Odhad infiltrace ultrajemných částic aerosolu pomocí metody absorbance: Kvality ovzduší ve školách / Estimating infiltration of quasi-ultrafine aerosol by the absorbance method: Air quality in schools

Stehlíková, Pavla

January 2010

Estimating infiltration of quasi-ultrafine black carbon particles by an absorbance method: air quality in Pavla Stehlíková Abstract This diploma thesis focused on the estimating quasi-ultrafine particles amount in school gyms continue previous study researched air quality in schools. The size-segregated mass concentration of particulate matter was measured in three elementary school gyms in central part of Prague, on periphery of Prague and in a small settlement Černošice during twenty campaigns, from 2005 to 2009. The mass concentration of particulate matter were measured by 5-staged Sioutas impactor. For this thesis we have selected samples on filters with particle size <0,25µm. To evaluate carbonaceous particles amount we used reflectance. Reflectance was transformed into an absorption coefficient (m- 1 .10-5 ). The average levels of absorptions coeficients were higher outdoors (14,66 ± 8,93 m- 1 .10-5 ) than indoors (13,64 ± 8,08 m-1 .10-5 ). The correlations between absorption coeffitients outdoors and indoors were significant for all schools (Spearman's correlation coefficient at intervals 0,834-0,957, regression slope 0,759-1,007), suggesting a high outdoor-to-indoor penetration rate. The weak correlation between absorption coefficients and number of exercising pupils (correlation coefficient 0,059)...

The Effects of Ultrafine Particulate Matter on Respiratory and Mental Health in a Population of Asthmatic Adolescents

Turner, Ashley L.

05 October 2021

No description available.

Environmental Health

respiratory health

ultrafine particles

personal exposure

mental health

pediatric health

ecological momentary assessment

Bench- and Pilot-Testing of Sieving Electrostatic Precipitator

Khan, Zahirul Hasan

27 August 2007

No description available.

SIEVING ESP

ULTRAFINE PARTICLES

FLY ASH BENEFICIATION

AGGLOMERATOR

CORONA WIND

EPA PM2.5

Les métaux lourds associés aux particules atmosphériques fines et ultrafines d'une zone industrielle : caractérisation physicochimique et bioaccessibilité / Heavy metals in fine and ultrafine atmospheric particles from an industrial area : physicochemical characterization and bioaccessibility

