Avaliação da resistência à corrosão de filmes finos de ZrN e TiZrN depositados em aço inoxidável biomédico. / Evaluation of the corrosion resistance of thin films of ZrN and TiZrN deposited in biomedical stainless steel.

SOARES, André Lopes.

05 April 2018

Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-04-05T18:10:49Z No. of bitstreams: 1 ANDRÉ LOPES SOARES - DISSERTAÇÃO PPG-CEMat 2014..pdf: 6257060 bytes, checksum: 6c6fb12b0cbaaafb3788e358c240a5d5 (MD5) / Made available in DSpace on 2018-04-05T18:10:49Z (GMT). No. of bitstreams: 1 ANDRÉ LOPES SOARES - DISSERTAÇÃO PPG-CEMat 2014..pdf: 6257060 bytes, checksum: 6c6fb12b0cbaaafb3788e358c240a5d5 (MD5) Previous issue date: 2014-08-28 / Filmes finos de Nitreto de zircônio (ZrN) e nitreto da mistura titânio-zircônio (TiZrN) foram depositados sobre substratos de aço inoxidável 316L usando o método de RF Sputtering para deposição dos filmes. O planejamento de experimentos (DOE) tem sido reconhecido como um método poderoso para otimizar um processo complexo na indústria. Os efeitos do presente estudo foram verificar a viabilidade e confiabilidade da aplicação do método DOE em processos de RF Sputtering, otimizar os parâmetros de processamento para o processo de deposição, identificando os parâmetros sensíveis que afetam a espessura da camada depositada (E.C.D) e a resistência à corrosão (Ecorr.) Para o método de RF Sputtering, dois parâmetros, a taxa e tempo de deposição foram escolhidos para serem os parâmetros do processo. Depois da deposição, a estrutura de camada depositada foi caracterizada por Difração de Raios X (DRX) e por Microscopia Eletrônica de Varredura (MEV). Após o ensaio de polarização, a corrosão foi realizada a fim de investigar a relação entre o início da corrosão e a espessura da camada depositada. A análise de variância (ANOVA) foi realizada para avaliar os parâmetros sensíveis e prever as condições ideais. Com base na análise estatística, os parâmetros mais sensíveis no processo de RF Sputtering foram tanto a taxa como também o tempo de deposição do filme fino. As melhores condições de deposição foram a taxa de deposição máxima e tempo máximo. / Zirconium nitride (ZrN) and titanium-zirconium nitride (TiZrN) thin films were deposited on 316L stainless steel substrates using de RF Sputtering methods. Design of experiment (DOE) has long been recognized as a powerful method to optimize a complex process in industry. The purposes of present study were to verify the feasibility and reliability of the application of DOE method on de RF Sputtering processes and optimize the processing parameters for the deposition process, in which the sensitive parameters that affected the film properties were also identified. For de RF Sputtering method, two parameters, deposition rate and time were chosen to be the operating parameters. After deposition, the thin film structure was characterized by X-ray diffraction (XRD), and high-resolution scanning electron microscopy (SEM). After the polarization test, the corrosion analysis was carried out in order to investigate the relationship between the corrosion initiation and the thickness of the deposited layer. The analysis of variance (ANOVA) was conducted to assess the sensitive parameters and predict the optimum conditions. Based on the statistical analysis, the most sensitive parameters in de RF Sputtering process were both the deposition rate and time. The optimum deposition conditions in each system were maximum deposition rate and time.

Ciência e Engenharia de Materiais

Filmes finos

Resistência à corrosão

Nitreto de Ti

Nitreto de Zr

Resistance to corrosion

Nitrite Ti

Nitreto de zircônio

Zirconium nitride

Sputtering

Aço inoxidável médico 316L

Medical Stainless Steel 316L

Thin films

Filmes finos

Intoxicação espontânea e experimental por nitrato/nitrito em bovinos alimentados com Avena sativa (aveia) e/ou Lolium spp. (azevém) / Spontanious and experimental porsoning by nitrate/nitrite in cattle fed by Avena sativa (oat) and/or Lolium spp (ryegrass)

