Development of Photochemically Initiated Direct and Indirect Luminescence Detection Methods for Liquid Chromatography (LC) and Study of Aromatic Sulfonates and Phospholipids Using Reversed Phase Ion-Pair LC-Mass Spectrometry

Zhang, Wei

13 November 2003

No description available.

Chemistry, Analytical

Spiral micro-flow cell

Flow injection

Luminol chemiluminescence

Hydrogen peroxide

L-lactate

photo-oxidation

Quinine

Photosensitizer

Phenols

Liquid chromatography

Indirect fluorescence detection

Shielding effect

Nitro aromatic compounds

Development of a test rig for the study of the atomization and combustion of a spray flame in an atmospheric annular spray burner at lean conditions

Cardona Vargas, Santiago

20 January 2022

[ES] El proceso de combustión en llamas de difusión de combustible atomizado es un fenómeno multifásico altamente complejo que a día de hoy no se comprende en su totalidad, ya que involucra varios eventos simultáneos, como atomización, vaporización y cinética química. A lo largo de los años, los investigadores han estudiado a fondo la combustión en llamas de combustibles líquidos, con el fin de comprender los procesos fundamentales como clave para reducir las emisiones contaminantes y mejorar la eficiencia de la propulsión de las aeronaves. En los últimos años, la evolución tanto en la tecnología de inyección como en la de combustión ha permitido mejorar el proceso de mezcla por aspersión y la eficiencia del motor y, por tanto, reducir las emisiones contaminantes. Por lo que, diferentes configuraciones de tipo de inyector y distribución de aire dentro de la cámara de combustión han demostrado ser capaces de reducir el consumo de combustible, así como las emisiones de óxidos de nitrógeno y hollín sin afectar el rendimiento del motor. Esta tesis proporciona una metodología experimental para estudiar los efectos de las condiciones de co-flujo, el caudal másico de combustible, el tipo de combustible y el diámetro de salida del quemador sobre la atomización y la combustión de la llama producida en un quemador anular bajo condiciones de operación pobres. La caracterización del chorro sin combustión se realizó mediante dos técnicas ópticas diferentes. Por un lado, se utilizó velocimetría de imagen de partículas para medir los campos de velocidad del espray. Por otro lado, retroiluminación microscópica difusa (MDBI) para medir el tamaño y la velocidad de las gotas. Los resultados mostraron que ambos están controladas principalmente por el tipo de combustible y el caudal másico del mismo. Sin embargo, la variación de la velocidad de co-flujo no mostró un efecto significativo en las características de las gotas (tamaño y velocidad), lo que probablemente se deba a que el campo de visión de la técnica MBDI estaba muy cerca de la punta del inyector. Adicionalmente, al incrementar la temperatura de co-flujo se observó que el diámetro promedio de gota disminuía, lo cual es causado por la evaporación del combustible. Finalmente, las variaciones en los perfiles de tamaño y velocidad de las gotas al variar el diámetro de salida de aire se relacionaron con la variación de la velocidad del co-flow, lo que afectaba la evaporación y el arrastre de las gotas. Para el estudio de la llama en condiciones reactivas, se probó en condiciones de operación que permitan llama estabilizadas, utilizando tres técnicas ópticas diferentes, las cuales se activaron simultáneamente. La extinción de luz difusa se utilizó para determinar el espesor óptico del hollín. Además, se emplearon las técnicas de quimioluminiscencia OH* y MDBI para medir la altura de despegue de la llama y las características de las gotas, respectivamente. Los resultados mostraron que la velocidad y temperatura del co-flujo, y el tipo de combustible influyen fuertemente en la altura de despegue de la llama. Mientras que en la formación hollín los parámetros más influyentes fueron la velocidad del co-flujo y el tipo de combustible. Con respecto a los resultados de la evaporación de las gotas, se observó que el tamaño inicial y las propiedades del combustible controlan su evaporación. El combustible n-Dodecano es el menos volátil y tiene un tamaño de gota inicial más grande y, por lo tanto, las gotas tardaron más en evaporarse, lo que resultó en una mayor longitud de despegue de la llama y una mayor formación de hollín debido a su mayor tendencia a formar hollín. Por el contrario, las gotas de n-Heptano se evaporaron más rápido, lo que resultó en una altura de despegue de la llama más corta y también en una menor formación de hollín. Finalmente, el combustible n-Decano mostró resultados intermedios para la evaporación de gotas, la altura de despegue de la llama y la formación de hollín. / [CA] El procés de combustió en flames de difusió de combustible atomitzat és un fenomen multifásico altament complex que a hores d'ara no es comprén en la seua totalitat, ja que involucra diversos esdeveniments simultanis, com a atomització, vaporització i cinètica química. Al llarg dels anys, els investi- gadors han estudiat a fons la combustió en flames de combustibles líquids, a fi de comprendre els processos fonamentals com a clau per a reduir les emissions contaminants i millorar l'eficiència de la propulsió de les aeronaus. En els últims anys, l'evolució tant en la tecnologia d'injecció com en la de combustió ha permés millorar el procés de mescla per aspersió i l'eficiència del motor i, per tant, reduir les emissions contaminants. Pel que, diferents configuracions de tipus d'injector i distribució d'aire dins de la cambra de combustió, han demostrat ser capaços de reduir el consum de combustible, així com les emissions d'òxids de nitrogen i sutja sense afectar el rendiment del motor. Aquesta tesi proporciona una metodologia experimental per a estudiar els efectes de les condicions de co-flux, el cabal màssic de combustible, el tipus de combustible i el diàmetre d'eixida del cremador sobre l'atomització i la combustió de la flama produïda en un cremador anul·lar sota condicions d'operació pobres. La caracterització del doll sense combustió es va realitzar mitjançant dues tècniques òptiques diferents. D'una banda, es va utilitzar velocimetría d'imatge de partícules per a mesurar els camps de velocitat de l'esprai. D'altra banda, retroil·luminació microscòpica difusa (MDBI) per a