Mbengue, Saliou

12 December 2013

L'exposition aux particules fines et ultrafines, pouvant contenir des éléments métalliques, est un sujet de préoccupation sanitaire majeure, notamment dans les zones fortement industrialisées. Cette thèse a consisté à mieux caractériser la fraction métallique des particules fines et ultrafines émises dans un contexte industrialo-urbain (Littoral dunkerquois) et à déterminer leur bioaccessibilité pulmonaire, en lien avec l'impact sanitaire. Des particules ont été collectées selon leur granulométrie dans des environnements très contrastés : (i) en milieu urbain sous l'influence du trafic automobile et d'émissions industrielles et (ii) à proximité immédiate et à la source même d'une usine de ferromanganèse (Glencore), caractéristique de l'activité industrielle du dunkerquois. La bioaccessibilité pulmonaire des éléménts métalliques a été déterminée par une extraction avec un fluide pulmonaire synthétique (solution "Gamble") et comparée avec une méthode d'extraction séquentielle. En milieu urbain, les concentrations élémentaires dans les particules ultrafines sont principalement liées aux sources locales (issues d'émissions de véhicules ou de chauffage). Les particules submicroniques (< 1µm) sont elles, principalement affectées par les sources industrielles, notamment la métallurgie, principale émettrice de métaux particulaires de la zone industrielle. Les autres sources identifiées par les traceurs métalliques sont la pétrochimie, la combustion des fiouls lourds et des charbons et les sources naturelles (terrigène et marine). Une variabilité temporelle importante des concentrations en masse des particules fines et ultrafines et de leurs teneurs en éléments métalliques a été observée, en cheminée et en champ proche de l'usine de ferromanganèse. Les fortes concentrations en particules ultrafines (PM₀,₁ : 60% de la masse des PM₂,₅), enrichies en métaux de cheminée, diminuent rapidement à proximité immédiate de l'usine, dû au changement rapide des conditions de température et d'humidité induisant des transformations précoces de la matière particulaire. Ce travail a permis par ailleurs de montrer que la bioaccessibilité des métaux associés aux particules est variable selon les propriétés physicochimiques des particules (spéciation chimique des métaux et distribution granulométrique), en lien avec leurs origines et leurs processus de formation. La bioaccessibilité des métaux peut aussi être affectée par des transformations physico-chimiques (mélange/agglomération, agrégation, oxydoréduction...) des particules fines durant leur transport atmosphérique. L'estimation in-vitro de la bioaccessibilité permet de mieux comprendre la biodosponibilité des métaux dans l'organiqme et donc de mieux appréhender l'impact sanitaire des métaux toxiques. / Exposure to metals from fine and ultrafine particles is of major health concern, especially in heavily industrialized areas. This thesis aims to better characterize the metal fraction of fine and ultrafine particles emitted in an industrial-marked urban context (Dunkirk harbour) and to determine their lung bioaccessibility, in relation with their health impact. Particles were collected according to their size in specific environments : (i) in an urban area influenced by traffic and industrial emissions and (ii) at the stacks and in the vicinity of a ferromanganese plant (Glencore), characteristic of the industrial activity in Dunkirk. Pulmonary bioaccessibility of metals was determined using a synthetic lung fluid (Gamble solution), and compared to a sequential extraction method. In the urban area, the elemental concentrations in ultrafine particles are primarily related to lacal sources (traffic and housse heating), while submicronic particles (< 1µm) are mainly affected by industrial sources, especially metallurgical plants, the main source of particulate metals in the industrial area. The other sources identified are petrochemistry, coal and heavy-fuels burning and natural sources (sea salts and crustal particles). A high temporal variability of fine and ultrafine particles mass concentrations and of their metal contents was observed at the stacks and in the close environment of the ferromanganese plant. The high concentrations of ultrafine particles (PM₀,₁ : 60% of the total PM₂,₅ mass), enriched in metals, as observed in stack flues, decrease rapidly in the vicinity of the plant, due to the changes in temperatureand humidity, inducing rapid transformations. The metal bioaccessibility varies according to the particle properties (metals chemical speciation and particle size distribution), depending on their origin and formation processes. This metal bioaccessibility may also be affected by physicochemical transformations of fine particles occuring during atmospheric transport (mixing/agglomeration, aggregation, oxidation or reduction processes). The in-vitro bioaccessibility assessment is of interest to better understand the metal bioavailability and thus for a better appreciation of the health impact of toxic metals.

Particules fines et ultrafines

Métaux particulaires

Distribution granulométrique

Sources

Bioaccessibilité

Fine and ultrafine particles

Particulate metals

Size distribution

Sources

Bioaccessibility

Environmental Factors in Relation to Asthma and Respiratory Symptoms among Schoolchildren in Sweden and Korea

Kim, Jeong-Lim

January 2006

<p>This thesis studied environmental factors in relation to asthma and respiratory symptoms among schoolchildren in two countries. In Sweden, 1014 pupils (5-14 year) in 8 schools participated. Wheeze was reported by 7.8%, current asthma by 5.9%, doctor-diagnosed asthma by 7.7%, cat allergy by 6.8% and dog allergy by 4.8%. Current asthma was less common among those consuming more fresh milk and fish. Doctor-diagnosed asthma was less common among those consuming olive oil. Cat, dog and horse allergens were common in settled dust and related to respiratory symptoms. Pupils consuming butter and fresh milk had less respiratory symptoms in relation to allergen exposure. In schools with increased levels of microbial volatile organic compounds and selected plasticizers (Texanol and TXIB) asthma and respiratory symptoms were more common.</p><p>In Korea, 2365 pupils (9-11 year) in 12 schools participated (96%). In total, wheeze was reported by 8.0%, current asthma by 5.7%, doctor-diagnosed asthma by 5.4%, cat allergy by 2.6% and dog allergy by 4.9%. Contamination of dog and mite (<i>Dermatophagoides farinae</i>) allergen was common while cat allergen was uncommon. Remodelling, changing floor and building dampness at home were positively associated with asthma and respiratory symptoms. The strongest associations were found for floor dampness. Indoor/outdoor concentration of NO₂, formaldehyde and ultrafine particles (UFP) at schools were positively associated with asthma and respiratory symptoms. </p><p>When comparing Sweden and Korea, Korean pupils had more breathlessness and asthma but reported less cat and pollen allergy. Swedish schools had CO₂-levels below 1000 ppm, while most Korean schools exceeded this standard. Since both home and school environment may affect pupil’s asthma and respiratory symptoms, air quality should be an important health issue. Moreover, changes in dietary habits may be beneficial to decrease asthma and allergies. Furthermore, interaction between diet and environment needs to be further investigated.</p>