Jonck, Fernanda

26 November 2010

Made available in DSpace on 2016-12-08T16:24:10Z (GMT). No. of bitstreams: 1 PGCA10MA084.pdf: 10543370 bytes, checksum: c4278e36095798e986451ebb91edcf8f (MD5) Previous issue date: 2010-11-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Epidemiological data, clinical and pathological findings of the spontaneous and experimental poisoning by nitrate and nitrite in cattle fed by oats (Avena sativa) and ryegrass (Lolium spp), diphenylamine test, and the nitrate content in the samples of the pasture where the outbreaks occurred are described. The disease occurs in different regions of the state of Santa Catarina, in which pastures have exuberant growth, after receiving excessive amounts of chemical and/or organic fertilizer, mainly when raining occurs after a period of dry wheather. The animals grazing these pastures quickly developed brown mucosa, tachypnea, staggering gait, frequent urination, bloating, lateral recumbency and death in few minutes or hours. At necropsy of four animals that died spontaneously, the main lesions found were brown mucosa, dark color of the blood (chocolate), intense red color of the skeletal muscles and of the left part of the myocardium. The experimental reproduction of the disease was performed in seven cattles, with pastures of four farms where the disease occurred. The animals were fed with fresh and hay oats and ryegrass. Four animals died, two became ill and recovered, and one was treated with 2 mg / kg per body weight methylene blue 1%, and one cattle did not show changes. Clinical signs and lesions of the sickened and died animals were similar to natural cases. Microscopic changes were not observed in spontaneous and experimental poisoning. The diphenylamine test was positive in all the farms where the outbreaks occurred. The chemical analysis performed on samples of pasture from several farms in which outbreaks of the disease occured ranged from 0.30% to 3.36% of nitrate in the dry matter. The disease is associated with the ingestion of oats and ryegrass pastures heavily fertilizer, which accumulates high levels of nitrate after a period of rain and is characterized by rapid breathing, dark-colored blood, brown mucous and rapid death / Descrevem-se os dados epidemiológicos, sinais clínicos e lesões da intoxicação espontânea e experimental por nitrato e nitrito em bovinos que pastoreiam em pastagens de aveia (Avena sativa) e azevém (Lolium spp), o teste da Difenilamina e os teores de nitrato nas amostras de pastagens onde ocorreram os surtos. A enfermidade ocorre em diferentes regiões do estado de Santa Catarina, quando as pastagens tem crescimento exuberante, após receberem quantidades excessivas de adubo químico e/ou orgânico, principalmente quando ocorrem condições climáticas de seca e posteriormente chuva. Os animais em contato com essas pastagens desenvolveram rapidamente mucosas de coloração marrom, taquipnéia, andar cambaleante, micção frequente, timpanismo, decúbito lateral e morte em poucos minutos, ou recuperação algumas horas após. Na necropsia de quatro animais que adoeceram espontaneamente, as principais lesões encontradas foram a coloração marrom das mucosas, a cor escura do sangue (cor de chocolate) e a coloração vermelho intensa da musculatura esquelética e do miocárdio esquerdo. A reprodução experimental da doença foi realizada em sete bovinos, com pastagens de quatro propriedades onde ocorreu a doença. Aveia e azevém verdes e sob a forma de feno foram administradas aos bovinos, destes quatro morreram, dois adoeceram e recuperam-se, um naturalmente e outro com a aplicação de azul de metileno a 1%, na dose de 2 mg/kg/peso vivo, e um bovino não apresentou alterações. Os sinais clínicos observados e lesões dos animais que adoeceram e morreram foram idênticos aos casos naturais. Alterações microscópicas não foram observadas nos casos naturais e experimentais. O teste da difenilamina resultou positivo em todas as propriedades em que ocorreram os surtos. A análise bromatológica realizada em amostras coletadas de várias propriedades em que ocorreram surtos da enfermidade variaram de 0,30% a 3,36% de nitrato na matéria seca. A enfermidade caracterizou-se principalmente por respiração ofegante, sangue de coloração escura, mucosas de coloração marrom e morte rápida de bovinos e está relacionada á ingestão de pastagens de aveia e azevém superadubadas, que acumularam alto teor de nitrato, após um período de chuvas precedido de seca

nitrato/nitrito

metemoglobinemia

aveia (Avena sativa)

azevém (Lolium spp)

azul de Metileno

teste da Difenilamina

nitrate/nitrite

methahemoglobinaemia

oat (Avena sativa)

ryegrass (Lolium spp)

methylene blue

dyphenilamine test

Analisador micro-flow-batch usando uma micro-coluna de cádmio esponjoso em linha para a determinação fotométrica de nitrato e de nitrito em laticínios / Micro-flow-batch analyzer using an in-line cadmium sponge microcolumn for the photometric determination of nitrate and nitrite in dairy samples

Lima, Eduardo Antonio de

29 August 2013

Made available in DSpace on 2015-05-14T13:21:29Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 3046844 bytes, checksum: 9fc0abd4ac9137e94ab4a27445373f2f (MD5) Previous issue date: 2013-08-29 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / In this study, a micro-flow-batch analyzer (μFBA) using an in-line cadmium reduction microcolumn for the photometric determination of nitrate and nitrite in dairy samples was developed. The method is based on the Griess-Llosvay reaction and measuring of the absorbance at 540 nm using a green LED integrated into the μFBA built in the urethane-acrylate resin. Initially, the natural nitrite ion content of natural dairy sample product is determined in the micro-mixing chamber, while the nitrate is reduced to nitrite in the micro-column coupled to the micro cadmium sponge and then determined as in the micro-chamber nitrite. content of nitrate ions was estimated from the difference between the first and second determination. The analytical curve for nitrate and nitrite was linear in the work range of 10.0 100.0 μg L 1 with a correlation coefficient of 0.992 and 0.998, respectively. The limit of detection and relative standard deviation were estimated at 0.39 μg L 1 and < 1.7 % (n = 5) for nitrite and, 0.41 μg L 1 and < 1.3 % (n = 5) for nitrate. Comparing with the reference methods, no statistically significant differences were observed when applying the paired t-test at a 95% confidence level. The accuracy was assessed through recovery test (97.7 to 102.9 %). The proposed microsystem employed in-line cadmium sponge microcolumn presented satisfactory portability, robustness, flexibility, low-cost device and reduced chemicals consumption compared to recent methods. / Neste estudo, um analisador micro-flow-batch (μFBA) utilizando uma micro-coluna redutora de cádmio em linha foi desenvolvido para a determinação fotométrica de íons nitrato e nitrito em amostras de laticínios. O método empregado baseia-se na reação de Griess-Llosvay e a medição da absorbância foi realizada a 540 nm, utilizando um LED verde integrado na micro-câmara construída em resina fotopolimerizável uretano-acrilato. Inicialmente, o teor de íons nitritos natural da amostra de lacticínio é determinado na micro-câmara de mistura, enquanto que o nitrato é reduzido a nitrito na micro-coluna de cádmio esponjoso acoplada ao microssistema e posteriormente determinado na micro-câmara como nitrito. O teor de íons nitrato foi estimado a partir da diferença entre a segunda e a primeira determinação. A curva analítica para nitrato e para nitrito foi linear na faixa de trabalho de 10,0 a 100,0 μg L-1, com um coeficiente de correlação (r2) de 0,992 e 0,998, respectivamente. O limite de detecção e o desvio padrão relativo foi calculado em 0,39 μg L-1 e <1,7% (n = 5) para o nitrito, e 0,41 μg L-1 e <1,3% (n = 5) para o nitrato. Comparando-se com os métodos de referência, não foram observadas diferenças estatisticamente significativas quando se aplica o teste t pareado com nível de confiança de 95%. A exatidão do método foi avaliada através do teste de recuperação (97,7 a 102,9%). O microssistema proposto empregando a micro-coluna de cádmio esponjoso em linha apresentou portabilidade satisfatória, robustez, flexibilidade, aparelhagem simples e consumo reduzido de produtos químicos em relação aos métodos automáticos mais recentes.