mesurar la grandària i la velocitat de les gotes. Els resultats van mostrar que tots dos estan controlades principalment per la mena de combustible i el cabal màssic d'aquest. No obstant això, la variació de la velocitat de co-flux no va mostrar un efecte significatiu en les característiques de les gotes (grandària i velocitat), la qual cosa probablement es deu al fet que el camp de visió de la tècnica MBDI estava molt prop de la punta de l'injector. Addicionalment, en incrementar la temperatura de co-flux es va observar que el diàmetre mitjà de gota disminuïa, la qual cosa és causat per l'evaporació del combustible. Finalment, les variacions en els perfils de grandària i velocitat de les gotes en variar el diàmetre d'eixida d'aire es van relacionar amb la variació de la velocitat del co-flux, la qual cosa afectava l'evaporació i l'arrossegament de les gotes. Per a l'estudi de la flama en condicions reactives, es va provar en condicions d'operació que permeten flama estabilitzades, utilitzant tres tècniques òptiques diferents, les quals es van activar simultàniament. L'extinció de llum difusa es va utilitzar per a determinar la grossària òptica del sutge. A més, es van emprar les tècniques de quimioluminescència OH* i MDBI per a mesurar l'altura d'enlairament de la flama i les característiques de les gotes, respectivament. Els resultats van mostrar que la velocitat i temperatura del co-flux, i el tipus de combustible influeixen fortament en l'altura d'enlairament de la flama. Mentre que en la formació sutge els paràmetres més influents van ser la velocitat del co-flux i el tipus de combustible. Respecte als resultats de l'evaporació de les gotes, es va observar que la grandària inicial i les propietats del combustible controlen la seua evaporació. El combustible n-Dodecano és el menys volàtil i té una grandària de gota inicial més gran i, per tant, les gotes van tardar més a evaporar-se, la qual cosa va resultar en una major longitud d'enlairament de la flama i una major formació de sutge degut a la seua major tendència a formar sutge. Al contrari, les gotes de n-Heptano es van evaporar més ràpid, la qual cosa va resultar en una altura d'envol de la flama més curta i també en una menor formació de sutja. Finalment, el combustible n-Decano va mostrar resultats intermedis per a l’evaporació de gotes, l’altura d’envol de la flama i la formació de sutja / [EN] The combustion process in spray flames is a highly complex multi-phase phenomenon that is still not completely understood since it involves several simultaneous events, such as atomization, vaporization, and chemical kinetics. Over the years, researchers have studied the combustion in spray flames thoroughly, in order to understand the fundamental processes as key to re- duce pollutant emissions and improve the efficiency of aircraft propulsion. In recent years, the evolution in both injection and combustion technology has allowed to improve the spray mixing process and engine efficiency and hence, reducing pollutant emissions. Therefore, different configurations of injector type and air distribution inside the combustion chamber have proved capable of reducing fuel consumption, as well as emissions of nitrogen oxides and soot without affecting the engine performance. This thesis provides an experimental methodology to study the effects of co-flow conditions, fuel mass flow rate, fuel type and air outlet diameter at the burner exit on the atomization and combustion behavior of the spray flame produced on an annular spray burner under lean conditions. The characterization of the liquid spray without combustion was carried out using two different optical techniques. On the one hand, particle image velocimetry was used to characterize the global velocity fields of the spray. On the other hand, Microscopic diffused back-illumination (MDBI) to measure the size and droplet velocity at a field of view close to the injector tip. The results exhibited that both droplet size and droplet velocity are mainly controlled by the fuel type and fuel mass flow rate. Nevertheless, the variation of the co-flow velocity did not show a significant effect on droplet characteristics (size and velocity), which is likely due to the fact that the field of view of the MDBI technique was located very close to the injector tip. Additionally, by increasing the co-flow temperature, it was observed that the mean droplet size decreased, which is caused by the fuel evaporation process. Finally, the variations in the droplet size and velocity profiles when varying the air outlet diameter were related to the velocity variation when modifying the cross-sectional area at the burner outlet, which affects the evaporation and drag of the drops. On the spray development in reactive conditions, it was investigated in the operating conditions that promote stabilized flames, using three different optical techniques, all of which were triggered simultaneously. The light extinction was used to determine the optical thickness through the soot cloud. In addition, OH* chemiluminescence and the MDBI techniques were employed to measure the flame lift-off height and droplet characteristics, respectively. The results exhibited that the co-flow velocity, co-flow temperature and fuel type strongly influence the flame lift-off height. While in the soot formation the most influential parameters were the co-flow velocity and the type of fuel. Regarding the results of the droplet evaporation, it was observed that the initial droplet sizes and the fuel properties control the droplet evaporation process. n-Dodecane fuel is the least volatile and also exhibited a larger initial droplet size and thus, the droplets took more time to evaporate than the other two fuels, resulting in a longer flame lift-off height and likewise higher soot formation by its greater tendency to form soot. Contrary, n-Heptane droplets evaporated faster, resulting in a shorter flame lift-off height and also less soot formation. Finally, n-Decane showed intermediate results for droplet evaporation, flame lift-off height, and soot formation. / Cardona Vargas, S. (2021). Development of a test rig for the study of the atomization and combustion of a spray flame in an atmospheric annular spray burner at lean conditions [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/179994

