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31	The effect of material properties on PEM fuel cell catalysts on durable oxidation reduction activity / Materialegenskapernas inverkan på aktiviteten för syrgasreduktion hos PEM-bränslecellers katalysatorer Jiang, Xiaoling January 2023 (has links) I detta examensarbete utforskas påverkan av partikelstorleken hos Pt-katalysatorer på kolbärare på syrereduktionen i polymerelektrolytmembran (PEM)-bränsleceller. Den elektrokemiskt aktiva ytarean, aktiviteten för syrereduktion och tillhörande degraderingshastigheter för de undersökta katalysatorerna beräknas och jämförs. Experimenten utfördes med hjälp av en metod som kallas ”roterande skivelektrod med tunn film” i en syra-vatten-lösning. Den katalytiska aktiviteten beräknades med Koutecky-Levichs ekvation. Resultaten visar att filmkvaliteten är avgörande för att kunna göra en bedömning av syrereduktionssaktiviteten. En homogen distribution av Pt-nanopartiklar är nödvändig för att få en korrekt och pålitlig katalytisk aktivitet. Vidare utvecklas en metodik för utvärdering av filmkvaliteten baserad på den diffusionsbegränsade strömtätheten och på potentialen vid halva topphöjden. Mätningen av syrereduktionsaktiviteten genomfördes enbart med prov vars filmkvalitet godkändes med avseende på denna metodik och den erhållna aktiviteten jämfördes vid 0.9 V vs. RHE. De undersökta katalysatorerna uppvisar snarlik aktivitet för syrereduktionsreaktionen, vilket överensstämmer med att också de uppmätta elektrokemiskt aktiva ytareorna för de olika katalysatorerna är snarlika. Förlusten av elektrokemiskt aktiv ytarea visar sig vara beroende av partikelstorleken och mindre partiklar uppvisar en högre degraderingshastighet. Rapporten avslutas med en diskussion om avvikelserna från tidigare studier och möjligheter för vidare studier. / In this thesis, the particle size effect of carbon-supported Pt catalysts on the oxygen reduction reaction in polymer electrolyte membrane fuel cells is studied. The electrochemically active surface area and the oxygen reduction reaction activities and the associated degradation rate of the investigated carbon-supported Pt catalysts are computed and compared. The experiments were conducted by a method called thin-film rotating disk electrode in an aqueous acid solution, and the catalytic activity was computed using the Koutecky-Levich equation. The results show that thin-film quality is crucial in the oxygen reduction reaction activity measurement. A homogeneous distribution of Pt nanoparticles is necessary for obtaining correct and reliable catalytic activities. Furthermore, in this thesis, a methodology based on the diffusion-limited current density and the half-wave potential for thin-film quality evaluation is developed. The oxygen reduction reaction activity measurement was only applied to samples with good film quality, and the obtained activity results were compared at 0.9 V vs. RHE. The investigated carbon-supported Pt catalysts display similar oxygen reduction reaction activities, due to the fact that the measured electrochemically active surface area results for the particle sizes are similar. The degradation rate was studied in a platinum dissolution test and the results show a particle size-dependent electrochemically active surface area loss. Smaller particles show a faster and larger degradation rate. At the end of the thesis, deviations in this work from existing work are discussed, and possibilities for future work are presented. PEM fuel cell catalyst ORR activity particle size degradation PEM-bränslecell katalysator syrgasreduktionsaktivitet partikelstorlek åldring Other Chemical Engineering Annan kemiteknik
32	Study of the oxygen reduction on perovskite-type oxides in alkaline media / Etude de la réduction d'oxygène sur les oxydes de type pérovskite en milieu alcalin Poux, Tiphaine 27 January 2014 (has links) La cinétique lente de la réduction de l’oxygène (ORR) est en grande partie responsable de la perte d’énergie de nombreux systèmes de conversion tels que les piles à combustible. Parmi les possibles catalyseurs de l’ORR, les oxydes de type pérovskite sont des candidats prometteurs en milieu alcalin. La présente thèse est consacrée à l’étude de l’activité, du mécanisme et de la stabilité de pérovskites à base de Co et Mn pour l’ORR. Grâce aux techniques d’électrode tournante à disque et disque-anneau (R(R)DE), les études de l’ORR et des transformations d’HO2- sur les couches minces de pérovskite/carbone dans une solution de NaOH ont montré qu’O2 est réduit en OH- via un mécanisme « en série » avec formation