Sulphur Amino Acid Requirement and Metabolism in the Total Parenteral Nutrition (TPN) Fed Human Neonate

Courtney-Martin, Glenda

23 September 2009

Except for tyrosine, the amino acid requirement of parenterally fed (PN) human neonates has not been derived. Methionine and cysteine are indispensable and dispensable sulphur amino acids respectively. Cysteine is synthesized from methionine. Cysteine is unstable in solution, and is left out or added in very small amounts to amino acid solutions. Methionine is added to compensate for the lack of cysteine, assuming that the neonate will convert methionine to cysteine to meet the body’s metabolic demand. Methionine is hepatotoxic and there is evidence that the neonate has limited ability for its conversion to cysteine. To determine the requirement of the neonate for methionine, PN-fed, stable, post-surgical neonates received graded intakes of methionine. The mean methionine requirement was estimated to be 49 mg.kg-1.day-1, which is 48 to 90% of the methionine content of current commercial amino acid solutions. Because cysteine is the rate limiting substrate for glutathione (GSH) synthesis and current methods of determining amino acid requirement measure requirement for protein synthesis, SAA requirements for maintenance of GSH status was deleniated in healthy adult males and in PN-fed human neonates. GSH kinetics was measured in healthy men receiving the mean methionine requirement and graded intakes of cysteine. GSH synthesis did not change with the addition of cysteine. Additionally, PN-fed post-surgical neonates recieved a methionine-adequate cysteine-free PN followed by cysteine supplemented PN for two 3-day periods and GSH kinetics measured on days 3 and 6. There was no change in GSH synthesis in response to cysteine supplementation. It is concluded that the PN-fed human neonate is capable of synthesizing enough cysteine from methionine not only for protein synthesis but for GSH synthesis. For both healthy men and stable post-surgical neonates, the requirement for GSH synthesis is met at the sulphur amino acid requirement derived using the indicator amino acid technique

sulphur amino acids

methionine

cysteine

glutathione

neonate

methionine requirement

parenteral nutrition

antioxidant

amino acid requirement

methionine requirement

cysteine metabolism

methionine metabolism

cystathionine

homocysteine

urinary sulphate

breakpoint analysis

0570

Sulphur Amino Acid Requirement and Metabolism in the Total Parenteral Nutrition (TPN) Fed Human Neonate

Courtney-Martin, Glenda

23 September 2009

Except for tyrosine, the amino acid requirement of parenterally fed (PN) human neonates has not been derived. Methionine and cysteine are indispensable and dispensable sulphur amino acids respectively. Cysteine is synthesized from methionine. Cysteine is unstable in solution, and is left out or added in very small amounts to amino acid solutions. Methionine is added to compensate for the lack of cysteine, assuming that the neonate will convert methionine to cysteine to meet the body’s metabolic demand. Methionine is hepatotoxic and there is evidence that the neonate has limited ability for its conversion to cysteine. To determine the requirement of the neonate for methionine, PN-fed, stable, post-surgical neonates received graded intakes of methionine. The mean methionine requirement was estimated to be 49 mg.kg-1.day-1, which is 48 to 90% of the methionine content of current commercial amino acid solutions. Because cysteine is the rate limiting substrate for glutathione (GSH) synthesis and current methods of determining amino acid requirement measure requirement for protein synthesis, SAA requirements for maintenance of GSH status was deleniated in healthy adult males and in PN-fed human neonates. GSH kinetics was measured in healthy men receiving the mean methionine requirement and graded intakes of cysteine. GSH synthesis did not change with the addition of cysteine. Additionally, PN-fed post-surgical neonates recieved a methionine-adequate cysteine-free PN followed by cysteine supplemented PN for two 3-day periods and GSH kinetics measured on days 3 and 6. There was no change in GSH synthesis in response to cysteine supplementation. It is concluded that the PN-fed human neonate is capable of synthesizing enough cysteine from methionine not only for protein synthesis but for GSH synthesis. For both healthy men and stable post-surgical neonates, the requirement for GSH synthesis is met at the sulphur amino acid requirement derived using the indicator amino acid technique

sulphur amino acids

methionine

cysteine

glutathione

neonate

methionine requirement

parenteral nutrition

antioxidant

amino acid requirement

methionine requirement

cysteine metabolism

methionine metabolism

cystathionine

homocysteine

urinary sulphate

breakpoint analysis

0570

Soil Iron, Aluminum, and Phosphorus Dynamics in Response to Long-Term Nitrogen and Sulfur Additions at the Bear Brook Watershed in Maine

Sherman, Jessica F.

January 2005

No description available.