Combustible atomizado

Quemador de combustible líquido

Altura de la llama

Llama de aspersión

Quimioluminiscencia OH*

Formación de hollín

Quemador de aspersión

Annular spray burner

Droplet diameter

Droplet velocity

Sauter mean diameter

Spray flame

Flame lift-off height

OH* chemiluminescence

Soot formation

MAQUINAS Y MOTORES TERMICOS

A  β2-glicoproteína I no contexto da resposta inflamatória de fase aguda / The β2-GPI in the acute phase of the inflammatory response condition

Pereira, Elisângela Monteiro

03 September 2010

A β2-glicoproteína I (β2GPI) é uma proteína de fase aguda, produzida principalmente no fígado e intestino. Os efeitos dessa proteína sobre células mononucleares foram investigados tanto em monócitos humanos de sangue periférico quanto em células promonocíticas humanas da linhagem celular ATCC THP-1. As correlações entre sua concentração plasmática e a intensidade da inflamação sistêmica foram avaliadas em humanos e em um modelo experimental de infecção sistêmica, em ratos. Nenhum efeito da β2GPI foi observado sobre a resposta oxidativa de monócitos de sangue periférico durante a fagocitose de zymosan opsonisado ou de S. aureus, analisada respectivamente por quimiluminescência amplificada por luminol ou por citometria de fluxo. A β2GPI estimulou a viabilidade celular e estimulou a diferenciação dos promonócitos. As células THP-1 tratadas com β2GPI apresentaram adesão aumentada a placas de cultura bem como expressão aumentada de CD54 e CD14. A suplementação com β2GPI foi suficiente para manter a proliferação das células THP-1 em cultura sem a adição de soro por 72h. Não houve correlações entre a concentração plasmática da β2GPI e indicadores clínicos da resposta inflamatória aguda em pacientes sépticos. A concentração da β2GPI não correlacionou com as concentrações plasmáticas de IL-8, SAA e PCR, que foram encontradas elevadas no sangue de pacientes com sepse. A variação da concentração plasmática de β2GPI foi um fenômeno muito precoce no modelo experimental de sepse e translocação bacteriana. Nas primeiras três horas após a indução da sepse endovenosa, a concentração plasmática de β2GPI diminuiu de forma dependente da intensidade de infecção. Sugere-se que efeitos muito precoces de compartimentalização associados ao sangue portal medeiem esta regulação. As concentrações mais baixas de β2GPI foram observadas nos animais expostos à translocação bacteriana através da mucosa intestinal, associada a uma condição inflamatória leve. A derivação da linfa preveniu completamente a diminuição da concentração plasmática de β2GPI. Em conjunto, os resultados revelaram a relevância combinada de via e de intensidade da infecção para o controle da concentração plasmática de β2GPI no início na resposta inflamatória aguda. / The β2-glycoprotein I (β2GPI) is an acute phase protein, produced mainly in the liver and intestine. The effects of this protein upon mononuclear cells were investigated both in monocytes from human peripheral blood, and in the human promonocytic cells from the ATCC THP-1 cell line. The correlations between its plasma concentration and systemic inflammation intensity were evaluated in humans and in ad experimental model of systemic infection in rats. No β2GPI effects were observed upon the oxidative response of blood monocytes during the phagocytosis of opsonized zymosan or S. aureus as analysed by luminol amplified chemiluminescence and flow cytometry. β2GPI enhanced the cellular viability and stimulated the differentiation of the promonocytes. The THP-1 cells treated with β2GPI presented increased adhesion to the plastic of cell culture plates as well as increased expression of CD54 and CD14 antigens. The supplementation with β2GPI was sufficient to support the proliferation of THP-1 cells in serum free culture conditions for 72 h. There were no correlations between the β2GPI plasma concentration and clinical parameters of the acute inflammatory response in septic patients. The β2GPI concentrations didn\'t correlated with the plasma concentrations of IL-8, SAA and C reactive protein, despite these substances were found increased in the blood of patients with sepsis. The β2GPI plasma concentration response was a very early phenomenon in the experimental sepsis and bacterial translocation model. The β2GPI concentration decreased within the first 3h after endovenous sepsis induction, depending on the infection intensity. Very early compartment effects associated with the portal blood are suggested to mediate such regulation. The lowest β2GPI concentrations were found in the animals exposed to bacterial translocation through the intestinal mucosa, associated with a mild inflammatory condition. The lymph derivation completely prevented the plasma β2GPI decrease. Taken together, the results revealed the relevance of both the infection route and intensity to the control of plasma β2GPI concentrations during the acute phase response.