d’HO2- intermédiaire. Pour des quantités d’oxyde suffisantes, HO2- est ensuite réduit, ce qui résulte en un mécanisme apparent de 4 électrons. Dans ces électrodes, le carbone joue un double rôle. Il augmente l’activité électrocatalytique en améliorant le contact électrique et il est impliqué dans le mécanisme de l’ORR en catalysant la réduction d’O2 en HO2-, surtout pour les pérovskites à base de cobalt qui sont considérablement moins actives que celles à base de Mn. Néanmoins, l’électrocatalyse de l’ORR semble dégrader les sites actifs des pérovskites. / The sluggish kinetics of the oxygen reduction reaction (ORR) is largely responsible for the energy losses in energy conversion systems such as fuel cells. Among possible inexpensive catalysts for the ORR, perovskite oxides are promising electrocatalysts in alkaline media. The present thesis is devoted to the investigation of the ORR activity, mechanism and stability of some Co and Mn-based perovskites. The rotating (ring) disk electrode (R(R)DE) studies of the ORR and the HO2- transformations on perovskite/carbon thin layers in NaOH electrolyte prove that O2 is reduced to OH- via a “series” pathway with the HO2- intermediate. For high oxide loadings, the formed HO2- species are further reduced to give a global 4 electron pathway. In these electrodes, carbon plays a dual role. It increases the electrocatalytic activity by improving the electrical contact and it is involved in the ORR mechanism by catalyzing the reduction of O2 into HO2-, especially for Co-based perovskites which display lower reaction rates than Mn-based perovskites. Pérovskites Électrolyte alcalin Électrocatalyse Carbone Électrode à disque tournant (RDE) Cinétique et mécanisme de l’ORR Couche mince Voltamétrie cyclique (CV) Perovskite oxides Oxygen reduction reaction (ORR) Alkaline electrolyte Electrocatalysis Carbon Hydrogen peroxide decomposition Rotating disk electrode (RDE) Rotating ring-disk electrode (RRDE) ORR kinetics and mechanism Thin layer Cyclic voltammetry (CV) 541.39
33	Estudo da atividade eletrocatalítica de óxidos nanoestruturados de Ru, Ir, Hf e La visando o estudo da reação de redução de oxigênio (RRO) / Study of electrocatalytic activity of nanostructured oxides of Ru, Ir, Hf and La for the study of the oxygen reduction reaction (ORR) Reis, Jonas Batista 04 September 2015 (has links) Neste trabalho foi estudada a atividade eletrocatalítica dos eletrocatalisadores nanoestruturados de Ru, Ir, Hf ou La suportados em carbono Printex 6L frente à Reação de Redução de Oxigênio (RRO) em meio ácido. Inicialmente analisou-se a influência do Método de Impregnação e dos Precursores Poliméricos (MPP), também conhecido como Pechini para os eletrocatalisadores RuO2/C e IrO2/C. Ficou evidente neste estudo, que os materiais obtidos pelo MPP apresentaram uma maior eficiência de corrente para a eletrogeração de H2O2 quando comparado ao método da Impregnação. Na etapa seguinte, os eletrocatalisadores HfO2/C e LaONO3/C foram preparados apenas pelo MPP. As propriedades estruturais, morfológicas e de superfície foram investigadas por meio das técnicas de caracterização DRX, FRX, MET, XPS e TG. De acordo com os dados de DRX e MET, verificou-se que o método de incorporação do metal no carbono Printex 6L favoreceu a formação dos óxidos nanoestruturados. Ademais, foi verificado que os eletrocatalisadores obtidos pelo método de Pechini apresentam menores tamanho de cristalitos (1 a 5 nm), melhor distribuição dos óxidos sobre a matriz de carbono (menos aglomerados) e menores tamanhos de partículas. O comportamento eletroquímico dos eletrocatalisadores foi avaliado através das voltametrias lineares (curvas de polarização) obtidas pelo eletrodo de disco anel rotatório (RRDE). Os resultados obtidos pelas voltametrias lineares, cálculos de eficiência de corrente de H2O2 (H2O2 %), número total de elétrons trocados (nt) e de Koutecký-Levich mostraram que a incorporação dos eletrocatalisadores (Ru e Ir) no carbono Printex 6L obtidos por ambos os métodos de síntese influenciaram negativamente na eletrogeração de H2O2. Neste caso, os eletrocatalisadores de Ru e Ir apresentaram uma tendência ao mecanismo via 4 elétrons, ou seja, geração de H2O como produto final da RRO. Os resultados mostraram ainda que os eletrocatalisadores contendo maiores teores de Hf, apresentaram maiores eficiência de corrente para H2O2 quando comparado ao carbono Printex 6L, uma vez que o catalisador contendo 15 % de Hf apresentou valores de eficiência de corrente de H2O2 próximos a 80 % e número de elétrons de 2,4. Além disso, foi observado também um deslocamento no