Aerosols of Isocyanates, Amines and Anhydrides : Sampling and Analysis

Dahlin, Jakob

January 2007

This thesis presents methods for air sampling and determination of isocyanates, amines, aminoisocyanates and anhydrides. These organic compounds are generated during thermal degradation of polymers such as polyurethane (PUR) or epoxy. Isocyanates, amines and anhydrides are airway irritants known to cause occupational asthma. Some of the compounds are listed as human carcinogens. Many workers are exposed. Isocyanates and anhydrides are reactive and needs to be immediately derivatized during sampling. Methods have been developed for determination of airborne isocyanates, aminoisocyanates and anhydrides using di-n-butylamine (DBA) as reagent to form stabile urea derivatives or amide derivatives. Liquid chromatography-tandem mass spectrometry (LC-MS/MS) enabled detection limits as low as 10 attomoles. A nitrogen-selective LC-detector enabled quantification of DBA-derivatives in reference solutions. A novel sampler is presented. The sampler consists of a denuder in series with a three-stage cascade impactor and an end filter. The sampler made it possible to reveal the distribution of isocyanates between gas and different particle size fractions. During thermal degradation of PUR, isocyanates were associated to particle size fractions (<1 µm) that may penetrate to the lower airways. The distribution during 8 minutes changes noticeably. Aromatic isocyanates become associated to small particles (<1 µm). As a reference method, air-sampling was performed using an impinger filled with di-n-butylamine (DBA) in toluene, connected in series with a glass fiber filter. There was a good agreement between the denuder-impactor sampler and the reference method.

isocyanate

amine

aminoisocyanate

organic acid anhydride

denuder

impactor

impinger

air sampling

LC-MS

LC-CLND

di-n-butylamine

DBA

thermal degradation

aerosol

particles

TDI

MDI

HDI

ICA

MIC

IPDI

exposure

occupational health

Analytical chemistry

Analytisk kemi

Étude de prévalence et associations des gènes de virulence et résistance aux antimicrobiens d’Escherichia coli de la flore intestinale du poulet sain

Kaboré, Kiswendsida Paul

08 1900

Les Escherichia coli pathogènes de la volaille (APEC) font partie des E. coli extra-intestinaux pathogènes (ExPEC) et seraient un réservoir possible de gènes de virulence et de résistance aux antimicrobiens (RAM) des ExPEC chez l’humain. L’objectif de cette étude était d’évaluer l’effet d’un prébiotique et d’un mélange d’acide organique et d’huiles essentielles encapsulés sur la prévalence des gènes de virulence des ExPEC et de RAM, ainsi que les associations entre ces gènes chez E. coli de l’intestin du poulet sain. Des échantillons de contenus caecaux de poulets de 29 jours d’âge ayant reçu un de ces ingrédients alimentaires comparativement à des témoins ont été analysés pour la présence des gènes de virulence iucD, tsh, papC et des gènes de RAM blaTEM, blaSHV, tetA, tetC, blaCMY-2, aadA1, aac3 par PCR. La prévalence d’iucD était supérieure dans le groupe témoin comparativement aux groupes «prébiotique» et «acide organique» et la prévalence de papC était affectée dans le groupe «acide organique». La prévalence d’isolats d’E.coli positifs pour blaCMY-2 était supérieure dans le groupe témoin comparée aux groupes «prébiotique» et «acide organique», tel que démontré par la technique d’hybridation de l’ADN sur HGMF (Hydrophobic Grid Membrane Filter). De plus, la prévalence des isolats d’E. coli positifs pour tetA, blaTEM, aadA1 ou tsh était affectée par les ingrédients alimentaires. Dans l’ensemble, des associations entre la présence de tsh et iucD, blaTEM et aadA1, et iucD et blaCMY-2 ont été observées. .Cette étude démontre l’utilité de certains ingrédients alimentaires pour dimunier le risque d’exposition en santé publique. / Avian Pathogenic E. coli (APEC) belong to the extra-intestinal pathogenic E. coli (ExPEC) pathotype, and may be a virulence and antimicrobial resistance (AMR) gene reservoir for ExPEC in humans. The aim of this study was to evaluate the effect of addition to the feed of a prebiotic or an organic acid on the prevalence of ExPEC-associated virulence genes and antimicrobial resistance (AMR) genes and the association between these genes in E. coli of the intestinal microflora of healthy chickens. Caecal contents from 29-day-old chickens having received one of these feed ingredients in comparison to a control group were examined for the presence of virulence genes iucD, tsh, and papC and AMR genes blaTEM, blaSHV, tetA, tetC, blaCMY-2, aadA1, and aac3 by PCR. The prevalence of iucD was significantly higher in the control group than in the prebiotic and organic acid groups and prevalence of papC was affected by the use of the organic acid. The prevalence of blaCMY-2-positive E. coli isolates was higher in the control group than the prebiotic or organic acid groups, as demonstrated by Hydrophobic–grid membrane filter (HGMF) DNA probe colony hybridization. In addition, the prevalence of E. coli isolates positive for tetA, blaTEM, aadA1 or tsh was affected by the use of these feed ingredients. Overall, associations between the presence of iucD and tsh, blaTEM and aadA1, and iucD and blaCMY-2 were observed. This study demonstrates that the use of certain feed ingredients could reduce the risk of exposure in a public health perspective.