Micro flow-batch

Uretana-acrilato

Coluna redutora de cádmio

Nitrato e nitrito

Laticínios

Micro-flow-batch analyzer

Urethane-acrylate resin

Cadmium reduction column

Nitrate and nitrite

Dairy samples

CIENCIAS EXATAS E DA TERRA::QUIMICA

Electrocaloric materials and devices

Crossley, Samuel

January 2013

The temperature and/or entropy of electrically polarisable materials can be altered by changing electric field E. Research into this electrocaloric (EC) effect has focussed on increasing the size of the EC effects, with the long-term aim of building a cooler with an EC material at its heart. Materials and experimental methods are briefly reviewed. A ‘resetting’ indirect route to isothermal entropy change ∆S for hysteretic first-order transitions is described. An indirect route to adiabatic temperature change ∆T, without the need for field-resolved heat capacity data, is also described. Three temperature controllers were built: a cryogenic probe for 77-420 K with ∼5 mK resolution, a high-temperature stage with vacuum enclosure for 295-700 K with ∼15 mK resolution, and a low-temperature stage for 120-400 K with electrical access via micropositioners. Automation enables dense datasets to be compiled. Single crystals of inorganic salts (NH4)2SO4 , KNO3 and NaNO2 were obtained. Applying 380 kV cm−1 across (NH4)2SO4 , it was found that |∆S| ∼ 20 J K−1 kg−1 and |∆T | ∼ 4 K, using the indirect method near the Curie temperature TC = 223 K. Without the ‘resetting’ indirect method, |∆S| ∼ 45 J K−1 kg−1 would have been spuriously found. Preliminary indirect measurements on KNO3 and NaNO2 give |∆S| ∼ 75 J K−1 kg−1 for ∆E ∼ 31 kV cm−1 near TC = 400 K and |∆S| ∼ 14 J K−1 kg−1 for ∆E ∼ 15 kV cm−1 near TC = 435 K, respectively. A cation-ordered PbSc0.5Ta0.5O3 ceramic showing a nominally first-order transition at 295 K was obtained. The Clausius-Clapeyron phase diagram is revealed via indirect measurements where |∆S| ∼ 3.25 J K−1 kg−1 and |∆T | ∼ 2 K, and direct measurements where |∆T | ∼ 2 K. Clamped samples show broadening of the field-induced transition. Epitaxial, ∼64 nm-thick SrTiO3 films were grown by pulsed laser deposition on NdGaO3 (001) substrates with a La0.67Sr0.33MnO3 bottom electrode. The indirect method gives |∆S| ∼ 8 J K−1 kg−1 and |∆T | ∼ 3.5 K near 180 K with |∆E| = 780 kV cm−1. Finite element modelling (FEM) was used to optimise the geometry of multilayered capacitors (MLCs) for EC cooling. Intrinsic cooling powers of 25.9 kW kg−1 are predicted for an optimised MLC based on PVDF-TrFE with Ag electrodes.

620.1

Metabolic network modelling of nitrification and denitrification under cyanogenic conditions

Mpongwana, Ncumisa

January 2019

Thesis (PhD (Chemical Engineering))--Cape Peninsula University of Technology, 2019 / Simultaneous nitrification and aerobic denitrification (SNaD) is a preferred method for single stage total nitrogen (TN) removal, which was recently proposed to improve wastewater treatment plant design. However, SNaD processes are prone to inhibition by toxicant loading with free cyanide (CN-) possessing the highest inhibitory effect on such processes, rendering these processes ineffective. Despite the best efforts of regulators to limit toxicant disposal into municipal wastewater sewage systems (MWSSs), free cyanide (CN-) still enters MWSSs through various pathways; hence, it has been suggested that CN- resistant or tolerant microorganisms be utilized for processes such as SNaD. To mitigate toxicant loading, organisms in SNaD have been observed to adopt a multiphase growth strategy to sequentially degrade CN- during primary growth and subsequently degrade TN during the secondary growth phase. However, CN- degrading microorganisms are not widely used for SNaD in MWSSs due to the inadequate application of suitable microorganisms (Chromobacterium violaceum, Pseudomonas aeruginosa, Thiobacillus denitrificans, Rhodospirillum palustris, Klebsiella pneumoniae, and Alcaligenes faecalis) commonly used in single-stage SNaD. The use of CN- degrading or resistant microorganisms for SNaD is a cost-effective method compared to the use of other methods of CN- removal prior to TN removal, as they involve multi-stage systems (as currently observed in MWSSs). The use of CN- degrading microorganisms, particularly when used as a consortium, presents a promising and sustainable resolution to mitigate inhibitory effects of CN- in SNaD. However, SNaD is known to be completely inhibited by CN- thus it is imperative to also study some thermodynamic parameters of SNaD under high CN- conditions to see the feasibility of the process. The Gibbs free energy is significant to understand the feasibility of SNaD, it is also vital to study Gibbs free energy to determine whether or not the biological reaction is plausible. The relationship between the rate of nitrification and Gibbs free energy was also investigated. The attained results showed that up to 37.55 mg CN-/L did not have an effect on SNaD. The consortia degraded CN- and achieved SNaD, with degradation efficiency of 92.9 and 97.7% while the degradation rate of 0.0234 and 0.139 mg/L/hr for ammonium-nitrogen (NH4-N) and CN- respectively. Moreover, all the free Gibbs energy was describing the individual processes were found to be negative, with the lowest Gibbs free energy being -756.4 and -1830.9 Kcal/mol for nitritation and nitratation in the first 48 h of the biological, reaction respectively. Additionally, a linear relationship between the rate of NH4-N and nitrite-nitrogen (NO2-N) degradation with their respective Gibbs free energy was observed. Linear model was also used to predict the relationship between NH4-N, NO2-N degradation and Gibbs free energy. These results obtained showed a good correlation between the models and the experimental data with correlation efficiency being 0.94 and 0.93 for nitritation, and nitratation, respectively. From the results found it can be deduced that SNaD is plausible under high cyanide conditions when cyanide degrading or tolerant microorganisms are employed. This can be a sustainable solution to SNaD inhibition by CN- compounds during wastewater treatment. Furthermore, a single strain was purified from the consortium and identified as Acinetobacter courvalinii. This bacterial strain was found to be able to perform sequential CN- degradation, and SNaD; an ability associated with multiphase growth strategy of the microorganism when provided with multiple nitrogenous sources, i.e. CN- and TN. The effect of CN- on nitrification and aerobic denitrification including enzyme expression, activity and protein functionality of Acinetobacter courvalinii was investigated. It was found that CN- concentration of up to 5.8 mg CN-/L did not affect the growth of Acinetobacter courvalinii. In cultures whereby the A. courvalinii isolate was used, degradation rates of CN- and NH4-N were found to be 2.2 mg CN-/L/h and 0.40 mg NH4-N/L/h, respectively. Moreover, the effect of CN- on NH4-N, nitrate-nitrogen (NO3-N) and NO2-N oxidizing enzymes was investigated, with findings indicating CN- did not affect the expression and activity of ammonia monooxygenase (AMO), but affected the activity of nitrate reductase (NaR) and nitrite reductase (NiR). Nevertheless, a slow decrease in NO2-N was observed after the addition of CN- thus confirming the activity of NaR and the activation of the denitrification pathway by the CN-. Moreover, five models’ (Monod, Moser, Rate law, Haldane, and Andrew’s model) ability to predict SNaD under CN- conditions, indicated that only Rate law, Haldane and Andrew’s models, were suited to predict both SNaD and CN- degradation. Due to low degradation rates of NH4-N and CN-, optimization of SNaD was essential. Therefore, response surface methodology was used to optimize the SNaD under CN- conditions. The physiological parameters that were considered for optimization were temperature and pH; with the result showing that the optimum for pH and temperature was 6.5 and 36.5oC respectively, with NH4-N and CN- degradation efficiency of 50 and 80.2%, respectively. Furthermore, the degradation kinetics of NH4-N and CN- were also studied under the optimum conditions in batch culture reactors, and the results showed that up to 70.6% and 97.3% of NH4-N and CN- were simultaneously degraded with degradation rates of 0.66 and 0.41 mg/L/h, respectively. The predictive ability of RSM was further compared with cybernetic models, and cybernetic models were found to better predict SNaD under CN- conditions. These results exhibited a promising solution in the management of inhibition effected of CN- towards SNaD at an industrial scale.