potencial de aproximadamente 200 mV para valores mais positivos, o que significa um menor consumo energético em termos de eletrogeração de H2O2. Para os eletrocatalisadores à base de La, a amostra contendo 7% apresentou uma melhor eficiência de corrente de H2O2, com valores próximos a 87% e número de elétrons de 2,3, além de um deslocamento do potencial de aproximadamente 250 mV para valores mais positivos. Pode-se inferir então, que os eletrocatalisadores de Hf e La obtidos pelo método de Pechini são promissores para utilização em Eletrodos de Difusão Gasosa (EDG) visando a eletrogeração in situ de H2O2, visto que apresentam uma tendência a mecanismo via 2 elétrons. / In the present work, the electrocatalytic activity of nanostructured electrocatalysts based on Ru, Ir, Hf or La supported in Printex L6 front of Oxygen Reduction Reaction (ORR) in an acid medium were studied. Initially, the influence of impregnation methods and polymeric precursors (MPP), also known as Pechini for the electrocatalysts RuO2/C and IrO2/C, was analyzed. It was evidenced in this study, that the materials obtained by MPP presented bigger efficiency for H2O2 electrogeneration when compared to the impregnation method. In the following stage, the electrocatalysts HfO2/C and LaONO3/C were prepared only by MPP. The structural properties and surface morphology were investigated by means of the characterization techniques DRX, FRX, TEM, XPS and TG. According to the XRD and TEM data, it was found that the method of metal incorporation in Printex 6L carbon promoted the formation of nanostructured oxides. Moreover, it was verified that the electrocatalysts obtained by Pechini\'s method presented smaller crystallite size (1 to 5 nm), better distribution of the oxides on the carbon matrix (fewer clusters) and smaller particle sizes. The electrochemical behavior of the electrocatalysts were evaluated by linear voltammetry (polarization curves) obtained by rotating ring-disk electrode (RRDE). The results obtained by linear voltammetry, calculations of current efficiency of H2O2 (H2O2 %), total number of exchanged electrons (nt) and of Koutecký-Levich showed that the incorporation of the electrocatalysts (Ru and Ir) in Printex 6L carbon obtained by both methods of synthesis influenced negatively on the electrogeneration of H2O2. In that case, the Ru and Ir electrocatalysts showed a tendency to a 4 electrons mechanism, that is, generation of H2O as final product of the ORR. The results also showed that the electrocatalysts containing higher Hf content, presented higher current efficiency for H2O2 when compared to carbon Printex L6, since that the catalyst containing 15% of Hf presented values of current efficiency for H2O2 around 80% and number of electrons of 2.4. Furthermore, a potential displacement for positive values of approximately 200 mV was also observed which means lower energy consumption in terms of H2O2 electrogeneration. For the La based electrocatalysts, the sample containing 7% showed better current efficiency for H2O2, with values near 87% and number of electrons of 2.3, besides a potential displacement of approximately 250 mV for more values positive. It can be inferred that the Hf and La electrocatalysts obtained by Pechini\'s method are promising for use in Gas Diffusion Electrodes (GDE) aiming in situ electrogeneration of H2O2, since they exhibit a tendency to a mechanism via 2 electrons. electrocatalysts eletrocatalisadores háfnio e lantânio irídio Iridium lanthanum and hafnium óxidos de rutênio Oxygen Reduction Reaction (ORR) Reação de redução de oxigênio (RRO) ruthenium oxides
34	Estudo da atividade eletrocatalítica de óxidos nanoestruturados de Ru, Ir, Hf e La visando o estudo da reação de redução de oxigênio (RRO) / Study of electrocatalytic activity of nanostructured oxides of Ru, Ir, Hf and La for the study of the oxygen reduction reaction (ORR) Jonas Batista Reis 04 September 2015 (has links) Neste trabalho foi estudada a atividade eletrocatalítica dos eletrocatalisadores nanoestruturados de Ru, Ir, Hf ou La suportados em carbono Printex 6L frente à Reação de Redução de Oxigênio (RRO) em meio ácido. Inicialmente analisou-se a influência do Método de Impregnação e dos Precursores Poliméricos (MPP), também conhecido como Pechini para os eletrocatalisadores RuO2/C e IrO2/C. Ficou evidente neste estudo, que os materiais obtidos pelo MPP apresentaram uma maior eficiência de corrente para a eletrogeração de H2O2 quando comparado ao método da Impregnação. Na etapa seguinte, os eletrocatalisadores HfO2/C e LaONO3/C foram preparados apenas pelo MPP. As