Medical sciences

Allergen

allergy

asthma

dampness

diet

environment

formaldehyde

nitrogen dioxide

plasticizer

schoolchildren

ultrafine particles

MEDICIN OCH VÅRD

Environmental Factors in Relation to Asthma and Respiratory Symptoms among Schoolchildren in Sweden and Korea

Kim, Jeong-Lim

January 2006

This thesis studied environmental factors in relation to asthma and respiratory symptoms among schoolchildren in two countries. In Sweden, 1014 pupils (5-14 year) in 8 schools participated. Wheeze was reported by 7.8%, current asthma by 5.9%, doctor-diagnosed asthma by 7.7%, cat allergy by 6.8% and dog allergy by 4.8%. Current asthma was less common among those consuming more fresh milk and fish. Doctor-diagnosed asthma was less common among those consuming olive oil. Cat, dog and horse allergens were common in settled dust and related to respiratory symptoms. Pupils consuming butter and fresh milk had less respiratory symptoms in relation to allergen exposure. In schools with increased levels of microbial volatile organic compounds and selected plasticizers (Texanol and TXIB) asthma and respiratory symptoms were more common. In Korea, 2365 pupils (9-11 year) in 12 schools participated (96%). In total, wheeze was reported by 8.0%, current asthma by 5.7%, doctor-diagnosed asthma by 5.4%, cat allergy by 2.6% and dog allergy by 4.9%. Contamination of dog and mite (Dermatophagoides farinae) allergen was common while cat allergen was uncommon. Remodelling, changing floor and building dampness at home were positively associated with asthma and respiratory symptoms. The strongest associations were found for floor dampness. Indoor/outdoor concentration of NO2, formaldehyde and ultrafine particles (UFP) at schools were positively associated with asthma and respiratory symptoms. When comparing Sweden and Korea, Korean pupils had more breathlessness and asthma but reported less cat and pollen allergy. Swedish schools had CO2-levels below 1000 ppm, while most Korean schools exceeded this standard. Since both home and school environment may affect pupil’s asthma and respiratory symptoms, air quality should be an important health issue. Moreover, changes in dietary habits may be beneficial to decrease asthma and allergies. Furthermore, interaction between diet and environment needs to be further investigated.

Medical sciences

Allergen

allergy

asthma

dampness

diet

environment

formaldehyde

nitrogen dioxide

plasticizer

schoolchildren

ultrafine particles

MEDICIN OCH VÅRD

Séparation des particules ultrafines métalliques par lits granulaires / Metallic nanoparticles separation by granular beds

