Global ETD Search

81	Mineral Matter Behavior During the Combustion of Biomass and Coal Blends and its Effect on Particulate Matter Emission, Ash Deposition, and Sulfur Dioxide Emission Roy, Rajarshi 23 April 2024 (has links) (PDF) Combustion of coal is one of the primary sources of electricity generation worldwide today. Coal contains different chemicals that cause particulate matter(PM) and sulfur dioxide (SO2) emissions. These are health hazards and are responsible for deteriorating the ambient air quality. Particulate matter also forms ash deposits inside the coal combustor, which in turn decreases the energy efficiency of the power plants. Using biomass as a fuel in these utility boilers can potentially reduce the problems of particulate matter emissions and ash deposition, and can significantly reduce the SO2 emissions. However, biomass needs to be pretreated to make its properties similar to coal in terms of energy density, grindability, and durability before it can be fired in utility boilers. Steam explosion is one of the leading biomass pretreatment methods that enhances the physicochemical properties of biomass. A comprehensive review of the steam explosion process, its product properties, its comparison with other treatment processes, as well as its economic analysis and lifecycle assessment, have been explored in this work. Steam-exploded biomass has been co-combusted with bituminous coal in a 1500 kWth combustor to analyze the ash aerosol particle size distribution, composition, and deposition behavior. The primary results of these tests showed that both particulate matter emissions and ash deposition amount reduced significantly as more biomass was co-fired with coal. The submicron-sized particulate matter concentration showed a high correlation with the final mass of ash deposits (R2 > 0.96). Predicting ash deposition rates is important during the combustion of solid fuels. A Machine Learning tool was applied and trained with a fuel composition database of 92 fuels obtained from a thermodynamic equilibrium software (FactSage). When fully operational, this model should be integrated with an existing ash deposition model, which should make it self-sufficient in terms of generating equilibrium composition data. SO2 emissions were analyzed during the co-combustion of biomass and coal, and a synergistic decrease in SO2 emissions was observed with higher biomass blends. Experiments were conducted in a full-scale 471 MWe furnace to analyze the SO2 emissions, and an 85%-15% blend of coal and biomass was responsible for a 28.1% reduction in emissions and 22.1% reduction in the lime slurry utilization in the flue gas desulfurization (FGD) towers compared to pure coal combustion. Ash deposit characterizations by energy dispersive X-ray spectroscopy (EDS) and X-ray diffraction (XRD) combined with thermodynamic equilibrium simulations revealed that calcium and potassium were responsible for this synergistic reduction as these metals captured the SO2 from the flue gases and retained them in the ash phase. The SO2 research was important since the current literature is deficient in research conducted at suspension-fired full-scale utility boilers to reduce SO2 emissions by co-firing coal and biomass blends. The research in this dissertation should provide valuable insights to the energy industries that are considering a transformation of fuel portfolio from coal to biomass and explore how the mineral matter present in pretreated biomass would behave inside a utility boiler. The primary conclusions are that during the co-combustion of coal and biomass, ash deposition mass and particulate matter ash load decreased, and SO2 emission saw a synergistic reduction in emissions due to higher calcium and potassium content in biomass compared to pure coal combustion. biofuel renewable energy steam explosion milling ash deposition modeling machine learning fouling synergistic effect pollution control co-combustion flue gas desulfurization power generation Engineering
82	Synergistic Supervision: Impacts on Student Affairs Employee Job Satisfaction Adams-Manning, Michelle R 01 January 2019 (has links) Supervision is a critical component of any employee’s professional life, but it can be especially impactful to a student affairs professional. The foundation of the student affairs field is to help a student grow and develop as a whole person. This concept carries on to student affairs professionals as well, as supervisors should strive to develop the whole professional creating a positive work environment. This study analyzed the use of synergistic supervision techniques on student affairs employees’ job satisfaction. An anonymous, electronic survey was emailed to student affairs professionals at public, private