Aerobic denitrification

ammonia-oxidizing

biological nitrogen removal

cybernetic model

diauxic

free cyanide

Gibbs free energy

metabolic network

metabolism

modeling

nitrification

nitrification

nitrite-oxidizing bacteria

RSM models

total nitrogen

wastewater treatment

Schockwellensynthese und Charakterisierung von Aluminiumnitrid mit Kochsalzstruktur

Keller, Kevin

20 December 2013

Die vorliegende Arbeit beschreibt die Ergebnisse der Synthese und Charakterisierung der Hochdruckphase von Aluminiumnitrid mit Kochsalzstruktur (rs-AlN). Die Versuche wurden mittels Schockwellensynthese unter Verwendung der „flyer-plate-Methode“ mit anschließender Probenrückgewinnung durchgeführt. Für verschiedene Aluminiumnitridpulver mit einer Ausgangsporosität k = rho_solid/rho_porous von 1,5 bis 2,5 wurde bei einem Druck von 15 bis 43 GPa die Phasenumwandlung von der Wurtzitstruktur (w-AlN) in die Kochsalzstruktur (rs-AlN) bewirkt. Es ist damit erstmals gelungen, rs-AlN mit dynamischen HP-HT-Methoden herzustellen und damit Probenmengen im Milligramm- bis Grammbereich zu erhalten. Dadurch ist es möglich Untersuchungen durchzuführen, die zur weiteren Erforschung und Charakterisierung des Materials beitragen sollen. Im Fokus liegen dabei insbesondere die Untersuchung der mechanischen, thermischen und chemischen Stabilität, um die Eignung des Materials zur Herstellung ultraharter Komposite zu evaluieren. Die geschockten Pulver bestehen aus einem Phasengemisch aus dem Ausgangsmaterial (w-AlN), der Hochdruckphase (rs-AlN), Aluminiumoxid und -oxynitriden, sowie amorphen Aluminiumhydroxiden. Die höchste Ausbeute an rs-AlN (~41 Ma% bei 2 mm Probenhöhe) kann bei Drücken von 24 GPa und einer Ausgangsporosität k von 2,1 erhalten werden. Anhand dem Auftreten verschiedener Al-O-N Phasen kann die Schocktemperatur für die einzelnen Versuche abgeschätzt werden (<1700 °C bis <2000 °C). Die Phasenumwandlung wird durch die Temperaturerhöhung aufgrund der Schockkompaktion der Pulver aktiviert. Als entgegenwirkender Prozess wurde die thermisch aktivierte Rückwandlung in die Niederdruckphase w-AlN aufgrund einer zu hohen Post-Schocktemperatur und einem zu langsamen Abkühlen der Probe postuliert. Daraus ergibt sich eine optimale Temperatur für den Versuchsaufbau von 1700 bis 1900 °C, bei der die höchsten rs-AlN Anteile beobachtet wurden. Eine Verringerung der Probenhöhe erhöht den Einfluss von Mehrfachreflektionen in der Probe und trägt damit zur Verbesserung der Umsetzung bei. Für drei Nanopulver (Kristallitgröße <25 nm) wurde die teilweise Umwandlung in die Kochsalzstruktur beobachtet, wohingegen für ein gröberes Nanopulver und ein Submikropulver (Kristallitgröße >45 nm) kein rs-AlN in den geschockten Proben nachgewiesen werden konnte. Es wird ein Stabilisierungsmechanismus der Kochsalzstruktur durch Kristallitgrößeneffekte vorhergesagt. Die Verringerung der Kristallitgröße führt zur Herabsetzung des Umwandlungsdrucks w-AlN -> rs-AlN. Es lässt sich daher schlussfolgern, dass für kleinere Partikel die Hochdruckmodifikation aufgrund der geringeren Entfernung vom chemischen Gleichgewicht bei Normalbedingungen stabilisiert werden kann, wohingegen für größere Kristallite die Rückwandlung in die Ausgangsphase geschieht. Weitere Stabilisierungsmechanismen wurden diskutiert. Mithilfe einer Rietveld-Verfeinerung der Röntgendiffraktogramme wurde die Gitterkonstante des rs-AlN mit a = 4,044 ± 0,001 Å und die Kristallitgröße mit 15,3 ± 0,2nm bestimmt. Die mittels hoch-aufgelöster Transmissionselektronenmikroskopie (TEM) bestimmte Kristallitgröße (10 bis 20 nm) ist in guter Übereinstimmung mit den Ergebnissen der Rietveld-Verfeinerung. Mit 27Al Kernspinresonanzspektroskopie (NMR) wurde die oktaedrische Al–N-Umgebung (AlN6) mit einer korrigierten chemischen Verschiebung von 2 ppm nachgewiesen. Anhand der IR-Spektren wird eine Al–N-Schwingungsbande des rs-AlN bei ca. 490 cm−1 vermutet. Dynamisch-thermische Untersuchungen zeigen, dass nanokristallines rs-AlN bei 600 °C beginnt zu Aluminiumoxid zu oxidieren und damit keine größere Beständigkeit im Vergleich zum w-AlN zeigt. Die thermisch aktivierte Rückwandlung des rs-AlN in die Niederdruckphase wurde ab 1200 °C (in Argon) bzw. 1100 °C (im