequa??es ambientais, dentre as quais est? a investiga??o de passivo ambiental. As fases preliminar e confirmat?ria desta investiga??o consistiram na avalia??o de gases do solo com duas sondagens confirmat?rias para an?lises qu?micas de BTEX, HPA e TPH. Para obter-se uma boa avalia??o e interpreta??o dos resultados obtidos no campo, se fez necess?rio a representa??o tridimensional dos mesmos. Utilizou-se um software CAD para representar graficamente os equipamentos instalados em um posto revendedor de combust?vel em Natal/RN, assim como as plumas de contamina??o por compostos org?nicos vol?teis. A partir desta ferramenta foi poss?vel concluir que a contamina??o n?o est? localizada no atual Sistema de Armazenamento Subterr?neo de Combust?vel do empreendimento, mas reflete o hist?rico passado em que foram removidos tanques n?o estanques de gasolina e diesel Postos de combust?veis Software CAD Pluma de contamina??o Compostos org?nicos vol?teis Design gr?fico tridimensional Fuel stations CAD software Plume contamination Volatile organic compounds Three dimensional graphic design CNPQ::ENGENHARIAS

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