and community colleges across the nation. One hundred fifty-one participants in various positions within the field took the survey. Synergistic supervision, created by Winston & Creamer (1997), and the human resource theory served as the conceptual and theoretical framework for this study. The findings from this study indicate that the use of synergistic supervision techniques predicts job satisfaction. These results inform practice involving training in supervision for student affairs divisions from the top down, and revision of staffing models and the professional development opportunities offered by guiding professional organizations. Thesis University of North Florida UNF Supervision synergistic supervision student affairs job satisfaction Education Higher Education
83	Etude du comportement en tribocorrosion d’aciers inoxydables en milieux aqueux : Evaluation de la synergie entre sollicitations mécaniques superficielles et réactions électrochimiques de surface, effet de la microstructure / Study of the tribocorrosion behaviour of stainless steels in aqueous media : Evaluation of the synergy between surface mechanical actions and electrochemical reactions, microstructure effect Dalbert, Vincent 23 June 2014 (has links) Ce travail porte sur l’étude du comportement d’un acier inoxydable (matériau passivable) en situation de tribocorrosion. L’accent a été mis sur l’effet de synergie existant entre la sollicitation mécanique et l’électrochimie du milieu, conduisant à une usure significative. Dans un premier temps, une méthodologie a été mise en place, sur une microstructure ferritique, pour quantifier cette synergie et ses deux composantes que sont l’électrochimie accélérée par l’usure (E.A.U.) et l’usure accélérée par l’électrochimie (U.A.E.). La première représente la dissolution du matériau consécutive à l’action mécanique du pion sur la surface. La seconde rend compte des modifications des propriétés mécaniques de la surface induites par l’électrochimie. Les paramètres de la sollicitation mécanique étant tout d’abord fixés, l’évolution des composantes de l’effet de synergie a été étudiée en fonction du caractère oxydant d’un milieu acide, modifié à l’aide d’un potentiostat. Un minimum d’usure, déterminé sous polarisation cathodique est considéré comme l’usure mécanique de référence. Dans le domaine passif, pour des potentiels passifs croissants, l’U.A.E. diminue suite à un épaississement de la partie oxyde du film passif, renforçant les propriétés mécaniques de la surface. A l’inverse, l’augmentation de l’E.A.U. s’explique par une intensité supérieure des réactions d’oxydation sur la surface mise à nu au cours du frottement. Ceci conduit à une usure maximale pour un potentiel passif intermédiaire. L’évolution des composantes de l’effet de synergie a ensuite été investiguée en potentiel libre sous les influences croisées de l’acidité du milieu et du temps de latence. L’E.A.U. augmente avec l’acidité en lien avec une dissolution plus prononcée mais diminue pour un temps de latence plus court suite à la diminution du couplage galvanique entre la trace d’usure partiellement repassivée et la zone cathodique. La diminution du temps de latence limite la maturation du film passif. En milieu acide, l’U.A.E. ne diminue pas car le film passif, majoritairement constitué d’oxyde, conserve son caractère abrasif. A l’inverse en milieu neutre, la proportion d’hydroxyde étant alors majoritaire, l’U.A.E. diminue. Dans un second temps, l’influence de la microstructure sur le comportement à la tribocorrosion a été mise en évidence en fonction des paramètres étudiés précédemment. Après traitement thermique, l’acier inoxydable présente une microstructure ferrito martensitique. En considérant l’usure totale, l’effet de la microstructure apparait négligeable sur la tenue à la tribocorrosion en potentiel libre, dans les conditions étudiées. Le biphasage est par contre bénéfique lorsque le frottement se déroule sous potentiels cathodiques ou passifs grâce à un transfert d’effort de la martensite à la ferrite sous-jacente. De même, l’effet délétère du film passif sur les propriétés mécaniques de la surface est réduit lorsque la microstructure comporte une phase dure (U.A.E.). / This study deals with the behaviour of a stainless steel (passive material) undergoing tribocorrosion. Focus has been put on the synergistic effect existing between mechanical action and medium electrochemistry, leading to significant wear. In a first step, a methodology has been set up, on a ferritic microstructure, to quantify this synergy as well as its two compounds that are the wear-accelerated electrochemistry (W.A.E.) electrochemistry-accelerated wear (E.A.W.). The former stands for the material dissolution following the mechanical