Vakuum) bei einer Heizrate von 10 K/min beobachtet. Eine gute chemische Beständigkeit des Aluminiumnitrid mit Kochsalzstruktur gegenüber Wasser, Natronlauge und Säuren (HCl, H2SO4, H3PO4, HNO3 und Königswasser) wurde in Langzeit-Löslichkeitsversuchen nachgewiesen.:1. Einleitung 2. Grundlagen 3. Methoden und experimentelle Details 4. Ergebnisse 5. Diskussion 6. Schlussfolgerungen und Ausblick / In the present work the results of the synthesis and characterisation of the high-pressure phase of aluminium nitride with rocksalt structure (rs-AlN) are presented. The experiments were carried out with the flyer-plate-method with subsequently sample recovery. For different aluminium nitride powders with starting porosities k = rho_solid/rho_porous of 1.5 to 2.5 the phase transition from wurtzite structure (w-AlN) to the rocksalt structure (rs-AlN) was induced at a pressure of 15 to 43 GPa. This is to our knowledge the first succesful synthesis of rs-AlN with dynamic HP-HT methods. With this advance, samples in the milligram or gram range can be produced. Therefore further investigations to characterise the material are possible, especially the study of the mechanical, thermal and chemical stability to validate the potential for the production of ultrahard composites. The shocked samples consist of a phase mixture from the starting material (w-AlN), the high-pressure phase (rs-AlN), aluminium oxide and oxynitrides, as well as amorphous aluminium hydroxides. The highest yield of rs-AlN (~41 wt% at 2 mm sample height) can be obtained at a pressure of 24 GPa and a starting porosity k of 2.1. The shock temperature can be estimated by the formation of different Al-O-N phases (<1700 °C to <2000 °C). The phase transition is activated by the raise of temperature due to shock compression. A thermal activated reconversion to the low-pressure phase w-AlN caused by a high post-shock temperature and a slow cooling of the sample is postulated as a contrary process. This results in an optimum temperature of 1700 to 1900 °C for this set-up. A decrease of the sample height increases the influence of multiple reflections and therefore causes a better transformation. A partial conversion to rs-AlN was observed for three nanopowders (crystallite size <25 nm), whereas for a more coarse nanopowder and an submicronpowder (crystallite size >45 nm) no rs-AlN could be found in the shocked samples. A stabilisation mechanism of the rocksalt phase by crystallite size effects is predicted. The reduction of the crystallite size causes a decrease of the transition pressure for w-AlN -> rs-AlN. It can be concluded, that for smaller particles the high-pressure phase can be stabilised at ambient conditions on the basis of the smaller distance from equilibrium, whereas for larger particles the reconversion to the low-pressure phase occurs. By a Rietveld refinement of the X-ray diffractograms, the lattice constant of rs-AlN and the crystallite size was determined to be a = 4.044 ± 0.001 Å respectively 15.3 ± 0.2 nm. The crystallite size of rs-AlN (10 to 20 nm) determined with high-resolution transmission electron microscopy (TEM) is in good agreement with the results of the Rietveld refinement. The octahedral Al–Npolyhedral (AlN6) was demonstrated by 27Al nuclear magnetic resonance spectroscopy (NMR) with a corrected chemical shift of 2 ppm. Based on infrared spectroscopy (FTIR) an AlN vibration band at about 490 cm−1 is assumed. Dynamic thermal analysis show, that the rs-AlN starts to oxidise to alumina at 600 °C and thus have no greater resistance in comparison with w-AlN. The thermal activated reconversion of rs-AlN to the low-pressure phase starts at 1200 °C (in argon) respectively 1100 °C (under vacuum) at a heating rate of 10 K/min. The aluminium nitride with rocksalt structure shows a good chemical resistance against water, caustic soda and acids (HCl, H2SO4, H3PO4, HNO3 and aqua regia).:1. Einleitung 2. Grundlagen 3. Methoden und experimentelle Details 4. Ergebnisse 5. Diskussion 6. Schlussfolgerungen und Ausblick

info:eu-repo/classification/ddc/540

ddc:540

Untersuchungen zur Prävalenz und Stammdiversität sowie zur Tenazität von Campylobacter spp. aus lebensmittelhygienischer Sicht