Transport et chimie d'espèces soufrées et bromées dans la haute troposphère et basse stratosphère diagnostiqués par des mesures sous ballon et en avion et par modélisation / Transport and chemistry of sulfur and bromine compounds in the upper troposhere and lower stratosphere diagnosed by balloon and aircraft measurements and modelling

Krysztofiak, Gisèle

17 October 2013

Le phénomène de destruction de l’ozone est un sujet vaste mettant en scène de nombreux processus. Il a pour origine l’émission de composés dits gaz sources (SGs) dans la troposphère. Récemment, les espèces à très courte durée de vie (VSLS) ont été identifiées comme SGs possibles. Cependant, elles ne possèdent pas un temps de vie suffisamment long pour atteindre directement la stratosphère. Les VSLS se dégradent au cours de leur transport, conduisant à des composés intermédiaires, les gaz produits (PGs). Les SGs et les PGs des VSLS vont entrer dans la stratosphère au niveau des régions équatoriales où règne un transport vertical rapide, la convection. Les SGs à temps de vie plus long peuvent accéder à la stratosphère par tous les types de transport possibles. Une fois dans la stratosphère, les SGs et PGs vont être convertis en espèces réactives capables de détruire l’ozone. Cette thèse présente l’étude des différentes étapes se produisant avant la destruction de l’ozone : l’émission et le transport des SGs dans l’atmosphère, leur chimie de dégradation au cours de leur transport et enfin leur contribution à la destruction de l’ozone. Les traceurs chimiques tels que CO sont tout d’abord utilisés pour mettre en évidence le transport des SGs et PGs de la troposphère à la stratosphère. Puis, deux études décrivant 2 types d’espèces différentes, entrant dans le processus de destruction de l’ozone, sont présentées : pour OCS (sulfure de carbonyle) et les VSLS bromés (CHBr3 et CH2Br2). OCS est l’un des principaux précurseurs d’aérosols sulfatés présents dans la stratosphère catalysant la destruction de l’ozone par chimie hétérogène. Cependant, sa contribution à cette couche comporte de nombreuses incertitudes. Ses sources d’émissions, sa répartition avec la latitude et sa contribution à la couche d’aérosols sulfatés sont présentées. La contribution des VSLS bromées au brome de la stratosphère est une question en cours de résolution. Leur chimie au cours de leur transport dans l’atmosphère est décrite de manière détaillée. / Ozone depletion is a complex subject involving several processes starting by the emission of the sources gases (SGs) in the lower troposphere. Recently the VSLS (very short lived substances) have been identified as potential SGs. However they do not have a lifetime long enough to reach directly the stratosphere. During the transport, the VSLS undergo degradation leading to products gases (PGs). The SGs and PGs of the VSLS reach the stratosphere in the Tropical region where a rapid vertical transport occurs, the convection. The SGs with longer lifetime can reach the stratosphere by any transport pathway from the location of their emissions. Once in stratosphere the SGs and PGs will be converted into reactive species able to deplete ozone. This thesis presents the study of the several steps occurring before the ozone depletion: SGs emission, SGs and PGs transport into the atmosphere, the chemical degradation occurring during their transport and finally their contribution to the ozone depletion. First, chemical tracers, as CO, are used to highlight the main pathways from the troposphere to the stratosphere. Then two studies of two different types of species entering in the process of ozone destruction are presented: for OCS (carbonyl sulfide) and the brominated VSLS (CHBr3 et CH2Br2). OCS is one of the sulfate aerosols precursors catalyzing the ozone depletion. However, OCS contribution to this layer has some uncertainties. OCS emission sources, the latitude repartition and the contribution to the sulfate aerosols are presented. The contribution of the brominated VSLS to the stratospheric bromine is a key issue that being almost resolved. The brominated VSLS chemical degradation during the atmospheric transport will be described in detail.

Echange troposphère-stratosphère

Traceurs chimiques

VSLS bromées

Espèces soufrées

Modélisation atmosphérique

Troposphere-stratosphere exchange

Chemical tracers

Brominated VSLS

Sulphur species

Atmospheric modelling

Bioeficácia de fontes alternativas de metionina em relação à DL-metionina em frangos de corte (Cobb 500) / Bioefficacy of alternative methionine sources relative to DLmethionine in broilers (Cobb 500)