action of the pin on the surface. The latter accounts for the modifications of the surface mechanical properties induced by electrochemistry. The parameters of the mechanical action being set, the evolution of the synergistic effect compounds has been studied as a function of the oxidizing feature of an acidic medium, modified by using a potentiostat. A minimum of wear, determined under cathodic polarisation is considered as the reference mechanical wear. In the passive domain, for higher passive potentials, E.A.W. decreases due to the thickening of the oxide part of the passive film, enhancing the mechanical properties of the surface. On the contrary, the W.A.E. increase is explained by more intense oxidising reactions occurring on the bare material revealed to the electrolyte by sliding. This leads to a maximum wear obtained at an intermediate passive potential. The evolution of the synergistic effect compounds has then been investigated under free potential condition with crossed influences of the medium acidity and the latency period. The more acidic the medium, the greater the W.A.E. because dissolution is enhanced. However, it decreases with a shorter latency period because of a weaker galvanic coupling between the partially repassivated wear track and the cathodic surface. The latency period decrease limits the passive film maturation. In acidic medium, E.A.W. does not decrease because the passive film, mainly composed of oxide, keeps its abrasive feature. To the opposite, in neutral medium, the hydroxide proportion being majority, E.A.W. decreases. In a second step, the microstructure influence on the tribocorrosion behaviour has been evidenced as a function of the previously studied parameters. After a thermal treatment, the stainless steel shows a ferrite-martensite microstructure. Considering global wear, the microstructure effect appears to be negligible on the tribocorrosion resistance in free potential situation, under the studied conditions. On the contrary, a two-phase microstructure is beneficial when sliding is performed under cathodic or passive potentials thanks to a mechanical transfer occurring from the martensite to the underlying ferrite. Moreover, the detrimental effect of the passive film on the surface mechanical properties is reduced when the microstructure involves an hard phase (E.A.W.). Matériau passivable Acier inoxydable Tribocorrosion Usure Effet de synergie Microstructure Ferrite Martensite Pouvoir oxydant Acidité Temps de latence Passive material Stainless steel Tribocorrosion Wear Synergistic effect Microstructure Ferrite Martensite Oxidising feature Acidity Latency period 620.170 72
84	Hantering av brand equity inom telekombranschen : En studie om värdeskapande och synergieffekter hos företag med två varumärken Karlsson, Robin, Hübinette, Jenny January 2011 (has links) Den svenska telekommarknaden präglas av en oligopolsituation, där de fyra största företagen utgör 97,5 procent av marknaden, och den främsta konkurrensen sker om befintliga kunder. TeliaSonera är marknadens största företag och de saluför de två operatörerna Telia och Halebop, medan Tele2 är det näst största företaget och de saluför operatörerna Tele2 och Comviq. Inom den svenska telekombranschen har operatörerna förhållandevis liknande tjänsteerbjudanden och det är därför viktigt att skapa sig ett starkt varumärke som differentierar sig ur mängden samt bidrar till att skapa synergieffekter för företag som har två varumärken. Ett varumärke kan användas för att skapa värde för både konsumenten och företaget samt etablera en relation mellan dessa parter. Det värde som företaget skapar med varumärket benämns som brand equity, vilket kan ses ur ett kundvärdebaserat respektive finansiellt perspektiv. Det finns dock oklarheter i hur detta värdeskapande faktiskt sker. Uppsatsens syftar därför till att analysera hur TeliaSonera och Tele2 hanterar brand equity samt vilka synergieffekter som kan uppnås av att använda sig utav två varumärken. Vidare har empirin frambringats genom en metodtriangulering bestående av en kvantitativ webbenkät för privatpersoner med ett kvalitativt inslag som är baserad på viktiga variabler relaterade till brand equity, djupintervjuer med företagsrepresentanter för TeliaSonera och Tele2, samt intervju med en marknadskommunikatör. Uppsatsen visar att de studerade företagen använder sig av två varumärken på olika sätt, där TeliaSonera skiljer sina operatörer i syfte att nå olika kundsegment, medan Tele2 skiljer dessa genom att fördela dem mellan kontantkort och abonnemang. Överlag visade sig branschen svag på att förmedla budskap till kunderna, vilket kan ses som en brist då det är viktigt för att kunden ska kunna identifiera sig med varumärket. Då operatören Halebop