β2-glicoproteína I

β2-glycoprotein I

Bacterial translocation

Cell differentiation

Cell proliferation

Células THP-1

Chemiluminescence

Citometria de fluxo

Diferenciação celular

Flow cytometry

Imuno-histoquímica

Imunohistochemistry

Inflamação

Inflammation

Monócitos

Monocytes

Proliferação celular

Quimiluminescência

Sepse

Sepsis

THP-1 cells

Translocação bacteriana

Modificação induzida por β2-glicoproteína I na resposta oxidativa de polimorfonucleares humanos durante a fagocitose / Modification induced by β2-glycoprotein I in the oxidative response of human polymorphonuclear cells during phagocytosis

Pereira, Elisângela Monteiro

19 August 2005

β2-glicoproteína I (β2GPI) é encontrada (200µg/mL) no plasma, 60% livre e 40% em lipoproteínas. Esta proteína de fase aguda, com afinidade por superfícies negativas pode ser clivada pela plasmina. Fragmentos são purificados como dímeros ou multímeros de β2GPI. Formas monomérica e dimérica de β2GPI foram purificadas de soro humano e identificadas por SDS-PAGE, imunoblot e ELISA Somente a forma monomérica foi detectada no teste ELISA Os efeitos de ambas as formas sobre o burst respiratório de polimorfonucleares humanos (PMN), estimulados in vitro com zymosan opsonizado, foram estudados por quimioluminescência amplificada por luminol ou lucigenina e citometria de fluxo, pela oxidação do OCFH. A forma monomérica inibiu a quimioluminescência amplificada por luminol (-43.6 x -7.33 AEU/s), mas não por lucigenina, e aumentou a oxidação de DCFH e a produção de Óxido Nítrico (•NO). É provável que o •No, via peroxinitrito, medeie os efeitos de β2GPI sobre o burst respiratório de PMN. / Circulating blood contains approximately 200µg/mL of β 2-glycoprotein I (β2GPI), either free (60%) or lipoprotein bound (40%). This acute phase protein, with affinity for negative surfaces, can be cleaved by plasmin. Fragments purify as dimeric or multimeric (β2GPI. Both (β2GPI forms were purified from human sera and identified by SDS-PAGE, immunoblotting and ELISA. ELISA reactivity was dependent on the monomeric status of (β2GPI. The effects of dimeric and monomeric (β2GPI upon respiratory burst of human polimorphonuclear neutrophils (PMN) stimulated in vitro with opsonized zymosan were studied. Respiratory burst was evaluated by luminol- or lucigenin-amplified chemiluminescence, or by DCFH oxidation (flow-cytometry assay). The monomeric, but not the dimeric form, inhibited the luminol chemiluminescence of zymosan-stimulated PMNs (-43.6 x -7.33 AEU/s). Lucigenin chemiluminescence was insensitive to (β2-GPI. Monomeric (β2GPI increases both DCFH oxidation and nitric oxide production. Nitric oxide, probably through peroxynitrite reactions, mediates (β2GPI effects upon PMNs respiratory burst.

Beta2-Glicoproteína I

Beta2-Glycoprotein I

Biologia celular

Bioquímica clínica

Cell biology

Chemiluminescence

Citometria de fluxo

Clinical biochemistry

Espécies reativas de nitrogênio

Espécies reativas de oxigênio

Flow cytometry

Free radicals (Physiopathology)

Glicoproteínas (Fisiopatologia)

Glycoproteins (Physiopathology)

Polimorfonucleares

Polymorphonuclear cells

Quimiluminescência

Radicais livres (Fisiopatologia)