Gènes de résistance aux antimicrobiens

Gènes de virulence

Poulets sains

E. coli caecaux

Ingrédients alimentaires prébiotiques

Acide organique

Antimicrobial resistance genes

Virulence genes

Healthy chickens

Caecal E. coli

Feed ingredients prebiotic

Organic acid

ExPEC

APEC

HGMF

PCR

Étude d'un procédé hybride de séparation couplant l’électrodialyse à membrane bipolaire et l’échange d'ions : application à la valorisation de solutions diluées d'acide organique / Study of a hybrid separation process coupling bipolar membrane electrodialysis and ion exchange : Application to dilute organic acids recovery

Jaouadi, Meyssa

29 October 2016

Le présent travail est dédié à l’étude d’un procédé hybride couplant l’électrodialyse à membrane bipolaire et l’échange d’ions. Cette étude est appliquée au traitement de solutions diluées d’acide acétique. L’objectif est double : acquérir une compréhension théorique des processus de transfert et des mécanismes qui impactent la consommation énergétique de ce système hybride et, de façon plus appliquée, proposer une configuration de cellule qui permette d’éliminer l’acide de la solution traitée en la transférant vers un compartiment de concentration. Cette configuration doit permettre d’obtenir le taux de purification le plus élevé possible tout en minimisant la consommation d’énergie. Des critères visant à optimiser le choix des résines échangeuses d’ions (fortes ou faibles) dans les compartiments de dilution sont proposés. L’intérêt de l’utilisation d’une résine cationique forte sous forme H+ dans le compartiment de concentration est par ailleurs mise en évidence, conduisant à une diminution de la résistance du compartiment et de ce fait de la consommation d’énergie. Une étude réalisée sur des systèmes « couplés » et « découplés » a permis d’identifier les contributions résistives des différents éléments de l’empilement. Cette approche a conduit à la détermination des paramètres d’un modèle qui permet de prévoir la résistance électrique d’un lit de résine dans une solution donnée. Les consommations spécifiques d’énergie (kWh/kg d’acide transféré) ont été évaluées en fonction du taux de purification souhaité. L’ensemble de l’étude a permis d’établir des recommandations pour la conception de la cellule et pour le choix des paramètres opératoires. / This work is dedicated to the study of a hybrid separation process involving bipolar membrane electrodialysis and ion exchange. This study is applied to the treatment of diluted effluents. The aim is first to acquire a theoretical understanding of transfer processes and mechanisms that affect energy consumption of this hybrid system. Then, in a more applied way, the objective is to be able to propose a cell configuration that allows to remove the acid from the treated solution by transferring it to a concentration compartment. This configuration must allow to obtain the highest purification rates as possible while minimizing energy consumption. Criteria aiming at optimizing ion exchange resins (strong or weak) in dilution compartment are proposed. The interest of the introduction of strong cationic resin under H+ form in the concentrated compartment is highlighted, as it enables reducing compartment resistance and hence energy consumption. Furthermore, experimental measurements successively conducted with “decoupled” and “coupled” systems identified resistive contributions of the different elements of the stack. This approach led to the determination of parameters of a model which predicts the resin bed electrical resistance in a given solution. Specific energy consumption (kWh/Kg transferred acid) was evaluated as a function of the desired purification rate. All the work led to recommendations for the cell design and for the choice of operating parameters.

Procédé hybride de séparation

Echange d’ions

Électrodialyse à membrane bipolaire

Récupération d’acides organiques

Traitement de solutions diluées

Hybrid separation process

Ion exchange

Bipolar membrane electrodialysis

Organic acid recovery

Diluted solutions treatment

660.284 245

Tropospheric ozone and photochemical processing of hydrocarbons : laboratory based kinetic and product studies