konkurrerar med Tele2 och Comviq om priskänsliga kunder, samtidigt som Halebop har ett högre kundupplevt värde gällande flera centrala variabler är detta något som Tele2 och Comviq måste hantera strategiskt. Då de båda företagen har flertalet ansvariga inom olika avdelningar som arbetar med olika typer av brand equity bör de inrätta en roll för en brand equity manager som kan integrera dessa olika personer och avdelningar, vilket kan skapa en högre effektivitet och synergieffekter för företaget och dess varumärken. / The Swedish telecommunications market is characterized as an oligopoly, where the four largest firms represent 97.5 percent of the market, and the main competition takes place regarding existing customers. TeliaSonera is the market's largest company who promotes the two operators Telia and Halebop, while Tele2 is the second largest company who promotes Tele2 and Comviq. Due to the Swedish telecom operators have relatively similar offerings, it is important to create a strong brand which differentiates itself from the crowd and helps to create synergies for companies that have two brands. A brand can be used to create value for both consumer and companies, and establish a relationship between these parties. The value that the company creates with the brand is referred to as brand equity, which could be viewed from a customer based or financial perspective. However, there is ambiguity in how this value creation is actually occurring. Therefore this paper regard to analyze how these companies handle brand equity, and study the synergies that can emerge from using two brands. Furthermore the empirical data has been generated by method triangulation, consisting a quantitative online survey with a qualitative element for consumers, that is based on key factors related to brand equity, along with interviews with representatives of the companies TeliaSonera and Tele2, and also with a market communicator. The study shows that the two companies are using two kinds of brands in separated ways, where TeliaSonera distinguish their operators in order to meet different customer segments, while Tele2 distinguishes them by distributing them between prepaid cards and subscriptions. Overall the industry was weak in transmission messages to customers, which can be seen as a weakness because it is important for customers to identify themselves with the brand. The operator Halebop competes with Tele2 and Comviq to price-sensitive customers, and regarding to that Halebop has a higher customer perceived value regarding several key factors, this is something that Tele2 and Comviq have to manage strategically. The two companies have multiple people in different departments working with brand equity, and they should therefore establish a role for a brand equity manager who can integrate the assignments, which can create greater efficiency and synergies for the company and its brands. Customer based brand equity Telecom industrie Synergistic effect Value creation Brand Consumer surplus Product brand Corporate brand Brand loyalty Kundbaserat brand equity Telekombranschen Synergieffekter Värdeskapande Consumer surplus Produktvärumärke Företagsvarumärke Varumärkeslojalitet Business studies Företagsekonomi
85	Atividade antibacteriana do óleo essencial de Citrus limon frente cepas multidroga resistentes do gênero Acinetobacter. Guerra, Felipe Queiroga Sarmento 14 February 2012 (has links) Made available in DSpace on 2015-05-14T12:59:32Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 730230 bytes, checksum: c9ea66b757014e0b2d6d2b07b2de3af1 (MD5) Previous issue date: 2012-02-14 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Acinetobacter species have gained importance in recent years due to their increased involvement in serious infections and antimicrobial resistance. Since multidrug resistant bacteria pose a challenge to the treatment of infections, it is necessary to find new substances with antimicrobial properties in combating these microorganisms. Thus, medicinal plants are studied, since they are used for treatment of various illnesses. Therefore, many studies on biological activity have been performed with essential oils obtained from medicinal plants, such as the essential oil from Citrus limon (EOCL), attempting to help overcome this problem. Thus the present study aimed to evaluate the effect of the essential oil of EOCL against multidrug resistant strains of Acinetobacter spp. Its chemical composition was determined by GC/MS and its antibacterial activity was assessed by determining their MIC and MBC by microplate bioassay, its Time kill too was determinated. Also was analyzed the effect of modulating action of conventional antibiotics by microplate bioassay. Among phytochemicals, Neral (29.4%) presented as the major essential component of EOCL. The oil caused growth inhibition in 16 (67%) of 24 strains tested, showing a MIC of 625 μg/ml and MBC of 1250 μg/mL. In a time kill study, the oil displayed a concentration-dependent antibacterial activity. Results of combining antibiotics and EOCL had shown us a synergistic and additive effect with EOCL /antibiotics combinations. The results of this study suggest that essential oil of C. limon may suppress the growth of Acinetobacter species and could be a source of metabolites with modified antibacterial activity. / Espécies do gênero Acinetobacter ganharam importância nos últimos anos devido ao seu envolvimento crescente em infecções graves e resistência antimicrobiana. Uma vez que bactérias resistentes a múltiplas drogas representam um desafio para o tratamento de infecções, é necessário encontrar novas substâncias com propriedades antimicrobianas no combate a estes microrganismos. Para tentar superar este panorama, várias pesquisas vêm sendo desenvolvidas em busca de novos produtos antibacterianos, dentre elas estão os estudos com os metabólitos de plantas, como o óleo essencial de Citrus limon (OECL). Assim, o presente estudo teve como objetivo avaliar o efeito do óleo essencial de Citrus limon contra cepas de Acinetobacter multidroga resistentes. Sua composição química foi determinada por CG/EM e sua atividade antibacteriana avaliada pela determinação de sua CIM e CBM pela técnica de microdiluição, sua cinética de morte microbiana também foi analisada. Verificou-se também seu efeito modulador da ação dos antibióticos convencionais por técnicas de microdiluição. Entre os fitoconstituintes, neral (29,4%) apresenta-se como o principal componente de OECL. O referido óleo inibiu o crescimento de 67% das 24 cepas ensaiadas, tendo sua CIM estabelecida em 625 μg/mL e a CBM em 1250 μg/mL Este óleo possui atividade antibacteriana dependente de sua concentração e do tempo de exposição no microrganismo e é um modulador da ação dos antibióticos convencionais. Os resultados deste estudo sugerem que o referido óleo pode suprimir o crescimento de espécies de Acinetobacter e poderia ser uma fonte de metabólitos com atividade modificadora antibacteriana. Acinetobacter Óleo essencial Citrus limon Atividade antibacteriana Modulação Efeito sinérgico Efeito aditivo Aminoglicosídeos Carbapenens Acinetobacter Essential oil Antibacterial activity C. limon Modifying activity Synergistic effect Additive effect Aminoglycosides Carbapenems CIENCIAS BIOLOGICAS::FARMACOLOGIA
86	Development of Photoactive and Photoelectroactive Nanomaterials for Water Remediation Eswar, N Krishna Rao January 2018 (has links) (PDF) Water pollution has become an environmental catastrophe due to the rapid urbanization. The treatment of dumping of waste chemicals in water bodies has contributed to the increase in pollution. In addition to the pollution caused by waste chemicals, faecal bacteria such as Escherichia, Staphylococcus, Pseudomonas etc., can cause serious health issues. Techniques such as filtration and chlorination provide clean water but are associated with disadvantages such as toxic by-products. Although clean water can be still obtained by these techniques, the development of resistance by microorganisms with such conventional treatments of antibiotics is inevitable and poses a new threat. Various researches have taken place in the past few decades to provide clean drinking water. Photocatalysis is considered to be a promising viable alternative for the existing methods to solve the menace of water pollution. It is an advanced oxidation process where the reactive oxygen species are generated by using nanomaterials that can cause degradation of chemicals and pathogens. Particularly, photocatalysis using semiconductors and their composites have been tested for their use in the destruction of contaminants. Several methods have been used in the synthesis of nanomaterials and the variations in their morphologies have resulted in different applications such as photocatalysis and electrocatalysis. Among all semiconductors, TiO2 has been widely used in this application owing to their non-toxicity and abundance in availability. However, TiO2 can be activated only in the presence of UV light. Therefore, the formation of heterojunctions, doping of metals/no- metals in TiO2 has enabled the activation of TiO2 in the visible region. The former approach has also been studied with ceria and silver salts combination. Besides conventional metal oxides, other transitional metal oxides such as copper oxide and bismuth oxide have also been studied owing to its conducting property and facile growth on substrates respectively for enhanced photocatalysis. All the above tweaking has enabled