Reactive nitrogen species

Reactive oxygen species

Analysis of electrogenerated chemiluminescence of PPV type conducting polymers

Janakiraman, Umamaheswari

20 May 2003

Mit Lösungen von 9,10-Diphenylanthracen und N(C2H5)4ClO4 oder N(C4H9)4ClO4 als Leitsalz im Lösungsmittel Acetonitril wurden Elektrochemilumineszenz (ECL)-Experimente durchgeführt. Dazu wurden die Elektroden mit Folgen von jeweils drei in bestimmten zeitlichen Abständen aufeinander folgenden Potentialsprüngen polarisiert. Es wird gezeigt, dass bei entsprechender Wahl der Potentiale und der Haltezeiten anodische und kathodische ECL-Emissionen gleicher Intensität erzeugt werden können. Sodann wurde ECL in den Derivaten von Poly(p-phenylen-vinylen), MEH-PPV und DB-PPV erzeugt. Diese leitfähigen Polymere wurden als dünne Schichten auf Platin-Elektroden aufgebracht und wie bei ECL aus der Lösungsphase in Acetonitril-Elektrolyten mit Tetralkylammonium-Leitsalzen Potentialsprüngen unterworfen. Bei geeigneter Einstellung der Potentialsprünge und Haltezeiten konnten anodische und kathodische ECL gleicher Intensität erhalten werden. Dies ist das erste Mal, dass symmetrische ECL mit polymerbeschichteten Elektroden erhalten wurde. Die Kinetik der ECL weicht deutlich von der aus der Lösungsphase ab. Der ECL-Prozess verläuft langsamer als in der Lösungsphase, und der Leitelektrolyt hat einen signifikanten Einfluss auf das elektrochemische Verhalten der Polymerschicht. Die Ursachen dafür wurden über Modellrechnungen analysiert, mit denen die Ladungstransportprozesse in der Polymerschicht simuliert wurden. In derartigen Simulationsrechnungen konnten die Geschwindigkeitskonstanten der ECL-Reaktion sowohl im Polymer als auch in der Lösung bestimmt werden. Um die Stabilität der Polymerschichten zu erhöhen, wurde versucht, die Polymerketten mit Synchrotronstrahlung zu vernetzen. Diese Experimente brachten nicht das erwartete Ergebnis. Die Ursachen dafür werden auf der Grundlage von Ex-Situ-Raman-spektroskopischen Untersuchungen diskutiert. / Electrochemiluminescence (ECL) has been generated in solution phase using 9,10-diphenylanthracene (DPA) with TEAClO4 (or TBAClO4) in acetonitrile solvent. Triple potential step was used for the generation of ECL. It was found that anodic and cathodic ECL of equal intensities can be generated by proper choice of potential step magnitude, width and the waiting period (tw) between successive triple potential steps. ECL was then generated in conducting polymers poly(2-ethylhexyloxy-5-methoxy-1,4-phenylenevinylene) (MEH-PPV) and poly(2,3-dibutoxy-1,4-phenylenevinylene) (DB-PPV) by coating them on Pt electrodes and subjecting to potential steps in tetraalkylammonium salt solutions with acetonitrile. Similar to the case of solution phase ECL, symmetrical anodic and cathodic ECL could be observed by the appropriate choice of the potential step parameters. But the kinetics of the ECL was found to be different from that of the solution phase ECL. The time scale of the ECL process was found to be longer than that in the solution phase ECL. The nature of supporting electrolyte had a remarkable impact on the electrochemistry of conducting polymers. The reasons were analyzed by theoretical calculations evoking the concept of charge transport characteristics of conducting polymers. The rate constants of the ECL process were calculated by separate simulation procedure in the solution phase as well as in the polymer phase ECL. To enhance the stability of conducting polymers, synchrotron radiation induced cross-linking was performed. The effects were different from expected which were analyzed and rationalized by ex-situ Raman spectroscopic studies.

Elektrochemilumineszenz (ECL)

9,10-diphenylanthracen (DPA)

Polymere

MEH-PPV

DB-PPV

Potentialsprung experiment

Raman spectroskopy

Electrogenerated chemiluminescence (ECL)

9,10-diphenylanthracene (DPA)

conjugated polymers

MEH-PPV

DB-PPV

triple potential step experiments

Raman spectroscopy

synchrotron induced cross-linking

540 Chemie

30 Chemie

VK 5660

ddc:540

Chromatography and extraction techniques for new evaluation methods of polyolefins long-term performance

Burman, Lina

January 2005

Chromatography and extraction techniques, and also chemiluminescence have been utilized to develop new rapid and informative tools in the evaluation of long-term properties and environmental effects of polymeric materials. Methods were developed for classification of materials and for early and rapid degradation detection. Degradable polyethylene films were classified on the basis of their incorporated prooxidant systems using chromatographic fingerprinting of carboxylic acids, the dominating type of degradation product. The fingerprints were also shown to be useful for prediction of the degradation states and evaluation of the degradation mechanisms. Classification and prediction models were obtained by Multivariate Data Analysis, where the diacids were grouped according to both their type of prooxidant system and their state of degradation. The use of total luminescence intensity (TLI) measurements was also investigated as a means of classifying films and for the early detection of degradation. Comparisons were carried out with common techniques, e.g. FTIR and DSC, after both thermal and UV oxidation. TLI gave an earlier detection of degradation and was more sensitive than carbonyl index and crystallinity measurements to relative differences in degradation between the materials. It furthermore offered complementary information regarding changes in activation energies during the course of the degradation. The results were compared with the chromatographic fingerprints. A new way to evaluate the low temperature long-term stabilisation efficiency of antioxidants was investigated. A prooxidant was used to obtain catalytic oxidation, instead of using thermal acceleration, to evaluate the stabilisation efficiency of antioxidants at low temperatures but still during reasonably short aging times. Comparisons were made between polypropylene films stabilised with primary antioxidants (Irganox 1076, Irganox 1010 and α-tocopherol) with and without the prooxidant manganese stearate at different temperatures. The relative efficiencies of the antioxidants obtained under prooxidant acceleration test correlated better than thermal acceleration test with the results of a long-term low temperature test. Additives in plastic packaging materials may affect the environment after migration from the packaging to e.g. their contents, especially if they consist of organic aqueous solutions or oils. The use of Solid-Phase Microextraction (SPME) for the specific task of extraction from an organic aqueous solution such as a simulated food or pharmaceutical solution consisting of 10 vol-% ethanol in water was investigated. Methods were developed and evaluated for extraction both with direct sampling and with headspace sampling. If the extraction method and temperature were selected to suit the concentration levels of the analytes, it was possible to quantify several degradation products simultaneously. Comparisons made with Solid Phase Extraction showed the advantage of SPME for this purpose. / QC 20100929