propriedades estruturais, morfológicas e de superfície foram investigadas por meio das técnicas de caracterização DRX, FRX, MET, XPS e TG. De acordo com os dados de DRX e MET, verificou-se que o método de incorporação do metal no carbono Printex 6L favoreceu a formação dos óxidos nanoestruturados. Ademais, foi verificado que os eletrocatalisadores obtidos pelo método de Pechini apresentam menores tamanho de cristalitos (1 a 5 nm), melhor distribuição dos óxidos sobre a matriz de carbono (menos aglomerados) e menores tamanhos de partículas. O comportamento eletroquímico dos eletrocatalisadores foi avaliado através das voltametrias lineares (curvas de polarização) obtidas pelo eletrodo de disco anel rotatório (RRDE). Os resultados obtidos pelas voltametrias lineares, cálculos de eficiência de corrente de H2O2 (H2O2 %), número total de elétrons trocados (nt) e de Koutecký-Levich mostraram que a incorporação dos eletrocatalisadores (Ru e Ir) no carbono Printex 6L obtidos por ambos os métodos de síntese influenciaram negativamente na eletrogeração de H2O2. Neste caso, os eletrocatalisadores de Ru e Ir apresentaram uma tendência ao mecanismo via 4 elétrons, ou seja, geração de H2O como produto final da RRO. Os resultados mostraram ainda que os eletrocatalisadores contendo maiores teores de Hf, apresentaram maiores eficiência de corrente para H2O2 quando comparado ao carbono Printex 6L, uma vez que o catalisador contendo 15 % de Hf apresentou valores de eficiência de corrente de H2O2 próximos a 80 % e número de elétrons de 2,4. Além disso, foi observado também um deslocamento no potencial de aproximadamente 200 mV para valores mais positivos, o que significa um menor consumo energético em termos de eletrogeração de H2O2. Para os eletrocatalisadores à base de La, a amostra contendo 7% apresentou uma melhor eficiência de corrente de H2O2, com valores próximos a 87% e número de elétrons de 2,3, além de um deslocamento do potencial de aproximadamente 250 mV para valores mais positivos. Pode-se inferir então, que os eletrocatalisadores de Hf e La obtidos pelo método de Pechini são promissores para utilização em Eletrodos de Difusão Gasosa (EDG) visando a eletrogeração in situ de H2O2, visto que apresentam uma tendência a mecanismo via 2 elétrons. / In the present work, the electrocatalytic activity of nanostructured electrocatalysts based on Ru, Ir, Hf or La supported in Printex L6 front of Oxygen Reduction Reaction (ORR) in an acid medium were studied. Initially, the influence of impregnation methods and polymeric precursors (MPP), also known as Pechini for the electrocatalysts RuO2/C and IrO2/C, was analyzed. It was evidenced in this study, that the materials obtained by MPP presented bigger efficiency for H2O2 electrogeneration when compared to the impregnation method. In the following stage, the electrocatalysts HfO2/C and LaONO3/C were prepared only by MPP. The structural properties and surface morphology were investigated by means of the characterization techniques DRX, FRX, TEM, XPS and TG. According to the XRD and TEM data, it was found that the method of metal incorporation in Printex 6L carbon promoted the formation of nanostructured oxides. Moreover, it was verified that the electrocatalysts obtained by Pechini\'s method presented smaller crystallite size (1 to 5 nm), better distribution of the oxides on the carbon matrix (fewer clusters) and smaller particle sizes. The electrochemical behavior of the electrocatalysts were evaluated by linear voltammetry (polarization curves) obtained by rotating ring-disk electrode (RRDE). The results obtained by linear voltammetry, calculations of current efficiency of H2O2 (H2O2 %), total number of exchanged electrons (nt) and of Koutecký-Levich showed that the incorporation of the electrocatalysts (Ru and Ir) in Printex 6L carbon obtained by both methods of synthesis influenced negatively on the electrogeneration of H2O2. In that case, the Ru and Ir electrocatalysts showed a tendency to a 4 electrons mechanism, that is, generation of H2O as final product of the ORR. The results also showed that the electrocatalysts containing higher Hf content, presented higher current efficiency for H2O2 when compared to carbon Printex L6, since that the catalyst containing 15% of Hf presented values of current efficiency for H2O2 around 80% and number of electrons of 2.4. Furthermore, a potential displacement for positive values of approximately 200 mV was also observed which means lower energy consumption in terms of H2O2 electrogeneration. For the La based electrocatalysts, the sample containing 7% showed better current efficiency for H2O2, with values near 87% and number of electrons of 2.3, besides a potential displacement of approximately 250 mV for more values positive. It can be inferred that the Hf and La electrocatalysts obtained by Pechini\'s method are promising for use in Gas Diffusion Electrodes (GDE) aiming in situ electrogeneration of H2O2, since they exhibit a tendency to a mechanism via 2 electrons. eletrocatalisadores háfnio e lantânio irídio óxidos de rutênio Reação de redução de oxigênio (RRO) electrocatalysts Iridium lanthanum and hafnium Oxygen Reduction Reaction (ORR) ruthenium oxides