Sangali, Cleiton Pagliari

14 June 2012

Made available in DSpace on 2017-07-10T17:48:29Z (GMT). No. of bitstreams: 1 Cleiton_Pagliari_Sangali.PDF: 810970 bytes, checksum: 721cfbdc17482672e30e45378a255317 (MD5) Previous issue date: 2012-06-14 / Fundação Araucária / Aiming to assess the relative bioefficacy of DL-2-hydroxy-4-methylthio butanoic acid (DL-HMBA) and of poly-herbal ingredient (PHI) relative to DL-methionine (DLM) in broilers, two experiments were conducted. In the first experiment, 1100 Cobb 500 males and females broilers were fed either, from 1 to 21 days of age with a methionine-deficient basal diet, or the basal diet with three levels (0.170, 0.340, 0.511%) of DL-HMBA or three levels (0.111, 0.221, 0.332%) of DLM in equivalent amount of 65% of the levels of DL-HMBA or still, three levels (0.111, 0.221, 0.332%) of PHI, in equivalent amount the levels of DLM. In the second experiment, 900 Cobb 500 male broilers were fed either, from 22 to 42 days of age with a methionine-deficient basal diet, or the basal diet with three levels (0.143, 0.286 e 0.429%) of DL-HMBA or three levels (0.093, 0.186 e 0.279%) of DLM in equivalent amount of 65% of the levels of DL-HMBA or still, three levels (0.093, 0.186 e 0.279%) of PHI, in equivalent amount the levels of DLM. Simultaneous regression analysis was used to determine the bioefficacy based on weight gain and in feed conversion the of birds of experiments I and II, being that, in experiment II the bioefficacy values were also determined in function of the carcass characteristics of broilers fed with each methionine source. Performance was improved with supplementation of DL-HMBA or DLM in equivalent amount to 65% (DLM-65) of the levels of DL-HMBA, relative to those broilers fed the basal diet. However these responses were not so evident in birds supplemented with PHI. In the first experiment (stage of 1 to 21 days of age), simultaneous linear regression analysis revealed relative bioefficacy of DL-HMBA relative to DLM 39% and 44% for weight gain and feed conversion, on a product basis, respectively, being that, the performance data of birds supplemented with PHI not adjusted the simultaneously regression models, thereby, was not possible determine the bioefficacy of PHI in relation to the DLM. In the second experiment (stage of 22 to 42 days of age), simultaneous exponential regression analysis revealed bioefficacy relative of DL-HMBA and of PHI relative to DLM of 52% and 5% for weight gain and of 57% and 4% for feed conversion, on a product basis, respectively. To breast yield, the simultaneous linear regression analysis revealed relative bioefficacy of DL-HMBA in relation to DLM the 65% on a product basis. The results of this study indicate that the relative bioefficacy of DL-HMBA relative to DLM for broilers in stages of 1 to 21 and from 22 to 42 days old are respectively 42% and 58% on a product basis on average across all criteria tested / Com o objetivo de avaliar a bioeficácia do ácido DL-2-hidróxi-4 (metil) butanoico (DL-HMB) e de um poli ingrediente de ervas (PIE) em relação à DL-metionina (DLM) em frangos de corte foram realizados dois experimentos. No primeiro experimento, 1100 pintos de corte, da linhagem comercial Cobb 500, machos e fêmeas, foram alimentados de 1 a 21 dias de idade com uma dieta basal, deficiente em metionina + cistina, ou a dieta basal suplementada com três níveis (0,170, 0,340, 0,511%) de DL-HMB ou três níveis de DLM (0,111, 0,221, 0,332%) em quantidade equivalente a 65% dos nível de DL-HMB, ou ainda três níveis de PIE (0,111, 0,221, 0,332%), em quantidade equivalente aos níveis de DLM. No segundo experimento, 900 frangos de corte machos da linhagem Cobb 500 foram alimentados dos 22 aos 42 dias de idade com uma dieta basal deficiente em metionina, ou a dieta basal suplementada com três níveis (0,143, 0,286 e 0,429%) de DL-HMB ou três níveis de DLM (0,093, 0,186 e 0,279%) em quantidade equivalente a 65% dos nível de DL-HMB, ou ainda três níveis de PIE (0,093, 0,186 e 0,279%), em quantidade equivalente aos níveis de DLM. A análise de regressão simultânea foi usada para determinar a bioeficácia baseada no peso corporal e na conversão alimentar das aves dos experimentos I e II sendo que, no experimento II os valores de bioeficácia também foram determinados em função das características de carcaça das aves alimentadas com cada fonte de metionina. O desempenho foi melhorado com a suplementação de DL-HMB ou DLM em quantidade equivalente a 65% (DLM-65) dos níveis de DL-HMB, em relação aos frangos alimentados com as dietas basais. No entanto estas respostas não foram tão evidentes nas aves suplementadas com PIE. Para o primeiro experimento (fase de 1 aos 21 dias de idade) a análise de regressão linear simultânea revelou bioeficácia relativa do DL-HMB em relação à DLM de 39% e 44% para ganho de peso e conversão alimentar, em base de produto, respectivamente, sendo que, os dados de desempenho das aves suplementadas com PIE não se ajustaram significativamente aos modelos de regressão simultânea, desta forma não sendo possível determinar a bioeficácia do PIE em relação à DLM. No segundo experimento (fase de 22 aos 42 dias de idade), a análise de regressão exponencial simultânea revelou bioeficácia relativa do DL-HMB e do PIE em relação à DLM de 52% e 5% para ganho de peso e de 57% e 4% para conversão alimentar, em base de produto, respectivamente. Em relação ao rendimento de peito, a análise de regressão linear simultânea revelou uma bioeficácia relativa do DL-HMB em relação à DLM de 65%, em base de produto. Os resultados do presente estudo indicam que a bioeficácia relativa do DL-HMB em relação à DLM para frangos de corte nas fases de 1 aos 21 e dos 22 aos 42 dias de idade são respectivamente de 42% e 58% numa base de produto, em média, em todos os critérios testados

Aminoácidos sulfurados

Dl-2-hidróxi-4 (metil) butanóico

Dl-metionina

Poli ingrediente de ervas

Regressão simultânea

Dl-2-hydroxy-4-methylthio butanoic acid

Dl-methionine, poly-herbal ingredient

Simultaneous regression

Sulphur amino acids

CIÊNCIAS AGRÁRIAS:ZOOTECNIA

Efeito da suplementação de cisteína ou glutamina sobre o metabolismo dos aminoácidos sulfurados e glutationa de pacientes infectados pelo HIV nas condições de jejum e pós-sobrecarga de metionina / Effect cysteine supplementation or glutamine on the metabolism of sulfur amino acids and glutathione HIV-infected patients in fasting and post overload conditions methionine