Wingert, Loïc

01 March 2017

Les particules ultrafines (PUF) sont de nos jours susceptibles de se retrouver massivement dans l’air des lieux de travail et dans l’environnement, notamment de par leur génération non-intentionnelle par certains procédés industriels. Du fait de la toxicité de plus en plus avérée de ces particules, l’air contaminé doit être extrait des lieux de travail et filtré avant d’être rejeté dans l’atmosphère. Les filtres classiquement utilisés sont des filtres à fibres plissés présentant l’inconvénient vis-à-vis des PUF d’être rapidement et irréversiblement colmatés. Afin de trouver une alternative à ces filtres, il a été décidé d’étudier les lits granulaires. Pour ce faire, la cinétique de colmatage des lits granulaires par des PUF a dans un premier temps été étudiée à l’échelle macroscopique et microscopique par suivi des évolutions des performances ainsi qu’en procédant à des observations de structure de dépôt. Evaluer la capacité des lits granulaires à se positionner en tant qu’alternative aux médias fibreux peut nécessiter la connaissance des performances des lits granulaires dans un grand nombre de configurations. Pour s’affranchir des expériences correspondantes, un modèle théorique de prédictions des performances des lits granulaires en cours de colmatage a été développé. Ce modèle a par la suite permis par une optimisation multicritère de trouver la configuration optimale d’un lit granulaire amélioré. Enfin, des essais préliminaires très prometteurs d’une manche granulaire permettant d’augmenter la surface de filtration et l’efficacité de collecte ont posé les bases d’une potentielle utilisation des lits granulaires pour la filtration de PUF dans l’industrie / The air of workplaces and the environment can be contaminated by ultrafine particles (UFP) coming mainly from a non-intentional generation emitted by some industrial processes. The toxicity of these particles being more and more admitted nowadays, the polluted air of the workplaces has to be extracted and filtered in order to protect the workers and the public, respectively. The commonly used filters are pleated fiber filters which are rapidly and sometimes irreversibly clogged by the UFP. In order to find an alternative to these pleated filters, it was decided to study the granular beds. To do so, the clogging kinetic of granular bed by UFP was studied. This was achieved by conducting both macroscopic and microscopic studies of the granular bed clogging consisting in the monitoring of the evolution of the performances and in performing visualizations of UFP deposit structures. Evaluate the ability of granular beds to be an alternative to fiber filters can require the knowledge of the granular bed performances evolution for a large number of configurations. In order to avoid the realization of the corresponding experiments, a theoretical model was developed. Then, this model permitted by a multi-criteria optimization method to find the optimal configuration of an improved granular bed. Finally, some preliminary and very promising tests of a cylindrical granular bed filter permitting to increase the surface filtration and the collection efficiency laid the groundwork of a potential use of granular beds for the industrial UFP filtration

Filtration

Particules ultrafines

Lit granulaire

Colmatage

Perte de charge

Efficacité

Filtration

Ultrafine particles

Granular bed

Clogging

Pressure drop

Efficiency

660.284 245

Particules ultra-fines et santé : caractérisation des particules ultra-fines dans l'air et dans les tissus humains / Ultrafine particles and health : characterization of ultrafine particles in air and human tissues

Rinaldo, Mickaël

21 December 2015

Les études épidémiologiques sur les effets de la fraction ultrafine de la pollution particulaire et les études sur la toxicité in vitro et in vivo des nanoparticules manufacturées témoignent d’un danger potentiel pour l’homme en raison de nouvelles propriétés physico-chimiques de la matière à l’échelle nanométrique. L’évaluation du risque lié à des expositions professionnelles ou environnementales ou le diagnostic d’un lien causal entre ces expositions et d’éventuelles pathologies peuvent être limités par l’absence de méthode de référence pour caractériser et quantifier les particules nanométriques dans les tissus et fluides biologiques. Ce travail a permis de mettre au point une méthode remplissant ces objectifs, basée sur la préparation des échantillons par digestion alcaline et microfiltration et sur l’analyse en microscopie électronique analytique. L’application de cette méthode dans deux études a permis de confirmer qu’une translocation des particules nanométriques était possible d’une part au niveau pleural avec concentration dans les black spots et d’autre part à travers le placenta avec une possible exposition du foetus. Ce travail a également permis de caractériser des sources d’expositions professionnelles ou environnementales aux particules nanométriques. Sous réserve d’optimiser le coût et le temps nécessaire pour ce type d’analyse, cette méthode pourrait permettre de définir des valeurs de référence sur des échantillons plus larges et représentatifs de la population générale ou être utilisée dans le cadre de la surveillance de travailleurs exposés. / Epidemiologic studies on the health effects of ultrafine particles from atmospheric pollution and in vitro or in vivo studies on manufactured nanoparticles toxicity suggest that potential hazards may result from new physico-chemical properties of materials at nanometric scale. To assess human health risk after occupational or environmental exposure or to demonstrate a causal relationship between such exposures and diseases may be hindered by the lack of reference method to characterize and quantify nanometric particles in biological tissues and fluids. This work allowed us to develop such a method based on samples preparation by alkaline digestion and microfiltration followed by analytical electron microscopy analysis. This method applied in two studies allowed us to confirm that pleural translocation of nanometric particles and accumulation in black spots were possible in human and that they also may pass through the placental barrier with potential fetal exposure. This work also allowed us to characterize some sources of occupational and environmental exposures. After time-cost optimization of this method, it could be used to define reference values on larger population-representative samples or used for the medical follow-up of exposed workers.