Hamedy, Ahmad

18 September 2012

Today, thermophilic Campylobacter spp. (besides Salmonella) represent one of the most common sources of human bacterial gastrointestinal infection. The main source of human C. jejuni infections is the consumption of insufficient heated chicken meat. Quantitative data on the occurrence of thermophilic Campylobacter spp. on poultry carcasses and poultry meat are needed to perform quantitative risk assessments and to verify the effect of different intervention strategies. The aims of the investigations presented here were (i) to generate accurate qualitative and quantitative data on the occurrence of Campylobacter spp. on within the primary production stage in at the abattoir and food, (ii) to study the behaviour of nine genotypically different C. jejuni strains in chicken meat juice supplemented with different concentrations of sodium chloride, curing salt and sodium nitrite, (iii) to detect the Campylobacter genotype distribution in poultry flocks by applying AFLP analysis and to describe a potential carry-over of Campylobacter strains among sequential and adjacent poultry flocks. For the above mentioned purposes, a number of samples (171 neck skin samples, 1047 samples of different turkey meat products and 112 turkey minced meat samples from an abattoir) were investigated in accordance with themethod of ISO / TS 10272-2: 2006 and ISO10272-1: 2006 to the quantitative and qualitative presence of Campylobacter spp.. The Campylobacter-strains were inoculated in chicken juice at initial concentrations of 102 and 104 CFU/ml and incubated for 24h at 42°C. Furthermore, 18 flocks of four poultry species were monitored to investigate the distribution and spread of Campylobacter genotypes between sequential and adjacent flocks. Caecal and liver samples were obtained at frequent intervals from birds of all flocks and these samples were examined for Campylobacter. The amplified fragment length polymorphism (AFLP) analysis was performed to genotype Campylobacter isolates. The prevalence of Campylobacter on neck skin was 83.0 % and the mean number was 2.00 log10 cfu/g. For turkey meat samples with skin (wings and thighs) the detected prevalence was 68.2 % and mean number 1.73 log10 cfu/g, respectively. Turkey meat samples without skin (breast filet) showed a prevalence of 79.0 % and a mean number of 1.58 log10 cfu/g. No Campylobacters were detectable in the turkey minced meat samples. Large variations between the detectable numbers of Campylobacter spp. were observed (maximum number up to 3.98 log10 cfu/g for turkey meat with skin) and confirm the importance of an early detection (before or during slaughter and processing) of these heavily contaminated slaughter lots. Whereas the strains multiplied in the media supplemented without additional of NaCl or with 1% NaCl, the bacterial population was significantly reduced when 2% NaCl was added. Growth did not occur and the cell number gradually decreased in chicken meat juice containing 3% NaCl. Significant differences in the survival potential among the different strains were only visible in the extreme condition of 3% NaCl supplementation. There was no different behaviour of the strains under the influence of NaCl compared with the behaviour in meat juice containing curing salt. The addition of sodium nitrite did not alter the survival. Of the 1643 caecal and liver samples investigated, 452 (27.5%) caecal samples and 11 (0.7%) liver samples contained Campylobacter. Of the caecal isolates 76.3% were identified as C. jejuni and 23.7% were identified as C. coli. Poultry flocks were largely colonized by more than one AFLP type and an intense exchange of Campylobacter genotypes between different poultry flocks occurred. The results show clearly that poultry and poultry meat are regarded as one of the main sources of thermophilic Campylobacter spp. infection in humans in the food chain. This is evident not only from the high rate of occurrence of these pathogens, but also from the often-high quantitative exposure samples. The risk of a foodborne infection is also enhanced by the comparatively very low minimum infectious dose for humans. At present, a complete elimination of thermophilic Campylobacter spp. from the food chain appears practically unreachable. This difficulty is reduced by the results of genetic strain diversity, because they suggest the existence of a variety of input sources. / hermophile Campylobacter (C.) spp. stellen heute neben den Salmonellen eine der häufigsten Ursachen für bakteriell bedingte Magen-Darm-Erkrankungen beim Menschen dar. Unzureichend erhitztes Geflügelfleisch und Geflügelfleischprodukte stellen eine der Hauptinfektionsquellen für humane C. jejuni-Infektionen dar. Quantitative Daten über die Belastung von Geflügelkarkassen und Geflügelfleisch mit thermophilen Campylobacter spp. werden benötigt, um einerseits quantitative Risikobewertungen