Chemical engineering

polymer

chromatographic fingerprinting

gas-chromatography – mass spectrometry

GC-MS

degradable polyethylene

prooxidant systems

chemiluminescence

oxidation

degradation mechanisms

accelerated ageing

antioxidants

transformation products

microwave assisted extraction

MAE

solid-phase microextraction

SPME

volatiles

solid phase extraction

SPE

Kemiteknik

Chemical engineering

Kemiteknik

Aplicaciones de interés medioambiental, clínico e industrial del análisis por inyección en flujo multiconmutado

Manera Fuente, Matias

30 November 2007

El creciente número de controles analíticos requeridos en áreas como la sanitaria, el medio ambiente o la alimentación conlleva la necesaria automatización de los procesos analíticos.De acuerdo con ello, en esta tesis se han desarrollado, implementado y puesto a punto nuevos métodos automáticos de análisis robustos y económicos para la determinación de analitos de interés medioambiental, clínico e industrial. La automatización de las metodologías, empleando las técnicas de flujo MSFIA y MPFS, simplifican de forma considerable el procesamiento analítico con un importante ahorro de reactivos y tiempo, y permiten una mayor frecuencia de análisis, con la consecuente reducción del coste por análisis y en la generación de residuos. Los métodos propuestos son selectivos, reproducibles, precisos, robustos y en casi su totalidad son ejecutados sin la intervención del analista. / O crescente número de controlos analíticos requeridos em diversas áreas como o médio ambiente, a indústria sanitária ou a alimentar, conduziu à necessidade de automatização dos processos analíticos.Indo de encontro a estes requisitos, nesta tese desenvolveu-se, implementou-se e colocou-se em prática novos métodos de análise automáticos robustos e económicos para a determinação de analitos com interesse ambiental, clínico e industrial. A automatização das metodologias aplicando as técnicas de fluxo MSFIA e MPFS, simplificam de forma considerável o procedimento analítico com um decréscimo importante de reagentes gastos e tempo de análise, permitindo uma maior frequência de análise, com consequente redução do custo de análise e de geração de resíduos. Os métodos propostos são selectivos, reprodutíveis, precisos e robustos.

Orthophosphate determination

Chemiluminescence

Solid-phase optical sensor

MPFS

MSFIA

Automation

modelos de regresión multivariados

membrana de extracción

isómeros nitrofenólicos

Ensayos farmacéuticos

Gabapentina

Cobalto (II)

peroxidasa

Bioreactores

aguas

determinación de ortofosfato

Quimioluminiscencia

optosensor en fase sólida

MPFS

MSFIA

Automatización

Waters

Bioreactor

Horseradish peroxidase

Cobalt (II)

Gabapentin

Pharmaceutical assays

Nitrophenol isomers

extraction membrane

Multivar

Química Analítica, Medio Ambiente

54

543

548

Caractérisation expérimentale d’une flamme turbulente non prémélangée swirlée : effet de l’enrichissement en oxygène / Experimental characterization of a non-premixed turbulent swirled flame : effect of oxygen enrichment

Merlo, Nazim

18 December 2014

Cette thèse est une contribution à l’étude des flammes de méthane turbulentes non prémélangées en rotation, dites swirlées, avec ou sans enrichissement en oxygène de l’oxydant. L’étude se focalise sur la stabilité de la flamme, les émissions polluantes et la dynamique du jet en non réactif et réactif. Notre dispositif expérimental se compose d’un brûleur à swirler coaxial avec injection radiale de méthane au voisinage de la sortie du brûleur. Ce dernier est confiné dans une chambre de combustion. La teneur en oxygène dans l’oxydant, le nombre de swirl géométrique et la richesse globale à l’injection sont les principaux paramètres qui peuvent être précisément contrôlés. La stabilité de la flamme est caractérisée par chimiluminescence OH*. Les émissions polluantes sont mesurées par des analyseurs en ligne via un prélèvement dans les gaz brûlés. La dynamique du jet est caractérisée principalement par PIV stéréoscopique dans un plan longitudinal et plusieurs plans transverses. La diffusion du méthane dans le jet swirlé est abordée qualitativement par fluorescence induite par laser de l’acétone dans un plan. À ce jour, peu de travaux portent sur la caractérisation notamment dynamique de ces flammes swirlées avec enrichissement en O2. La mise en rotation du jet est à l’origine d’une zone de recirculation centrale qui favorise la stabilisation de la flamme en régime pauvre et à grand nombre de Reynolds. L’étude des émissions polluantes montre que les régimes de combustion à l’air pour lesquels la flamme est liftée stable sont aussi ceux qui produisent du CO et du CH4 résiduel en des quantités non négligeables. L’enrichissement en oxygène permet alors de convertir les imbrûlés et ce pour de faibles enrichissements tout en améliorant la stabilité de flamme via une diminution de la hauteur d’accrochage et des fluctuations associées comme le confirment de précédentes études. L’augmentation des NOx par la voie thermique a été quantifiée pour des enrichissements en oxygène inférieurs à 30 % vol. L’étude systématique en non réactif et réactif apporte des détails sur la topologie tridimensionnelle du jet swirlé suivant les paramètres de l’étude. L’étude de la décroissance des vitesses et de la décroissance du nombre de swirl dans la direction de l’écoulement permetde mettre en évidence l’effet de la flamme sur le jet swirlé. Un couplage entre l’évolution du taux d’entraînement par la recirculation externe et les émissions polluantes est mis en évidence pour expliquer l’évolution des NOx suivant la richesse globale à l’injection. Nous avons proposé une modélisation des écoulements swirlés qui repose sur les écoulements à vorticité hélicoïdale afin d’identifier les caractéristiques principales des structures hélicoïdales au sein de l’écoulement. / This thesis is a contribution to the study of turbulent non-premixed swirling methane flames with or without oxygen addition in the oxidizer. The study deals with the flame stability, the pollutant emissions and the jet dynamic behaviour in non-reacting and reacting conditions. The burner, operating in a combustion chamber, consists of two concentric tubes with a swirler placed in an annular arrangement, which supplied the oxidant flow (air or oxygen-enriched air). The central pipe delivers fuel (methane) radially just below the burner exit plane. The oxygen content in the oxidizer, the geometric swirl number and the global equivalence ratio are the main parameters, which can be precisely set. OH* chemiluminescence imaging is used to characterize flame stability. Multi-gas analyzers are used to measure pollutant emissions in the exhaust gas. The flow is characterized using stereoscopic PIV measurements in different longitudinal and transverse planes. A qualitative study dealing with the methane diffusion imaging is also conducted by use of acetone planar laser-induced fluorescence. Up to now only few studies have examined the dynamic behavior of this type of swirled flames with oxygen addition. Introducing swirl allows creating a central recirculation zone which favors lean flame stabilization at higher Reynolds numbers. The mapping of the combustion regimes combined with the pollutant emission results show that the stable lifted flames are related to high CO and residual CH4 emission levels in the exhaust gas. Oxygen addition, even by a few percent, allows improving CO and unburned hydrocarbons conversion and increasing flame stability at the same time via a decrease of liftoff heights and the related fluctuations. The NOx emissions increase via the thermal pathway with increasing the oxygen-enrichment rate up to 30 % vol. A comparative study in non-reacting and reacting conditions is conducted to give insight into the tridimensional flow field topology varying the above-mentioned parameters. Mean streamwise velocity and swirl number decay rates show the flame effects on the flow dynamics. A coupling mechanism between the entrainment rate of the surroundings via the external recirculation and the pollutant emissions is proposed to explain the NOx emission trend with the global equivalence ratio. A model is also proposed based on the helical vortices to identify the main features of helix structures in the jet in non-reacting and reacting conditions.