35	Optimal Control of Boundary Layer Transition Högberg, Markus January 2001 (has links) No description available. laminar-turbulent transition transition control turbulence control flow control boundary layer flow channel flow optimal control adjoint equations Riccati equations Orr--Sommerfeld--Squire equations secondary instability transient gro
36	Interfacial Properties of Ultrathin- Film Metal Electrodes: Studies by Combined Electron Spectroscopy and Electrochemistry Cummins, Kyle 2012 May 1900 (has links) A pair of studies investigating the deposition and surface chemical properties of ultrathin metal films were pursued: (i) Pt-Co alloys on Mo(110); and (ii) Pd on Pt(111). Experimental measurement was based on a combination of electron spectroscopy (low energy ion scattering spectroscopy, X-ray photoelectron spectroscopy, Auger electron spectroscopy, and low energy electron diffraction) and electrochemistry (voltage efficiency, voltammetry, and coulometry). Mixed-metal preparation of Pt-Co films by thermal vapor deposition (TVD) resulted in a thin-film binary alloy. Careful analysis revealed a substantial divergence between the composition at the interface and that in the interior. This outcome was observed for all compositions and allowed for the construction of a ?surface phase diagram?. The proclivities of the alloys of pre-selected compositions towards enhanced catalysis of the oxygen-reduction reaction were assessed in terms of their voltage efficiencies, as manifested by the open-circuit potential (OCP) in O2-saturated dilute sulfuric acid electrolyte. The particular alloy surface, Pt3Co (XPt=3,XCo=1), whether from the thin film or a bulk single crystal, exhibited the highest OCP, a significant improvement over pure Pt but still appreciably lower than the thermodynamic limit. Under test conditions, the degradation of thusly-prepared films was primarily due to Co corrosion. Ultrathin Pd films on well-defined Pt(111) surfaces, with coverages from 0.5 to 8 monolayers (ML), were prepared by surface-limited redox replacement reaction (galvanic exchange) of underpotentially deposited Cu. Spectroscopic data revealed that films prepared in this manner are elementally pure, pseudomorphic to the substrate, and stable, independent of the surface coverage (?) of palladium. Analysis of the voltammetric profiles in the hydrogen evolution region revealed unique properties of hydrogen adsorption unseen in bulk electrodes. Notably, at 1 ML coverage, a step-free film was produced that did not exhibit hydrogen absorption. At higher coverages, digital (layer-by-layer) deposition gave way to 3D islands in a Stranski- Krastanov growth mode; under these conditions, onset of bulk-like behavior was observed. This method makes possible the synthesis of well-ordered noble-metal films in the absence of high-temperature treatment UHV-EC interfacial electrochemistry platinum cobalt Pt-Co thin films alloys Pt(111) ORR UPD galvanic displacement SLR3
37	Optimal Control of Boundary Layer Transition Högberg, Markus January 2001 (has links) No description available. laminar-turbulent transition transition control turbulence control flow control boundary layer flow channel flow optimal control adjoint equations Riccati equations Orr--Sommerfeld--Squire equations secondary instability transient gro
38	Der Einfluß der Wärmeübertragung auf die Stabilität von Strömungen Severin, Jan 04 May 1999 (has links) (PDF) Am Beispiel verschiedener Strömungstypen wird die Stabilität von Strömungen unter Einfluß eines Temperaturfeldes untersucht. Eine reguläre Störungs- rechnung wird durchgeführt, um die Effekte temperatur- abhängiger Stoffwerte systematisch und allgemein- gültig erfassen zu können. Die Ergebnisse werden in Form asymptotischer Reihen für die kritischen Kenn- zahlen der jeweiligen Probleme angegeben. Sowohl die Orr-Sommerfeld-Gleichungen als auch die PSE-Gleichungen, jeweils mit variablen Stoffwerten, kommen bei der Untersuchung von Grenzschicht- strömungen zum Einsatz. Von besonderem