Maria Dorotéia Borges dos Santos

03 April 2007

INTRODUÇÃO: Metionina (Met), cisteína (Cys), homocisteína (Hcy) e taurina (Tau) são os quatro aminoácidos sulfurados (AAS), mas apenas a Met e Cys são incorporadas em proteínas. Os três principais produtos doS AAS, glutationa, (GSH), Hcy e Tau influenciam, principalmente, as respostas inflamatória e imune. A Tau e GSH diminuem a inflamação, enquanto que a Hcy apresenta efeito oposto. Os pacientes HIV+ apresentam baixos níveis de GSH e outros nutrientes antioxidantes, mostrando relação direta entre Cys (e GSH) com células CD4+. Não se conhece o mecanismo pelo qual as mudanças na ingestão dos AAS influenciam este fenômeno. Paralelamente, as relações entre Hcy, doenças inflamatórias e alterações in vitro no comportamento das células imunes levantou ressalvas sobre a suplementação de dietas com AAS. OBJETIVOS : investigar as vias dos AAS em pacientes HIV+ nas condições de jejum e pós-sobrecarga de Met frente à dieta habitual (OH) isolada ou acompanhada da suplementação de Cys (NAC) ou glutamina (Gln). MÉTODOS : 12 pacientes HIV+ (6 M e 6 F, de 25 a 36 anos), sob tratamento anti-retroviral pelo esquema tríplice, sem infecções secundárias e 20 controles saudáveis (10M e 10F, 23-28 anos) foram randomicamente distribuídos para suplementação com NAC (N-acetilcisteína, 1g/d) ou Gln (20 g/d) em estudo cruzado com 7 dias de dieta separados por uma semana de washout (Wo com DH). Amostras de sangue após jejum noturno de 10 a 12 horas foram coletadas antes (MO) e após (M1) cada regime dietético. A seguir, os indivíduos ingeriram metionina (100 mg/kg), com coletas de sangue após 2 e 4 horas para a determinação da área abaixo da curva (AAC). No MO, ambos os grupos foram avaliados quanto à antropometria (IMC, kg/m2), funções glomerular (uréia, creatinina) e hepatocelular (γ-GT), estados nutricional (albumina, cálcio, ácido fólico e vitamina 812) e antioxidante (ácido úrico, GSH, GSSG, Hcy), glicose, lipídios (triacilgliceróis e frações de colesterol) e AAS, serina (Ser), glicina (Gly), glutamato (Glu) e Gln. O grupo HIV também foi caracterizado pela carga viral e contagem de CD4+ e CD8+. As comparações estatísticas entre os grupos e entre as dietas mostraram homogeneidade para IMC, albumina, cálcio, vitamina 812, Hcy, HDL-colesterol, uréia e creatinina. Os pacientes apresentaram valores maiores de glicose, triacilgliceróis, γ-GT, LDL-colesterol e GSSG paralelalemente às menores concentrações de ácido úrico, GSH e todos os AAS, exceto Hcy. A sobrecarga de metionina igualou (pelos valores de delta) os grupos para Met, Hcy, Tau e Gln. As suplementações de NAC e Gln levaram o grupo HIV+ a concentrações maiores de GSH (NAC > Gln), atuando diferentemente em seus precursores: G/y (Gln > NAC) e Cys (NAC > Gln) e resultando em consumo similar de Ser e produção de Tau. Ambas as dietas reduziram GSSG/GSH (NAC > Gln) e apenas NAC aumentou (6 x) a Hcy. Esta última foi piorada pela sobrecarga de Mel. Assim, HIV+ resulta em deficiências múltiplas de vitaminas e aminoácidos levando a menores níveis de GSH e GSSG/GSH mais elevada. Os principais problemas de menor formação de Cys e menor incorporação de Cys em GSH foram resolvidos dando-se Met, NAC e Gln aos pacientes, ainda permanecendo a desvantagem do aumento da Hcy com Met ou suplementação de NAC. / BACKGROUNO: Methionine (Met), cysteine (Cys), homocysteine (Hcy), and, taurine (Tau) are the 4 sulfur-containing amino acids (SAA), but only Met and Cys are incorporated into proteins. The 3 major products of SAA, glutathione (GSH), Hcy and Tau influence, mainly, inflammatory and of immune responses. Tau and GSH ameliorate inflammation whereas Hcy has the opposite effect. HIV+ patients present low levelis of GSH and other antioxidants nutrients, showing a direct relationship between Cys (and GSH) with CD4+/ cells. How changes in SAA intake influence this phenomenon is unknown and the relationships among Hcy, inflammatory diseases, and in vitro alterations in immune cell behavior create a cautionary note about supplementation of diets with SAA. OBJECTIVE: To investigate SAA pathways in HIV+ patients on fast and Met-overload (Met-DL) states after taken diet habitual without (HD) or with supplements of Cys (NAC) or glutamine (Gln). METHOOS: 12 HIV+ (6M and 6F, 25-36 yrs old) patients under HAART without secondary infections and 20 healthy (10M and 10F, 23-28 yrs old) controls were randomly assigned to either NAC (N-acetylcysteine, 1g/d) or Gln (20g/d) diets, in a 7-day diet crossover design, separated by a 7-day washout (with HD) period. Blood samples were drawn after overnight fast before (MO) and after each dietary treatments (M1) for the resting measurements. Immediately after blood sampling ali subjects started the Met-DL by ingesting at once 100 mg Met/kg BW and having the blood draw after 2 and 4 hours for the area under the curve (AUC) determination. At MO both groups were assessed for anthropometry (BMI, kg/m2), glomerular (plasma urea and creatinina) and hepatocellular (plasma γGT activity) funetions, nutritional (albumin, calcium, folic acid and vitamin B12) and antioxidant (uric acid, GSH, GSSG, Hey) states, glucose, lipids (triglycerides and cholesterol fractions) and SAA, serine (Ser), glyeine (Gly), glutamate (Glu) and Gln. The HIV+ group was characterized also by viral load, CD4+ and CD8+ counts. The statistical comparisons between groups and among diets showed group homogeneity for 8MI, albumin, calcium, vitamin B12, Hey, HDL-cholesterol, urea and creatinine. The patients presented higher values of glucose, triglycerides, γ-GT, LDL-cholesterol, and GSSG along with lower concentrations of uric acid, GSH and all but Hcy amino acids. The Met-OL equalized (Δ values) the groups for Met, Hcy, Tau and Gln. NAC and Gln diets led the HIV+ group to a higher concentrations of GSH (NAC > Gln) by acting differently on its precursors: Gly (Gln > NAC) and Cys (NAC > Gln), resulting similar consumption of Ser and production of Tau. Both diets reduced GSSG/GSH (NAC > Gln) and only NAC increased (6 x) Hey. The later was worsened by Met-OL. Thus HIV+ results in multiple deficiencies of vitamins and amino acids leading to lower levels of GSH and higher GSSG/GSH ration. The main problems of lower formation of Cys and low ineorporation of Cys and Gly into GSH were greatly solved by giving Met, NAC and Gln to the patients, hence remaining the drawback of increasing Hcy with Met or NAC supplements.