efficient charge separation, band gap reduction, and prevention of recombination. In this thesis, all the nanomaterials and their composites have been synthesized using simple methods such as solution combustion, hydrothermal, solution co-precipitation, and chemical deposition. The primary aim of this thesis is to synthesize various effective nanomaterials with different morphologies, bandgap engineered nanocomposites, metal or non-metal doped metal oxides for efficient waste water treatment of dyes, antibiotics, phenols, and bacteria. Besides, relying on photocatalytic ability, the photoconductivity and intrinsic conducting properties of nanomaterials were exploited to perform photoelectrocatalysis that enhances the rate of decontamination to several orders than photocatalysis. In addition to focusing on increasing the rate of degradation, the main drawback of photocatalysis which is catalyst retrieval has been overcome using conducting substrates and nanomaterial coated substrates for efficient photocatalytic and photoelectrocatalytic decontamination of waste water. All the structural, morphological, chemical and optical properties were thoroughly studied using various characterization techniques such as XRD, SEM, TEM, XPS, UV-DRS, PL respectively. The rate kinetics of dye, antibiotic and phenol degradation was examined. Experimental data was tested with the proposed model in the case of photoelectrocatalytic degradation. The photocatalysts were also studied for its reusability for many cycles. All the proposed works have analyzed the reason for the enhanced activity by performing scavenger reactions to determine the responsible reactive oxygen species. Thus, this thesis exhibits a thorough understanding of how to design and engineer nanomaterials for photocatalytic and photoelectrocatalytic water remediation. The following are the chapters discussed in this thesis. Chapter 1 discusses the drawbacks associated with the current waste water treatment methods and the possibilities of photocatalysis to replace the existing treatments. The advantages of certain transition metals, conventional methods of synthesis and various other properties of the nanomaterials have been discussed. Chapter 2 explains the synthesis of TiO2 nanobelts using combustion synthesized TiO2 under UV and solar irradiation. The catalyst has been characterized for its structural, morphological, chemical and optical properties. The degradation of anionic and cationic dyes and their activity against E.coli bacteria have been evaluated. The efficiency of this catalyst has been compared with commercial Degussa P25. This study shows the morphological influence of nanomaterials on photocatalytic activity. Chapter 3 describes the synthesis of Ag3PO4 impregnated combustion synthesized TiO2 nanobelts using co-precipitation technique. The activity of this material has been studied under solar light. The catalyst has been characterized for its structural, morphological, chemical and optical properties. Similar to the previous chapter, the degradation of dyes and the antibacterial activity of this catalyst has been compared with commercial Degussa P25. This study explains the importance of morphology and charge carrier facilitation in the case of heterojunction formation. Chapter 4 explains the synthesis of ceria nanoflakes by solution combustion method using ascorbic acid as fuel and PEG assisted sonochemical method. The catalyst has been characterized for its structural, morphological, chemical and optical properties. The effect of silver salts such as AgBr on ceria/Ag3PO4 under visible region for degradation of dyes and antibacterial activity has been evaluated. This work elucidates the effect of band engineering in the charge carrier dynamics between interfaces of components within the catalysts. Chapter 5 elucidates the synthesis of vanadium, nitrogen co doped TiO2 catalysts for the simultaneous degradation of microbes and antibiotics. The primary aim of this work is to understand whether interstitial or substituted doped nitrogen will be effective in the presence of vanadium. The photoactivity of this novel catalyst was studied for its synergistic degradation of antibiotics and bacteria simultaneously towards the prevention of microbial resistance towards antibiotics. Chloramphenicol and E.coli were subjected to photodegradation under visible light. Chapter 6 explains the synthesis of copper oxide based nanomaterial for antibiotic and bacterial degradation by photoelectrocatalysis. In order to enhance the rate of photodegradation, photocatalysis has been upgraded with the application of a potential to photocatalytic systems that possess better charge conducting capability. Highly network like copper oxide has been synthesized