Chimiluminescence

Combustion

Emissions polluantes

Enrichissement en oxygène

Flammes non prémélangées

Fluorescence induite par laser (LIF)

NOx

Stabilisation

Swirl

Vorticité

Chemiluminescence

Combustion

Pollutant emissions

Oxygen enrichment

Non-premixed flames

Laser-Induced Fluorescence (LIF)

NOx

Flame stabilization

Stereo particle image velocimetry (SPIV)

Swirl

Vorticity

621.402 3

Modificação induzida por β2-glicoproteína I na resposta oxidativa de polimorfonucleares humanos durante a fagocitose / Modification induced by β2-glycoprotein I in the oxidative response of human polymorphonuclear cells during phagocytosis

Elisângela Monteiro Pereira

19 August 2005

β2-glicoproteína I (β2GPI) é encontrada (200µg/mL) no plasma, 60% livre e 40% em lipoproteínas. Esta proteína de fase aguda, com afinidade por superfícies negativas pode ser clivada pela plasmina. Fragmentos são purificados como dímeros ou multímeros de β2GPI. Formas monomérica e dimérica de β2GPI foram purificadas de soro humano e identificadas por SDS-PAGE, imunoblot e ELISA Somente a forma monomérica foi detectada no teste ELISA Os efeitos de ambas as formas sobre o burst respiratório de polimorfonucleares humanos (PMN), estimulados in vitro com zymosan opsonizado, foram estudados por quimioluminescência amplificada por luminol ou lucigenina e citometria de fluxo, pela oxidação do OCFH. A forma monomérica inibiu a quimioluminescência amplificada por luminol (-43.6 x -7.33 AEU/s), mas não por lucigenina, e aumentou a oxidação de DCFH e a produção de Óxido Nítrico (•NO). É provável que o •No, via peroxinitrito, medeie os efeitos de β2GPI sobre o burst respiratório de PMN. / Circulating blood contains approximately 200µg/mL of β 2-glycoprotein I (β2GPI), either free (60%) or lipoprotein bound (40%). This acute phase protein, with affinity for negative surfaces, can be cleaved by plasmin. Fragments purify as dimeric or multimeric (β2GPI. Both (β2GPI forms were purified from human sera and identified by SDS-PAGE, immunoblotting and ELISA. ELISA reactivity was dependent on the monomeric status of (β2GPI. The effects of dimeric and monomeric (β2GPI upon respiratory burst of human polimorphonuclear neutrophils (PMN) stimulated in vitro with opsonized zymosan were studied. Respiratory burst was evaluated by luminol- or lucigenin-amplified chemiluminescence, or by DCFH oxidation (flow-cytometry assay). The monomeric, but not the dimeric form, inhibited the luminol chemiluminescence of zymosan-stimulated PMNs (-43.6 x -7.33 AEU/s). Lucigenin chemiluminescence was insensitive to (β2-GPI. Monomeric (β2GPI increases both DCFH oxidation and nitric oxide production. Nitric oxide, probably through peroxynitrite reactions, mediates (β2GPI effects upon PMNs respiratory burst.