Particules ultrafines

Nanoparticules

Biométrologie

Métrologie

Translocation

Nanoparticles

Ultrafine particles

Biological monitoring

Metrology

Transmission electron microscopy

Translocation

The effect of ultrafine particles on the interfacial and hydrodynamic properties of multiphase systems

Eftekhari, Milad

11 January 2024

Ultrafine particles are relevant to many practical applications, including froth flotation, emulsion and foam formation, printing, and drug delivery. Such particles have tremendous effect on the interfacial and hydrodynamic properties of the multiphase systems both in static and dynamic conditions. Combining experimental and theoretical approaches, this research scrutinizes a multidisciplinary subject focusing on hydrodynamic and physicochemical characteristics of the ultrafine particles at fluidic interfaces. In particular, the effect of ultrafine particles on the (i) surface activity of the surfactants of different charges, (ii) mobility of the interfaces, and (iii) kinetics of particles attachment are investigated. In the first part of this thesis the effect of negatively charged silica nanoparticles, as model particles for ultrafine particles, on the interfacial behavior of the cationic surfactant (CTAB) is investigated using Profile Analysis Tensiometry (PAT). The results indicate that neither surfactant concentration nor NPs alone can determine the surface tension of the system, and that the ratio of surfactants to nanoparticles is the decisive factor. Below a critical ratio, the surface tension values remain relatively constant as the free surfactant molecules are completely depleted from the solution due to the formation of nanoparticle-surfactant complexes. Above this critical ratio, the number of free surfactant molecules increases as the surfactant concentration increases, causing the surface tension to decrease. In this regime, free surfactant molecules and nanoparticle-surfactant complexes coexist and can co-adsorb at the interface. This is demonstrated by combining high amplitude compression and dynamic surface tension measurements. Furthermore, the effect of negatively charged nanoparticles on the surface activity of anionic surfactant (SDBS) in an aqueous phase is studied. Although recent studies indicate that nanoparticles increase the surface activity of surfactants through electrostatic repulsive forces, it is observed that the surface activity of surfactants is mainly affected by the change in ionic strength of the system due to the presence of nanoparticles. Several characteristic parameters including the equivalent concentration of the surfactant and the critical micelle concentration (CMC) are theoretically calculated and further employed to validate experimental observations. Based on the obtained results, a criterion to estimate the possible influence of the electrostatic repulsive forces for nanoparticles of different sizes and mass fractions is introduced. In the next step, the effect of ultrafine particles on the mobility of interfaces is investigated. The shear stress of the axisymmetric flow field triggers a nonuniform distribution of the surfactants at the surface of a rising bubble, known as stagnant cap, which gives rise to Marangoni stress that can reduce the mobility of the interface. The conditions in technological processes; however, usually deviate from the linear rise of a single bubble in a quiescent unbounded liquid. Asymmetric shear can act on the bubble surface due to the vorticity in the surrounding flow, or due to the bubble-bubble interactions, which can significantly change the surfactant distribution at the interface. To better understand this effect, Particle Image Velocimetry (PIV) is applied in an experimental setup that is specifically designed to study the hydrodynamics of bubbles and droplets and their interfacial mobility under asymmetric shear flow. Series of PIV experiments are performed with a buoyant bubble/pendant drop at the tip of a capillary placed in a defined shear flow in the presence of surfactants and nanoparticles. A direct experimental observation of the circulating flow at the interface under asymmetric shear, which prevents the formation of the typical stagnant cap is observed. The results show that the interface remains mobile under these conditions regardless of the surfactant concentration. The response of the interface to the surrounding asymmetric flow under successive reduction of the surface area revealed that in the presence of nanoparticles, a contiguous network of particles forms at the interface through densification of surface structures that can drastically change the interfacial mobility of the bubbles and drops. The immobilization is characterized by a dimensionless number, defined as the ratio of the interfacial elasticity to bulk shear forces, which provides an estimate of the interfacial forces required to impose interfacial immobility at a defined flow field. In the last part of this thesis, the kinetics of particles attachment to a buoyant bubble is investigated. The results showed that the technique can be used to investigate the floatability of different particles as a function of various parameters such as hydrophobicity, particle size, and number density. Furthermore, a specific setup was developed to collect the attached particles and measure their mass and size distribution after collection. For a monomodal particle system, the results indicated almost identical size distribution before and after collection with a slight shift to smaller sizes after collection. For a bimodal particle system, on the other hand, results showed that the majority of the collected particles belong to smaller fractions. Next, the effects of ultrafine particles on the kinetics of particle attachment and the distribution and mobility of particles on the bubble surface is studied. It is shown that the ultrafine particles can increase the attachment rate of fine particles and at the same time decrease their packing density. The presence of ultrafine particles at the interface strongly influenced the distribution of the fine particles on bubble surface. The effect is more pronounced for pre-compressed bubbles, where the dense layer of ultrafine particles on the bubble surface completely prevents the attachment of the fine particles. It is also observed that the mobility of the fine particles at the interface changes significantly when ultrafine particles are adsorbed on the bubble surface.