Leather, Kimberley

January 2012

Laboratory based temperature-dependent kinetics and product yields for alkene ozonolysis and the reaction of CH3O2 with ClO and BrO have been measured via chamber studies and a turbulent flow tube coupled to CIMS (Chemical Ionisation Mass Spectrometry). In order to gain a better understanding of the fate of the products formed during hydrocarbon oxidation and their subsequent impact on the ozone budget (and so the oxidising capacity of the atmosphere) it is imperative to know the rate at which these reactions proceed and to identify their product yields. As tropospheric temperature varies, Arrhenius parameters were determined during the ozonolysis of selected alkenes. The temperature dependent kinetic database was extended and the activation energies for the ozonolysis of selected alkenes were correlated with an existing SAR (Structure Activity Relationship). Given the myriad organic species in the atmosphere, SARs are useful tools for the prediction of rate coefficients. Inclusion of Arrhenius parameters into the SAR allows for prediction over a range of temperatures, improving the conditions reflected in models. Achieving mass balance for alkene ozonolysis has proven to be a difficult challenge considering the numerous pathways of the Criegee Intermediate (CI). The product yield of formic acid – an organic acid with significant atmospheric implications which is under predicted by models – was determined as a function of relative humidity during ethene ozonolysis. This reaction exhibited a strong water dependence which lead to the prediction of the reaction rate of the CI with water which ranges between 1 × 10-12 – 1 × 10-15 cm3 molecule-1 s-1 and will therefore dominate its loss with respect to bimolecular processes in the atmosphere. Peroxy radicals, strongly influence the total oxidising capacity of the troposphere. The reaction of peroxy radicals with halogen oxides is recognised to be responsible for considerable ozone depletion in the atmosphere, exacerbated by reactive halogens (X, XO) taking part in catalytic cycles. Arrhenius parameters were determined for ClO + CH3O2 and BrO + CH3O2. Temperature is an important parameter affecting rate, exemplified here as the reaction involving ClO exhibited a positive temperature dependence whereas for BrO a negative temperature dependence was evident. As a consequence, the impact of ClO + CH3O2 with respect to ozone loss is diminished. Global modelling predicts a reduction in ozone loss by a factor of around 1.5 and implicates regions such as clean marine environments rather than the polar stratosphere. Conversely, a more pronounced temperature dependence for the reaction of BrO with CH3O2 placed particular importance on lower stratospheric chemistry where the modelled CH3O2 oxidation is doubled. The main products for this reaction were identified to be HOBr and CH2O2. The decomposition of CH2O2 could enhance HOx in the lower and middle stratosphere and contribute to a significant source of HOx in the upper troposphere. Bimolecular reaction of CH2O2 with water could also provide a none negligible source HC(O)OH in the upper troposphere. Alkenes and peroxy radicals undergo chemical processing in the atmosphere whilst acting as a source and sink of ozone and thus can impose detrimental effects on the biosphere, climate and air quality of the Earth.

551.51

Přenositelné a miniaturizované separační techniky využitelné pro potravinářské a biotechnologické analýzy / Portable and Miniaturized Separation Techniques Applicable for Food and Biotechnology Analysis

Dvořák, Miloš

January 2016

Capillary electrophoresis was used for determination of 6 fractions of caseins. Those fractions were measured in 144 samples of cow’s milk originated from the feeding experiment focused on explanation the influence of the feeding onto casein productions. In this work were separated 6 fraction of caseins first time with total resolution of the peaks. Capillary electrophoresis was applied for determination of short-chain organic acids during fermentation of wine must. It was compared the fermentation of must fermented by different yeast. The difference of profile short-chain organic acids during fermentation were not statistically significant. The once difference was in the utilisation of the malic acid and production of the lactic acid. A portable miniaturized system for medium pressure liquid chromatography was developed. The components were tested and system was used for the isocratic and gradient elution of various analytes (food dyes, parabens). New line of electroluminescent diodes (LEDs) for deep-UV areas of wavelength based on a different materials substrate was characterised. The new line was compared with old line LEDs. The new line LEDs was incorporated in deep-UV absorbance detectors. Detectors were characterised and tested for a detection various analytes in modes flow injection analysis and chromatography separation. First time was characterised this new line of the LEDs and the origin of the parasitic emission band produced by deep-UV LEDs light sources was explained. This origin is given by disturbances of a materials substrates. This work is a contribution for an advance of low-cost and portable systems and detection devices in the field of analytical chemistry.

The rhizosphere effects of <i>Fagus sylvatica</i> L. and <i>Fraxinus excelsior</i> L. saplings on greenhouse gas fluxes between soil and atmosphere / Rhizosphären-Effekte der Jungpflanzen von <i>Fagus sylvatica</i> L. und <i>Fraxinus excelsior</i> L. auf den Treibhausgasaustausch von Boden und Atmosphäre

Fender, Ann-Catrin

06 June 2012

No description available.

500 Naturwissenschaften

WN 000

Fagus sylvatica

Fraxinus excelsior

Rotbuche

Gemeine Esche

Jungwuchs

Treibhausgas

CO

Fagus sylvatica

Fraxinus excelsior

European beech

Common ash

tree sapling

greenhouse gas

CO2

N2O

CH4

organic acid

root growth

mixed broadleaved forest

soil

42.90 Ökologie