Beta2-Glicoproteína I

Biologia celular

Bioquímica clínica

Citometria de fluxo

Espécies reativas de nitrogênio

Espécies reativas de oxigênio

Glicoproteínas (Fisiopatologia)

Polimorfonucleares

Quimiluminescência

Radicais livres (Fisiopatologia)

Beta2-Glycoprotein I

Cell biology

Chemiluminescence

Clinical biochemistry

Flow cytometry

Free radicals (Physiopathology)

Glycoproteins (Physiopathology)

Polymorphonuclear cells

Reactive nitrogen species

Reactive oxygen species

A  β2-glicoproteína I no contexto da resposta inflamatória de fase aguda / The β2-GPI in the acute phase of the inflammatory response condition

Elisângela Monteiro Pereira

03 September 2010

A β2-glicoproteína I (β2GPI) é uma proteína de fase aguda, produzida principalmente no fígado e intestino. Os efeitos dessa proteína sobre células mononucleares foram investigados tanto em monócitos humanos de sangue periférico quanto em células promonocíticas humanas da linhagem celular ATCC THP-1. As correlações entre sua concentração plasmática e a intensidade da inflamação sistêmica foram avaliadas em humanos e em um modelo experimental de infecção sistêmica, em ratos. Nenhum efeito da β2GPI foi observado sobre a resposta oxidativa de monócitos de sangue periférico durante a fagocitose de zymosan opsonisado ou de S. aureus, analisada respectivamente por quimiluminescência amplificada por luminol ou por citometria de fluxo. A β2GPI estimulou a viabilidade celular e estimulou a diferenciação dos promonócitos. As células THP-1 tratadas com β2GPI apresentaram adesão aumentada a placas de cultura bem como expressão aumentada de CD54 e CD14. A suplementação com β2GPI foi suficiente para manter a proliferação das células THP-1 em cultura sem a adição de soro por 72h. Não houve correlações entre a concentração plasmática da β2GPI e indicadores clínicos da resposta inflamatória aguda em pacientes sépticos. A concentração da β2GPI não correlacionou com as concentrações plasmáticas de IL-8, SAA e PCR, que foram encontradas elevadas no sangue de pacientes com sepse. A variação da concentração plasmática de β2GPI foi um fenômeno muito precoce no modelo experimental de sepse e translocação bacteriana. Nas primeiras três horas após a indução da sepse endovenosa, a concentração plasmática de β2GPI diminuiu de forma dependente da intensidade de infecção. Sugere-se que efeitos muito precoces de compartimentalização associados ao sangue portal medeiem esta regulação. As concentrações mais baixas de β2GPI foram observadas nos animais expostos à translocação bacteriana através da mucosa intestinal, associada a uma condição inflamatória leve. A derivação da linfa preveniu completamente a diminuição da concentração plasmática de β2GPI. Em conjunto, os resultados revelaram a relevância combinada de via e de intensidade da infecção para o controle da concentração plasmática de β2GPI no início na resposta inflamatória aguda. / The β2-glycoprotein I (β2GPI) is an acute phase protein, produced mainly in the liver and intestine. The effects of this protein upon mononuclear cells were investigated both in monocytes from human peripheral blood, and in the human promonocytic cells from the ATCC THP-1 cell line. The correlations between its plasma concentration and systemic inflammation intensity were evaluated in humans and in ad experimental model of systemic infection in rats. No β2GPI effects were observed upon the oxidative response of blood monocytes during the phagocytosis of opsonized zymosan or S. aureus as analysed by luminol amplified chemiluminescence and flow cytometry. β2GPI enhanced the cellular viability and stimulated the differentiation of the promonocytes. The THP-1 cells treated with β2GPI presented increased adhesion to the plastic of cell culture plates as well as increased expression of CD54 and CD14 antigens. The supplementation with β2GPI was sufficient to support the proliferation of THP-1 cells in serum free culture conditions for 72 h. There were no correlations between the β2GPI plasma concentration and clinical parameters of the acute inflammatory response in septic patients. The β2GPI concentrations didn\'t correlated with the plasma concentrations of IL-8, SAA and C reactive protein, despite these substances were found increased in the blood of patients with sepsis. The β2GPI plasma concentration response was a very early phenomenon in the experimental sepsis and bacterial translocation model. The β2GPI concentration decreased within the first 3h after endovenous sepsis induction, depending on the infection intensity. Very early compartment effects associated with the portal blood are suggested to mediate such regulation. The lowest β2GPI concentrations were found in the animals exposed to bacterial translocation through the intestinal mucosa, associated with a mild inflammatory condition. The lymph derivation completely prevented the plasma β2GPI decrease. Taken together, the results revealed the relevance of both the infection route and intensity to the control of plasma β2GPI concentrations during the acute phase response.

β2-glicoproteína I

Células THP-1

Citometria de fluxo

Diferenciação celular

Imuno-histoquímica

Inflamação

Monócitos

Proliferação celular

Quimiluminescência

Sepse

Translocação bacteriana

β2-glycoprotein I

Bacterial translocation

Cell differentiation

Cell proliferation

Chemiluminescence

Flow cytometry

Imunohistochemistry

Inflammation

Monocytes

Sepsis

THP-1 cells