Aminoácidos (Efeitos biológicos)

Aminoácidos sulfurados

GSH

Necessidades nutricionais

Pacientes HIV+

Suplementação alimentar (Efeitos)

Suplementação de glutamina

Suplementação de NAC

Amino acids (Biological effects)

Food supplement (effects)

Glutamine supplementation

Glutathione

HIV+ patients

NAC supplementation

Nutritional needs

Sulphur amino acids

A Few Case Studies of Polymer Conductors for Lithium-based Batteries

Sen, Sudeshna

January 2016

The present thesis demonstrates and discusses polymeric ion and mixed ion-electron conductors for rechargeable batteries based on lithium viz. lithium-ion and lithium-sulphur batteries. The proposed polymer ion conductors in the thesis are discussed primarily as potential alternatives to conventional liquid and solid-crystalline electrolytes in lithium-ion batteries. These discussions are part of Chapters 2-4. On the other hand, the polymer based mixed ion-electron conductor is demonstrated as a novel electrode for lithium-Sulphur battery in Chapter 5. Possibility of application of polymer ion conductors is discussed in the context of Li-S battery in Chapter 6. A distinct correlation between the physical properties and electrochemical performance of the proposed conductors is highlighted in detail in this thesis. Systematic investigation of the ion transport mechanism in the polymeric ion conductors has been carried out using various spectroscopic techniques at different time and length scales. Such detailed investigations demonstrate the key structural and physical parameters for design of alternative polymer conductors for rechargeable batteries. Though the thesis discusses the various polymeric conductors in the context of lithium-based batteries, it is strongly felt that the design strategies are equally likely to be beneficial for different battery chemistries as well as for other electrochemical generation and storage devices. A brief discussion of the contents and highlights of the individual chapters are described below: The thesis comprises of six Chapters. Chapter 1 briefly reviews the important developments and materials of lithium-based batteries, with specific focus on Li-ion and Li-S batteries. It starts with discussions on different types of liquid, solid crystalline and solid-like electrolytes. Their materials characteristics, advantages and disadvantages are discussed in the context of secondary batteries such as lithium-ion and lithium-sulphur batteries. As prospective alternative electrolytes polymer based soft matter electrolytes are discussed in detail. Special emphasis is given to the recent developments in polymer electrolytes and their ion conduction mechanism, which are central themes to this thesis. The importance of investigation of charge transport, typically ion, on electrochemical processes is also briefly discussed in Chapter 1. A brief discussion about the characteristics, materials and non-trivialities of the electrochemical storage process in Li-S battery is also reviewed. Chapter 2A demonstrates a binary polymer physical network based gel (PN-x) electrolyte, comprising of an ionic liquid confined inside a binary polymer system for electrochemical devices such as secondary batteries. The synthesis, physical property and electrochemical performances are studied as a function of content of one of the polymers in this Chapter. A physical network of two polymers with different functional groups leads to multiple interesting consequences. The polymer physical network characteristics determine all physical properties including electrochemical property of the ionic liquid integrated PN based GPE. The conductivities of the proposed gel are nearly an order in magnitude higher than the unconfined ionic liquid electrolyte and displays good dimensional stability and electrochemical performance in a separator-free battery configuration. The ac-impedance spectroscopy, steady shear viscosity measurement, dynamic rheology are employed to study physical properties of the proposed gel polymer electrolyte. Chapter 2B discusses the detailed investigations of the ion transport mechanism of the gel polymer electrolyte, as discussed in Chapter 2A. Ion conduction mechanism is investigated in the light of ion diffusion and solvent dynamics of the entrapped ionic liquid inside the polymer. The studies reveal a heavy influence of network characteristics on the ion conduction mechanism. The influence of solvent dynamics on the ion transport is drastically altered by polymer physical network. Consequently, a drastic change in the ion mobility and nature of predominant charge carrier is observed in the polymer physical network based gel electrolyte. A clear transformation from dual ion conductivity to a predominantly anion conductivity is observed on going from single polymer to a dual polymer network. The spectroscopic tools such as pulsed field gradient nuclear magnetic resonance (PFG–NMR), Brillouin light scattering spectroscopy, ac-impedance spectroscopy, FT-Raman and FTIR spectroscopy were used to elucidate the ion transport mechanism in the Chapter. Chapter 3 demonstrates a simple design strategy of gel polymer electrolyte comprising of a lithium salt (lithium bis(trifluoromethanesulfonyl) imide, LiTFSI) solvated by two plastic crystalline solvents, one a solid (succinonitrile, abbreviated as SN) and another a (room temperature) ionic liquid (1-butyl-1-methyl-pyrrolidinium bis(trifluoromethane sulfonyl) imide, (abbreviated as IL) confined