durchführen zu können, andererseits aber auch den Erfolg verschiedener Interventionsmaßnahmen messen zu können. Zur Minderung der Zahl alimentär bedingter humaner Campylobacter-Infektionen spielt neben der Senkung der Campylobacter-Belastung von Nutztieren und der Vermeidung von Kreuzkontaminationen auch die Reduktion des Vorkommens des Erregers in der Lebensmittelkette durch technologische Prozesse eine große Rolle. Campylobacter spp. sind während der Be- und Verarbeitung von Lebensmitteln verschiedensten Stressoren ausgesetzt. Ziele der hier vorgestellten Untersuchungen waren, (i) Exakte qualitative und quantitative Daten zum Vorkommen von Campylobacter spp. in der Primärproduktion, auf dem Schlachthof und in Lebensmitteln zu ermitteln. (ii) Die Tenazität ausgewählter, genetisch unterschiedlicher C. jejuni-Stämme gegenüber verschiedenen Natriumchlorid-, Pökelsalz- und Natriumnitrit-Konzentrationen im Geflügelfleischsaftmodell zu untersuchen. (iii) Die Verwandtschaftsgrade der isolierten Stämme mit Hilfe einer molekularbiologischen Fingerprintingmethode (AFLP-Typisierung) darzustellen sowie das Vorkommen von thermophilen Campylobacter in verschiedenen Geflügelarten in einem Betrieb zu ermitteln. Dazu wurden 171 Halshautproben, 783 Proben verschiedener Putenfleischerzeugnisse und 233 Putenhackfleischproben aus einem Schlacht- und Zerlegebetrieb in Anlehnung an die Methode ISO/TS 10272-2: 2006 und ISO10272-1:2006 auf das quantitative und qualitative Vorkommen von Campylobacter spp. untersucht. Der Keimzahlverlauf wurde in experimentell kontaminiertem Geflügelfleischsaft (Zusatz von C. jejuni: 102 und 104 KbE/ml) über einen Zeitraum von 24 h (Bebrütungstemperatur 37°C) untersucht. 19 verschiedene Wirtschaftsgeflügel-Herden wurden untersucht, um die Verteilung und Ausbreitung von Campylobater-Genotypen zwischen sequentiellen und angrenzenden Herden festzustellen. Blinddarm- und Leber-Proben wurden in kurzen Abständen von Vögeln aller Herden gewonnen und untersucht . Für die Genotypisierung von Campylobacter spp. wurde die AFLP-Methode eingesetzt. Im Ergebnis wurden auf 83,0 % der Halshautproben Campylobacter spp. nachgewiesen, wobei der Mittelwert der quantitativen Belastung von Putenhalshautproben bei 2,00 log10 KbE/g lag. Putenfleischproben mit Haut waren zu 54,8 % Campylobacter positiv. Hier betrug die quantitative Belastung 1,79 log10 KbE/g. Bei Putenfleisch ohne Haut lagen die Nachweisraten bei 52,2,% bzw. 2,03 log10 KbE/g. In keiner der Putenhackfleischproben war Campylobacter nachweisbar. Große Schwankungen in der quantitativen Belastung (Maximalwerte bis 4,0 log10 KbE/g bei Putenfleisch mit Haut) bestätigen die Notwendigkeit, vor allem die stark belasteten Schlachtpartien schon vor bzw. während der Schlachtung und Verarbeitung identifizieren zu können. In Geflügelfleischsaft ohne bzw. mit Zusatz von 1% NaCl konnten sich alle Stämme vermehren, während das Wachstum bei 2% NaCl-Zusatz gehemmt wurde. Darüber hinaus konnte bei höherer NaCl-Konzentration (3%) eine Reduktion der Keimzahl nach 6 h Bebrütung bzw. ein Absterben von C.jejuni nach 24 h festgestellt werden. Dabei zeigten die Stämme im Geflügelfleischsaft mit 3% NaCl-Zusatz signifikante Unterschiede in ihrer Absterberate. Es konnte gezeigt werden, dass unterschiedlich ausgeprägte Salztoleranzen innerhalb der untersuchten Stämme mit unterschiedlichem Genotyp existieren, diese jedoch nur unter Extremsituationen signifikant ausgeprägt waren. Durch die Zugabe von praxisüblichen Pökelsalzkonzentrationen anstelle von Kochsalz und von Natriumnitrit konnte das Verhalten von C. jejuni in keinem Versuchsansatz beeinflusst werden. 452 Caecalproben (27,5%) und 11 Leberproben (0,7%) von insgesamt 1643 Caecal- und Leberproben wurden positiv auf Campylobacter spp. getestet. Von den 1643 aus dem Caecum stammenden getesteten Isolaten wurden 76,3% der Isolate als C. jejuni und (23,7%) der Isolate als C. coli identifiziert. Die AFLP- Analyse zeigte einen signifikanten Unterschied in der Diversität der AFLP-Typen aus den individuellen Herden und Proben aus unterschiedlichen Herden. Dies deutet auf eine große Zahl von Infektionsquellen hin. Die Ergebnisse belegen insgesamt sehr deutlich, dass Geflügel- Geflügelfleisch eine bedeutsame Quelle des Eintrags von Campylobacter-Keimen in die Nahrungskette ist. Das geht nicht nur aus der hohen Rate des Vorkommens dieser Erreger hervor, sondern auch aus der oftmals hohen quantitativen Belastung der Proben. Das Risiko einer Lebensmittelinfektion wird zudem durch die vergleichsweise sehr geringe minimale Infektionsdosis für den Menschen erhöht. Eine vollständige Elimination von thermophilen Campylobacter spp. aus der Lebensmittelkette erscheint derzeit praktisch nicht erreichbar. Diese Schwierigkeit wird durch die Ergebnisse zur genetischen Stammdiversität untersetzt, denn sie legen die Existenz einer Vielzahl unterschiedlicher Eintragsquellen nahe.