info:eu-repo/classification/ddc/660

ddc:660

Stratégies analytiques pour la caractérisation physico-chimique des particules ultrafines métalliques. Application aux aérosols ultrafins générés lors de procédés thermiques (fonderie, projection thermique). / Analytical strategies for the physico-chemical characterization of metallic ultrafine particles. Application to the ultrafine aerosols generated during thermal processes (smelter, thermal projection)

Durand, Thibaut

30 June 2014

Dans l’industrie, les sources d’expositions aux particules ultrafines (PUF) sont nombreuses et connues depuis longtemps. Ces particules quelles soient manufacturées ou non intentionnelles (générées au cours de procédés industriels) présentent des propriétés singulières qui impliquent des effets sur la santé différents de ceux induits par des particules de plus grande taille (micrométrique). L’étude spécifique des PUF nécessite donc le développement de méthodes de prélèvement et d’analyse adaptées permettant d’obtenir des informations pertinentes complémentaires à la masse totale de poussières prélevées. Cette métrique semblerait insuffisante pour caractériser correctement les effets toxiques des PUF. La thèse a donc été menée dans l’optique de disposer de méthodes dédiées à l’analyse des nanoparticules et en particulier sur la caractérisation chimique des particules en fonction de leur taille (couplage entre dispositifs de prélèvement en fonction de la taille des particules et méthode d’analyse). Les méthodes développées ont ensuite été testées sur des échantillons provenant soit de sites et/ou procédés industriels (fonderie, projection thermique) soit d’essais en laboratoire par prélèvement sur banc de génération de PUF. / Expositions to nanoparticles (NPs) are known in industrial hygiene for a long time. Either from primary or secondary sources (industrial processes), these particles have specific properties which imply different toxicities compared to larger particles (micrometric) from the same material. Therefore NPs study requires adapted sampling and analytical technique development and more specifically methods allowing to access relevant information other than total dust mass. The latter seems not be sufficient for toxic effect assessment. Thus, this work has been conducted in order to dispose of analytical methods dedicated to NPs and especially on size-dependent particle chemical analysis. Then, the developed methods have been applied on samples collected either from industrial sites and/or processes (smelter, thermal projection), either from NP generation bench.

Particules ultrafines

Caractérisation physico-chimique

ICP-MS

Ablation laser

Projection thermique

Ultrafine particles

Physico-chemical Characterization

ICP-MS

Laser ablation

Thermal projection