inside a linear network of poly(methyl methacrylate) (PMMA). The concentration of the IL component determines the physical properties of the unconfined electrolyte and when confined inside the polymer network in gel polymer electrolyte. Intrinsic dynamics of one plastic crystal influences the conduction mechanism of gel polymer electrolytes. The enhanced disordering in the plastic phase of succinonitrile by IL doping alters both the local ion environment and viscosity. The proposed plastic crystal electrolytes show predominantly anion conduction (tTFSI ≈ 0.5) however, lithium transference number (tLi ≈ 0.2) is nearly an order higher than the ionic liquid electrolyte (IL-LiTFSI) (tLi ≈ 0.02-0.06), discussed in Chapter 2. The gel polymer electrolyte displayed high mechanical compliability, stable Li-electrode | electrolyte interface, low rate of Al corrosion and stable cyclability. The promising electrochemical performance further justifies simple strategy of employing mixed physical state plasticizers to tune the physical properties of polymer electrolytes requisite for application in rechargeable batteries. Chapter 4A proposes a novel liquid dendrimer–based single ion conducting liquid electrolyte as potential alternative to conventional molecular liquid solvent–salt solutions and conventional solid polymer electrolytes for rechargeable batteries, sensors and actuators. The physical properties are investigated as a function of peripheral functionalities in the first generation poly(propyl ether imine) (G1-PETIM)–lithium salt complexes. The change in peripheral group simultaneously affects the effective physical properties viz. viscosity, ionic conductivity, ion diffusion coefficients, transference numbers and also the electrochemical response. The specific change from ester (–COOR) to cyano (–CN) terminated peripheral group resulted in a remarkable switch over from a high cation (tLi+ = 0.9 for –COOR) to a high anion (tPF6- = 0.8 for –CN) transference number. Chapter 4B presents an analysis of the frequency dependent ionic conductivity of single ion dendrimer conductors by using time temperature scaling principles (TTSPs) and dielectric modeling of the electrode polarization. The TTSP provides information on the salt dissociation and number density of mobile charges and hence provides direct insights into the ion conduction mechanism. Summerfield and Baranovskii–Cordes scaling laws, which are well known TTSPs, have been applied to analyze the ion conductivity. The electrode polarization, which quantifies the number density of mobile charges and ionic mobility, is studied using Macdonald-Coelho model of electrode polarization. The combination of these two theoretical investigations of the experimental data emanating from one technique i.e. ac– impedance spectroscopy, predicts independently the contributions of the effect of mobile ion charges and ionic mobility to ion conduction mechanism. In Chapter 5 focus shifts from polymer ion conductors to polymer mixed ion-electron conductor. The polymer mixed ion-electron conductor is demonstrated as a novel electrode material for Li-S battery. A simple strategy to overcome the challenges towards practical realization of a stable high performance Li–S battery is discussed. A soft mixed conducting polymeric network is utilized to configure sulphur nanoparticle. The soft matter network provides efficient and distinct pathways for lithium and electron conduction simultaneously. A lithiated polyethylene glycol (PEG) based surfactant tethered on ultra-small sulphur nanoparticles and wrapped up with polyaniline (PAni) (abbreviated as S-MIEC) is demonstrated here as an exceptional cathode for Li–S batteries. The S-MIEC is characterized by several methods: powder-X-ray diffraction (PXRD), thermo gravimetric analysis (TGA), fourier transform infrared (FTIR) spectroscopy, X-ray photoelectron spectroscopy (XPS), scanning electron microscopy (SEM), high resolution transmission electron microscopy (HRTEM), ac-impedance spectroscopy and dc current-voltage measurements are performed to evaluate conductivity of S-MIEC cathode. Electrochemical studies such as cyclic voltammetry, galvanostatic charge-discharge cycling, galvanostatic intermittent titration (GITT) are performed to demonstrate feasibility of S-MIEC in the Li–S battery performance. Chapter 6 provides a brief summary of the work carried out as part of this thesis and also demonstrates the future perspective of the present work. Potential of the polymer physical network based gel polymer electrolytes, which are discussed in Chapter 2A-B for lithium-ion batteries, are demonstrated in Li-S battery. The proposed polymer physical network confines higher order lithium polysulfides (typically Li2S8) dissolved in tetraethylene glycol dimethyl ether (TEGDME) based electrolyte (TEGDME-1M LiTFSI). The three dimensional polymer network is proposed to be formed by physical blending of the poly(acrylonitrile) (PAN) with the copolymer of AN and poly(ethylene glycol) methyl ether methacrylate (PEGMA), [ P(AN–co–PEGMA)]. We extend here the similar synthetic approaches as described in Chapter 2A. The approach proposed and demonstrated in this concluding Chapter is expected to mitigate some of the major issues of Li-S chemistry. The proposed Li2S8 confined gel electrolyte exhibits moderately high values of ionic conductivity, 2 × 10-3 Ω-1cm-1 and shows a stable capacity of 350 mAhg-1 over 30 days in a separator free Li-S battery.