Interesse sind hier die Unterschiede in den Lösungen beider mathematischer Modelle bezüglich der Effekte variabler Stoffwerte. Es zeigt sich, dass die Differenzen in den Lösungen beider Theorien für den Fall konstanter und für den Fall variabler Stoffwerte gleich groß sind. Für die Grenzschichtströmung bei natürlicher Kon- vektion an einer beheizten vertikalen Wand werden die vollständigen PSE-Gleichungen gelöst. Hier zeigen sich starke Abweichungen zur lokalen paral- lelen Theorie (Orr--Sommerfeld--Gleichungen). lineare primäre Stabilitätstheorie natürliche Konvektion erzwungene Konvektion PSE Orr-Sommerfeld-Gleichungen Temperatureffekte variable Stoffwerte reguläre Störungsrechnung Tschebyscheff-Polynome ddc:530 ddc:600 Kollokationsmethode
39	Properties of Pt electrodes investigated by the Electrochemical Quartz Crystal Microbalance Wang, Tao 21 November 2007 (has links) The Electrochemical Quartz Crystal Microbalance (EQCM) was used as the main investigation tool coupled with other conventional electrochemical methods to study the electrocatalytic properties of polycrystalline Pt electrodes, including two separate projects. The first project studied the early stage of oxide film formation on the Pt surfaces and the inhibition of the catalytic properties by the oxide film. The inhibition of the fast electrode reaction of small molecules by the growth of oxide film allows those molecules to be used as probes for the nature of the oxide film. The hydrogen oxidation current, jox calculated by differencing the cyclic voltammetry currents with and without H₂ present showed a characteristic plateau-to-plateau profile, which implies a transition from the free Pt surface to the Pt surface completely covered by oxide film. This method allows determination of the onset potential for oxide formation and also the critical potential where a full monolayer of oxide is formed. This method applies to other fast surface reactions such as oxygen reduction reaction (ORR), and the results are enhanced by forced convection in the rotating disk electrode (RDE) experiments. The initial oxidation species was identified by charge and EQCM frequency analysis. Our results support the formation of a species with stoichiometry Pt₂O, for example, with an oxygen atom in the bridging position between two adjacent Pt atoms. In the second project, the stability of the Pt electrodes in acid media with Ag⁺ present was investigated. A substantial frequency drift (8.3 Hz cycle⁻¹, or 44 ng cm⁻² cycle⁻¹) was observed during Ag electrodeposition and stripping on the bare polycrystalline Pt surface. Cyclic voltammograms in pure HClO₄ solution showed nearly no frequency drift while the addition of 10⁻³ mol L⁻¹ Ag⁺ resulted in an immediate and characteristic frequency drift. The frequency drift appeared to be consistent with loss of material from the electrode surface and the ICP-MS detected a maximum Pt concentration of 2.3×10⁻⁶ mol L⁻¹ in solution due to Pt dissolution. The Pt concentration calculated from the EQCM frequency drift matched the ICP-MS results. This allowed the EQCM for direct investigation of Pt dissolution at different system temperatures, sweep rates, and potential ranges. The much higher rate of dissolution with Ag present than that in pure HClO₄ solution can be explained by the formation of Pt-Ag alloy during Ag underpotential deposition and the co-dissolution of Pt and Ag. Electrochemistry Pt dissolution surface coverage electrodeposition HOR ORR Pt electrodes oxide film EQCM
40	An Agent-based Order Review And Release System In Make-to-order Production Aktug, Onur 01 December 2004 (has links) (PDF) Workload control (WLC) systems constitute a framework mainly for the inputoutput control systems which regulate both jobs&rsquo / queues into the workshop and the flow of finished goods out of the workshop. This study is concerned with the job entry and release level of WLC which maintains a pool of unreleased jobs for the controlled release of jobs. While most of the studies in WLC concepts deal with the centralized workload control, our study decentralizes the job entry and release control and makes workstations more powerful in schedule decision making. Job&rsquo / s information is sent to the workstations by mediator which is the supervisor of the workstation. Both mediator and work stations are represented by agents in a distributed system. Jobs&rsquo / routing information is assumed to be known in advance. The developed system is verified and validated by means of test runs. Results are analyzed as well.

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