info:eu-repo/classification/ddc/636.089

ddc:636.089

Understanding Liquid-Air Interface Corrosion of Steel in Simplified Liquid Nuclear Waste Solutions

Li, Xiaoji

12 July 2013

No description available.

Materials Science

Liquid nuclear Waste

liquid-air interface corrosion

LAI corrosion

meniscus

carbon steel

electrochemical measurements

in-situ Raman spectroscopy

nitrate ion

nitrite ion

oxygen concentration cell

ohmic potential drop

salt concentration cell

Methemoglobin Formation via Nitric Oxide and Comparison of Methemoglobin, Deoxyhemoglobin, and Ferrous Nitrosyl Hemoglobin as Potential MRI Contrast Agents

Ayati, Roya

13 December 2022

Gadolinium-based contrast agents (GBCAs) are in widespread use to enhance magnetic resonance angiography images for evaluating vascular pathology. However, there are safety concerns and limitations regarding the use of GBCAs. It has been shown that the magnetic resonance imaging (MRI) signal intensity (T1-weighted images) in some of the brain's tissues is higher for patients who had multiple exposures to GBCAs compared to patients who had never had exposure to GBCAs. This implies that GBCAs are not sufficiently removed from body such that GBCAs may potentially have long-term effects on the human body. These potential safety concerns have led to an increased interest in alternative contrast agents. Methemoglobin (metHb) and oxygen-free hemoglobin (HHb) are two forms of hemoglobin with paramagnetic properties. It has been shown that the T1-weighted signal intensity of blood is changed during MRI scans for metHb and HHb, leading to enhanced contrast of MRI images. The ability of metHb and HHb to change the signal intensity has led to the idea that they can be used as effective contrast agents. MetHb can be made by exposing oxyhemoglobin (oxyHb) to nitric oxide (NO) and HHb can be made by removing the oxygen from hemoglobin using nitrogen (N2). In this study, a new gas delivery system was developed to make metHb and HHb. The new gas delivery system was developed to have greater experimental control compared to the PermSelect hollow-fiber module that was used in preliminary studies to make metHb. The same system can be used to make HHb. Initial experiments showed significant amounts of undesired nitrite (NO2-) formation during metHb formation due to the presence of contaminants in the NO gas source. To minimize this problem, flow of NO from the gas source was bubbled in a sodium hydroxide solution in order to reduce the NO2- concentration. Following metHb formation, continuous delivery of NO also led to the formation of ferrous nitrosyl hemoglobin (HbIINO). MRI studies showed that HbIINO can also increase the signal intensity of an MRI image. It is unknown as to whether metHb, HHb, or HbIINO would be a stronger and more appropriate contrast agent and to what extent the T1-weighted signal is affected by the concentration. This study evaluated T1-weighted images of blood samples over a range of metHb and HHb concentrations, as well as HbIINO concentrations. Comparison of T1 values showed that metHb is the strongest contrast agent and that HHb is a relatively weak contrast agent. This study showed for the first time that HbIINO can provide a contrast effect, although not as strong as metHb but stronger than HHb. With metHb providing a viable contrast between 10-20%, metHb has the potential to be a safe and effective contrast agent since it can be naturally converted back to hemoglobin.

Roya Ayati

methemoglobin

deoxyhemoglobin

ferrous nitrosyl hemoglobin

ferric nitrosyl hemoglobin

magnetic resonance imaging

MRI

T1 relaxation time

T1-weighted

gadolinium-based contrast agents

nitrite

nitric oxide

hemoglobin

contrast agent

Engineering

Effect of low frequency ultrasound and ultraviolet-C light for water disinfection in recirculating aquaculture systems

Lakeh, Amir Abbas Bazyar

26 February 2015

In der Aquakultur sind Kreislaufanlagen ein umweltfreundliches und wassersparendes Produktionsverfahren. Hohe Besatzdichten und das Prinzip der Wasserführung im Kreislauf führen jedoch auch zu einem erhöhten Risiko von Infektionskrankheiten. In dem hier beschriebenen Projekt wurde untersucht, wie sich niederfrequenter Ultraschall (nf-US) in Kombination mit der in der Aquakultur bewährten UV-C Bestrahlung zur Kontrolle von Pathogenen einsetzen lässt. Es wurden vergleichende Untersuchungen zur Effizienz von nf-US, UV-C und deren Kombination gegen prokaryotische und eukaryotische Modellorganismen durchgeführt. Während sich UV-C als sehr effektiv gegen Bakterien erwies, konnte die Gesamtkeimzahl mit nf-US nicht reduziert werden. Eine Vorbehandlung des Wassers mit nf-US verringerte jedoch die mittlere Größe der im Wasser suspendierten Partikel und konnte so die Effektivität von UV-C zur Inaktivierung von Bakterien verbessern. Zur Abtötung eukaryotioscher Organismen wird eine deutlich höhere UV-Dosis als zur Kontrolle von Bakterien benötigt. Eine starke Erhöhung der UV-C Dosis ist jedoch durch die dann mögliche photo-induzierte Bildung von Nitrit aus Nitrat limitiert. Alternativ könnte nf-US zur Abtötung eukariotischer Parasiten verwendet werden. Unterschiedlichen Organismen unterscheiden sich stark in ihrer Empfindlichkeit gegenüber nf-US, wobei sich die dosisabhängige Abtötung sehr gut mit Funktionen einer exponentiellen Abnahme beschreiben lässt. Die toxikologische Untersuchung des mit UV-C und/oder nf-US behandelten Wassers mit dem Fischeitest und dem Leuchtbakterientest ergab keinen Hinweis auf die Bildung toxischer Nebenprodukte. Diese Studie zeigt, dass nf-US mit Dosen, die gegen eine Vielzahl an Parasiten wie Ciliaten, Nematoden und Crustaceen wirksam sind, sicher eingesetzt werden kann. Die Kombination von nf-US und UV-C könnte ein geeignetes Verfahren sein, um alle relevanten Pathogene in Kreislaufanlagen zu kontrollieren. / Recirculating aquaculture systems are well-known as environmentally friendly and high water-efficient production systems. The high stocking densities and low water exchange leads to an increased risk of infectious diseases. In this project the combination of low frequency ultrasound (LFUS) with ultraviolet-C (UV-C) light for the control of pathogens was studied. A comparative study about the efficiency of LFUS, UV-C and their combination against prokaryotic and eukaryotic model organisms was performed. Against bacteria, the application of UV-C was very effective, while the application of LFUS was not effective. However, a pretreatment of the water with LFUS decreased the average size of the suspended particles and improved the bactericidal effect of UV-C light. Compared to the low bactericidal dose of UV-C, a much higher UV-C dose was required for inactivation of eukaryotic model organisms. A significant increase of UV-C dose, however, can be limited by the possible photo-induced formation of nitrite from nitrate. Alternatively, LFUS can be used to kill eukaryotic parasites. However, the efficiency of LFUS differed greatly between species and can be well described by functions of an exponential decay. The evaluation of whole effluent toxicity by using the fish egg test and luminescent bacteria test revealed no evidence of toxic disinfection by-products formation during UV-C irradiation and/or LFUS sonication. This study shows that LFUS can be applied safely at energy densities that are effective against a wide range of eukaryotic parasites like ciliates, nematodes and crustaceans. The combination of LFUS and UV-C could provide an appropriate water treatment with respect to all relevant pathogens in recirculating aquaculture systems.

Niederfrequenz-Ultraschall

Ultraviolet-C

Desinfektion

Geschlossene Kreislaufanlagen

Nitrit

Low frequency ultrasound

Ultraviolet-C

Disinfection

Recirculating aquaculture system

Nitrite

39 Landwirtschaft, Garten

ZD 38100

ZD 42000

ddc:630