Polymer Conductors

Lithium-based Batteries

Electrochemical Devices

Li-Ion Battery

Polymeric Conductors

Polymer System

Gel Polymer Electrolyte

Lithium Ion Battery

Lithium Ion Batteries

Dendrimer Electrolyte

Li-S Battery

Lithium-ion Batteries

Lithium-Sulphur Batteries

Li-S Batteries

Solid State Chemistry

Resistance of catalytic materials towards chemical impurities:the effect of sulphur and biomaterial-based compounds on the performance of DOC and SCR catalysts

Väliheikki, A. (Ari)

30 August 2016

Abstract Exhaust gas emissions, e.g. nitrogen oxides (NOx), hydrocarbons (HCs) and carbon monoxide (CO), are harmful to human health and the environment. Catalysis is an efficient method to decrease these emissions. Unfortunately, the fuels and lubricant oils may contain chemical impurities that are also present in exhaust gases. Thus, catalytic materials with high activity and chemical resistance towards impurities are needed in the abatement of exhaust gas emission. In this thesis, the aim was to gain new knowledge about the effects of chemical impurities on the behaviour and activity of the catalysts. To find out these effects, the impurities existing in the exhaust gas particulate matter after combustion of biofuels and fossil fuels were analysed. The studied zeolite (ZSM-5), cerium-zirconium mixed oxides (CeZr and ZrCe) and silicon-zirconium oxide (SiZr) based catalysts were also treated with impurities to simulate the poisoning of the catalysts by, e.g. potassium, sodium, phosphorus and sulphur, using gas or liquid phase treatments. Several characterization techniques were applied to find out the effects of impurities on catalysts’ properties. The activity of catalysts was tested in laboratory-scale measurements in CO and HC oxidation and NOx reduction using ammonia (NH3) and hydrogen (H2) as reductants. The results revealed that the CeZr based catalysts had a high activity in NOx reduction by NH3 and moderate activity by H2. Sulphur was proven to enhance the activity of CeZr catalysts in NOx reduction. This is due to an increase in chemisorbed oxygen after the sulphur treatment on the catalyst surface. Instead, in HC and CO oxidation reactions, sulphur had a negligible impact on the activity of the SiZr based diesel oxidation catalyst. Thus, both CeZr and SiZr based catalysts can be utilized in exhaust gas purification when sulphur is present. ZSM-5 based catalysts were proven to be resistant to potassium and sodium. Alternatively, the activity of SiZr based catalysts decreased due to phosphorus. Thus, the removal of biomaterial-based impurities from the exhaust gases is needed to retain high catalyst activity in the exhaust gas after-treatment system. / Tiivistelmä Pakokaasupäästöissä olevat typen oksidit (NOx), hiilivedyt (HCs) ja hiilimonoksidi (CO) ovat haitallisia ihmisten terveydelle ja ympäristölle. Katalyysi on tehokas menetelmä vähentää näitä päästökomponentteja. Polttoaineet ja voiteluöljyt sisältävät epäpuhtauksia, jotka siirtyvät myös pakokaasuihin. Tästä johtuen pakokaasupäästöjen hallinnassa tarvitaan katalyyttimateriaaleja, joilla on hyvä vastustuskyky myrkyttymistä vastaan. Tavoitteena oli saada uutta tietoa kemiallisten epäpuhtauksien vaikutuksesta katalyyttien toimintaan. Biopolttoaineiden sisältämät mahdolliset epäpuhtaudet selvitettiin analysoimalla fossiilisen ja biopolttoaineen palamisessa muodostuvia partikkeleita ja vertaamalla niitä polttoaineiden hivenaineanalyysiin. Tutkimuksessa käytetyt zeoliitti (ZSM-5), cerium-zirkonium-sekaoksidi (CeZr) ja pii-zirkonium-oksidipohjaiset (SiZr) katalyytit käsiteltiin epäpuhtauksilla (kalium, natrium, fosfori ja rikki) kaasu- ja nestefaasissa. Tutkimuksessa käytettiin useita karakterisointitekniikoita, joiden avulla selvitettiin epäpuhtauksien vaikutuksia katalyyttien ominaisuuksiin. Katalyyttien toimintaa testattiin laboratoriomittakaavan kokeissa CO:n ja HC-yhdisteiden hapetuksessa sekä NOx:ien pelkistyksessä käyttäen ammoniakkia (NH3) tai vetyä (H2) pelkistimenä. Tulokset osoittavat, että CeZr-pohjaisten katalyyttien aktiivisuus NOx:ien pelkistyksessä oli hyvä käytettäessä pelkistimenä NH3:a ja kohtalainen käytettäessä vetyä. Rikki paransi CeZr-katalyyttien aktiivisuutta NOx:ien pelkistyksessä, mikä johtui kemiallisesti sitoutuneen hapen osuudesta katalyyttien pinnoilla. Vastaavasti hiilivetyjen ja CO:n hapetusreaktioissa rikki ei vaikuttanut SiZr-pohjaisten dieselhapetuskatalyyttien aktiivisuuteen. Sekä CeZr- ja SiZr-pohjaisia katalyytteja voidaan siten käyttää rikkiä sisältävien pakokaasujen puhdistuksessa. SiZr-pohjaisten katalyyttien aktiivisuus laski fosforin vuoksi. ZSM-5-pohjaiset katalyytit olivat vastustuskykyisiä kaliumille ja natriumille. Kestäviä katalyyttejä on siten kehitettävä, mikäli biopolttoaineiden sisältämien epäpuhtauksien poistaminen polttoaineista ei ole mahdollista.