using conventional combustion synthesis method and compared with copper oxide nanorods synthesized by hydrothermal method. The rate kinetics of photocatalytic and photoelectrocatalytic degradation of antibiotics has been examined thoroughly and validated based on a cyclic network model. This work demonstrates the synergistic rate enhancing capacity upon combining photocatalysis and electrocatalysis. Chapter 7 discusses the fabrication of Cu/CuO/FTO (fluorine doped tin oxide) based substrates for bacterial degradation. Considering the difficulties in photocatalyst retrieval processes and realizing the importance of electrocatalysis, conducting substrates such as Cu strip, FTO were subjected to antibacterial treatment. Formation of copper oxide onto copper strip during the course of reaction forced us to develop CuO/Cu and CuO/FTO interfaces to examine the photocatalytic and photoelectrocatalytic killing of E.coli. Chapter 8 investigates the fabrication of Bi2O3/Ag based material for photocatalytic and photoelectrocatalytic degradation for phenols and substituted phenols. This work starts with fabrication of Bi2O3 working electrodes by chemical deposition. Photodegradation experiments were conducted under UV irradiation and enhancement of the rate of degradation was observed when the working electrode was deposited with silver nanoparticles via chemical reduction method. Formation of the intermediate Bi(OH)x on Bi2O3 or Bi2O3/Ag has resulted in better hydroxyl radical generation upon excitation. Similarly, surface plasmon resonance due to silver nanoparticles was found to be responsible for augmentation in degradation efficiency of phenol. Chapter 9 briefly summarizes the work and provides future directions. The research work thus attempts to design and engineer photocatalytic nanomaterials that are better than the existing materials and emphasizes the importance towards water remediation. Water Remediation Photoactive Nanomaterials Photoelectroactive Nanomaterials Water Pollution Photoelectrocatalytic Water Remediation Photocatalytic Water Treatment Photocatalytic Water Remediation TiO2 Nanobelts Dye Degradation Synergistic Antibiotic Degradation Photocatalytic Water Purification Photoanodes Photocatalytic Inactivation Bacterial Inactivation Nanoscience
87	Dlouhodobé testy pro ověření odolnosti nátěrových hmot v různých nepříznivých prostředích simulujících reálné vlivy / Long-term tests for examination of surface treatments in various adverse environments simulating real effects Hudečková, Petra January 2018 (has links) Cement bonded particleboards contain organic base and as they are set outside, extreme weather condition, such as frost, chemical defrosting substances or sulphates, cause their degradation. The presence of the organic base in the matrix of the material could be the reason why there is higher probability of degrading when compared with materials containing an inorganic base. It could be partially eliminated by an appropriate surface modification of the slab, which main goal is to weaken the impact of an aggressive environment and to extend the lifespan of the board. On the other hand, the surface modifications based on a polymer base are prone to degrade because of other unfavourable conditions such as UV radiation when compared with the cement bonded particleboard. The classification of the surface modifications and the way of their degradation caused by the aggressive environment in real applications are presented in the theoretical part of the thesis. In the experimental part, appropriate methodical ways of testing the resistance of cement bonded particleboard’s coating system were chosen. Then, the testing and comparing of the physical, mechanical and aesthetic properties of different types of coatings were done. Moreover, a spectrophotometric analysis of the colour shade changes for the different aggressive environment were carried out. Furthermore, microstructures of chosen surface modifications were assessed by using an optical and an electron microscope.
88	Zhodnocení existence synergických efektů u vybraných konsolidujících subjektů / Assessing the Synergistic Effects of the Selected Consolidated Entity Hájková, Jana January 2016 (has links) This diploma thesis is aimed at assessing the existence of synergistic effects of the selected consolidated entities in the Czech Republic. Using specific financial metrics, the objective of this thesis is to identify the synergistic effects which occur among five consolidated entities operating in the area of property. Measurement and evaluation are performed pursuant to analysis of financial statements as well as qualitative data and are supposed to lead to assessing the existence of synergy in given sphere of national economy.