catalyst

cerium-zirconium mixed oxides

diesel oxidation catalyst

phosphorus

poisoning

potassium

selective catalytic reduction

silicon-zirconium oxide

sodium

sulphur

tungsten

zeolite

cerium-zirkonium-sekaoksidi

dieselhapetuskatalyytti

fosfori

kalium

katalyytti

myrkyttyminen

natrium

pii-zirkoniumoksidi

rikki

selektiivinen katalyyttinen pelkistys

volframi

zeoliitti

Landscape hydrogeochemistry of Fe, Mn, S and trace elements (As, Co, Pb) in a boreal stream network

Björkvald, Louise

January 2008

The transport of elements by streams from headwater regions to the sea is influenced by landscape characteristics. This thesis focuses on the influence of landscape characteristics (e.g. proportion of wetland/forest coverage) on temporal and spatial variations of Fe, Mn, S and trace elements (As, Co, Pb) in streams located in northern Sweden, a boreal region characterized by coniferous forests and peat wetlands. Water samples from a network of 15 streams revealed a different hydrogeochemistry in forested catchments compared to wetland catchments. The temporal variation was dominated by spring flood, when concentrations of Fe, Mn and trace elements increased in forested headwaters. However, in streams of wetland catchments concentrations decreased, but Pb concentrations were higher in comparison to other streams. Both Fe and Pb showed positive correlations with wetland area, while Co correlated with forest coverage. The anthropogenic contribution of As and Pb appear to be larger than the supply from natural sources. During spring flood SO42- decreased in most streams, although concentrations increased in streams of wetland catchments. Concentrations of SO42- were higher in streams of forested catchments than in wetland dominated streams, the former being net exporters of S and the latter net accumulators. Isotope values of stream water SO42- (δ34SSO4) were close to that of precipitation during spring flood, indicating that the major source of S is from deposition. The results show that, although emissions of anthropogenic S have been reduced, there is still a strong influence of past and current S deposition on runoff in this region. In conclusion, wetlands are key areas for the hydrogeochemistry in this boreal landscape. The findings emphasize the importance of understanding stream water chemistry and element cycling from a landscape perspective. This may be important for predicting how boreal regions respond to environmental disturbances such as climate change.

landscape hydrogeochemistry

boreal streams

spring flood

Fe

Mn

S

As

Co

Pb

sulphur isotopes

sulphate

organic S

DOC

spatial variability

temporal variability

wetlands

Earth and Related Environmental Sciences

Geovetenskap och miljövetenskap

Modelling Of Current-Zero Behaviour Of An SF6 Rotating Arc

Ravishankar, B R

04 1900

No description available.

Electric Circuits - Breakers

Sulphur Fluoride - Electric Arc

High Voltages

Arc

Circuit Breakers

SF6

Rate Of Rise Of Recovery Voltage (RRRV)

Rotating Arc Breakers

Sulphurhaxafluoride

Vacuum Arc

Vacuum Circuit Breaker (VCB)

High Voltage Circuit Breaker (HVCB)

Electrical Engineering