89	TOXICOLOGY OF PLANT ESSENTIAL OILS IN BED BUGS Sudip Gaire (8703072) 17 April 2020 (has links) <p>Bed bugs (<i>Cimex lectularius</i> L.) are globally important human ectoparasites. Their management necessitates the use of multiple control techniques. Plant-derived essential oils are extracts from aromatic plants that represent one of the alternative control measures for bed bug control, in addition to mechanical options and synthetic pesticides. However, there is limited information available on the efficacy and toxicology of plant essential oils against bed bugs. This project was designed with the aim to provide in-depth information on efficacy, toxicology and mode-of-action of essential oils and their insecticidal constituents in bed bugs. Initially, I evaluated topical and fumigant toxicity of fifteen essential oil components against adult male bed bugs of the Harlan strain (an insecticide susceptible strain). Neurological effects of the six most toxicologically active compounds were also determined. In both topical and fumigant bioassays, carvacrol and thymol were the most active compounds. Spontaneous electrical activity measurements of the bed bug nervous system demonstrated neuroinhibitory effects of carvacrol, thymol and eugenol, whereas linalool and bifenthrin (a pyrethroid class insecticide) produced excitatory effects. Further, I evaluated the efficacy and neurological impacts of a mixture of three neuroinhibitory compounds; carvacrol, eugenol and thymol in 1:1:1 ratio against adult male bed bugs of the Harlan strain. This mixture of monoterpenoids as well as the mixture of synthetic insecticides exhibited a synergistic affect in topical bioassays. In electrophysiology experiments, the monoterpenoid mixture led to higher neuroinhibitory effects, whereas a mixture of synthetic insecticides caused higher neuroexcitatory effects in comparison to single compounds. </p> <p>In the next objective of my dissertation, I compared the efficacy of five plant essential oils (thyme, oregano, clove, geranium and coriander), their major components (thymol, carvacrol, eugenol, geraniol and linalool) and EcoRaider<sup>®</sup> (commercial product) between pyrethroid susceptible (Harlan) and field collected (Knoxville) bed bug populations. Initially, I found that the Knoxville strain was 72,893 and 291,626 fold resistant to topically applied deltamethrin (a pyrethroid class insecticide) compared to the susceptible Harlan strain at the LD<sub>25</sub> and LD<sub>50</sub> lethal dose levels, respectively. Synergist bioassays and detoxification enzyme assays showed that the Knoxville strain possesses significantly higher activity of cytochrome P450 and esterase enzymes. Further, Sanger sequencing revealed the presence of the L925I mutation in the voltage gated sodium channel gene. The Knoxville strain, however, did not show any resistance to plant essential oils, their major components or EcoRaider<sup>®</sup> in topical bioassays (resistance ratios of ~ 1). In the final objective, I evaluated the efficacy of binary mixtures of above-mentioned essential oils or their major components or EcoRaider<sup>®</sup> with deltamethrin in susceptible and resistant bed bugs. In topical application bioassays, binary mixtures of essential oils or their major components or EcoRaider<sup>®</sup> and deltamethrin at the LD<sub>25</sub> dose caused a synergistic increase in toxicity in resistant bed bugs. Further, I studied the inhibitory effects of major essential oil components on detoxification enzyme activities (cytochrome P450s, esterases and glutathione transferases). Detoxification enzyme assays conducted using protein extracts from bed bugs pre-treated with essential oil constituents showed that these compounds significantly inhibited cytochrome P450 activity in the resistant strain, but esterase and glutathione transferase activity were unaffected. No inhibition of detoxification enzyme activities was observed in the Harlan strain bed bugs pre-treated with essential oil constituents.</p> <p>In conclusion, my dissertation research has created the foundation for utilization of natural products for bed bug management by (i) describing the efficacy of plant essential oils and their components against bed bugs, (ii) discovering synergistic interactions between essential oil components at the nervous system level, (iii) determining susceptibility of deltamethrin-resistant bed bugs to plant essential oils and their constituents and (iv) identifying synergistic effects of essential oils or their components on toxicity of pyrethroid insecticides and underlying mechanisms of this synergistic interaction. </p> <br> Uncategorized bed bugs essential oils Essential Oil Compounds toxicity levels neurophysiology synergistic interactions insecticide resistance enzymes Knockdown resistance (kdr) resistance management strategies fumigant toxicity test topical application deltamethrin resistance level electrophysiology experiments
90	Combinatorial Anticancer Therapy Strategy Using a Pan-Class I Glucose Transporter Inhibitor with Chemotherapy and Target Drugs in vitro and in vivo Bachmann, Lindsey 28 April 2022 (has links) No description available. Biomedical Research Biology Medicine Oncology Lung cancer glucose transporter inhibitor glucose DRB18 Paclitaxel Trametinib Brigatinib A549 Non-small cell lung cancer cancer metabolism xenograft tumors synergistic effects glucose transporter GLUT combination therapy cancer therapy cancer

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