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The Global ETD Search service is a free service for researchers
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Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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Mätning och beräkning av befintlig ångledning ÅM17Klasson, Olle January 2023 (has links)
Syftet med detta arbete var att utreda varför ångledningen ÅM17 ledning(756-21101-3) flyttat på sig och med detta få fram en dokumentation av nuläget, en uppdaterad beräkningsmodell och en utförd dimensioneringskontroll. Vid eventuell identifiering av problemområden skulle även rekommenderade förbättringsförslag tas fram. Utredningen av ångledningen gjordes först med manuella beräkningar av kondensatmängden, termiska expansionen, reaktionskrafter på stöd och stödavstånd. Sedan utfördes dokumentation av ångledningen med fotografering och mätningar. Sist så användes beräkningsmjukvaran ROHR2 för att modellera den befintliga isometriritningen och med hjälp utav tidigare resultat av dokumentation även modeller utav kritiska områden på den befintliga ångledningen. Resultatet av dessa beräkningar och modelleringar var att stödkrafterna i fjäderupphängningarna i de manuella beräkningarna samt ROHR2 var över de tillåtna stödkrafterna. Sedan visade även resultatet i dokumentationen och mätningen att det skiljde sig mellan den befintliga ångledningen och isometriritningen på vissa områden. Sist så visade resultatet av ROHR2 beräkningarna att böjarna vid stöd 16 var överutnyttjade med en överutnyttjning av 104,4 % i modellen av isometriritningen. Slutsatsen av detta arbete var att fyra problemområden på ångledningen identifierades och följande rekommenderade åtgärder togs fram. ● Flytta det axiala stoppet från stöd 8 till stöd 9 för att den ska vara närmare där den termiska expansionen utgår ifrån, horisontellt spel på 10 mm negativt x-led och 14 mm positivt x-led ● Kapa ner längden innan vertikalen för att åtgärda hur mycket den sticker ut med ● Åtgärda det felplacerade axialstoppet vid stöd 13 ● Lägg till en schimsning vid stöd 16
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Properties in New Complex Perovskite-Related Materials, a Matter of Composition and Structure / Egenskaper hos nya komplexa perovskitrelaterade material, en fråga om sammansättning och strukturShafeie, Samrand January 2013 (has links)
This PhD thesis presents investigations of perovskite-related compounds in systems of interest for applications in components in solid oxide fuel cells. The compound compositions derive from substitutions in the parent compounds LaCoO3, LaCrO3 and SrFeO3. Novel phases La2Co1+z(MgxTi1-x)1-zO6 were synthesized and investigated with regard to structure, thermal expansion, electronic and magnetic properties. The study focused on the composition lines La2Co(MgxTi1-x)O6 (z=0), where the oxidation state of Co nominally changes from +2 (x=0.0) to +3 (x=0.5), and La2Co1+z(Mg0.5Ti0.5)1-zO6, with a varying fraction of Co3+ ions. XANES data show that the Co ions in the system have discrete oxidation states of +2 and +3. The TEC increases with increasing x due to an increasing contribution from spin state transitions of the Co3+ ions. Novel compounds La2Cr(M2/3Nb1/3)O6 with M=Mg, Ni, Cu were synthesized and characterized with respect to structure and magnetic properties. XRPD and NPD data indicate Pbnm symmetry; however, SAED patterns and HREM images indicate a P21/n symmetry for M=Mg, and Cu. The magnetic measurements results were rationalized using the Goodenough-Kanamori rules. Oxygen-deficient phases with x≥0.63 in SrxY1-xFeO3-δ and Sr0.75Y0.25Fe1-yMyO3-δ (M=Cr, Mn, Ni and y=0.2, 0.33, 0.5), were synthesized and characterized with respect to structure, oxygen content, thermogravimetry, TEC, conductivity and magnetic properties. Powder patterns of phases agree with cubic perovskite structures. NPD data for x=0.75 reveal anisotropic displacement for the O atom, related to local effects from Fe3+/Fe4+ ions. SAED patterns for x=0.75 reveal the presence of an incommensurate modulation. The compounds start to lose oxygen in air at ~ 400°C. The TEC up to ~400°C for x=0.75 is ~10.5 ppm/K and increase to ~17.5 ppm/K at higher temperatures. The conductivity for x=0.91 is 164 S/cm at 400°C. Partial substitution of Fe by Cr, Mn or Ni does not increase the conductivity or decrease TEC.
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Structure and Properties Investigations of the La2Co1+z(Ti1-xMgx)1-zO6 Perovskite System / Struktur och Egenskapsundersökningar av La2Co1+z(Ti1-xMgx)1-zO6 Perovskit SystemetShafeie, Samrand January 2011 (has links)
Perovskite based materials have great potentials for various energy applications and the search for new materials for uses in SOFCs has largely been concentrated to this class of compounds. In this search, we have studied perovskite phases in the system La2Co1+z(Ti1-xMgx)1-zO6, with 0 x 0.9 and z = 0.0, 0.2, 0.4, 0.6. Crystal structures were characterized by XRD and, for selected compositions, also by NPD and SAED. They exhibit with increasing x, as well as increasing z, a progressive increase in symmetry from monoclinic to orthorhombic to rhombohedral. The main focus in this work has been on the investigation of structure-property relations for compositions with 0.0 x 0.5 and z = 0. The nominal oxidation state of Co increases for these with increasing x, from Co2+ for x = 0 to Co3+ for x = 0.5. Magnetic measurements and XANES studies showed that the average spin state of Co changes linearly with increasing x, up to x = 0.5, in accordance with varying proportions of Co with two fixed oxidation states, i.e. Co2+ and Co3+. The data suggests that the Co3+ ions have an IS spin state or a mixture of LS and HS spin states for all compositions with nominally only Co2+ and Co3+ ions, possibly with the exception of the composition with x = 0.1, 0.2 and z = 0, for which the data indicate that the spin state might be HS. The XANES data indicate furthermore that for the perovskite phases with z = 0 and x > 0.5, which in the absence of O atom vacancies contain formally Co4+, the highest oxidation state of Co is Co3+, implying that the substitution of Ti4+ by Mg2+ for x ³ 0.5 effects an oxidation of O2- ions rather than an oxidation of Co3+ ions. The thermal expansion was found to increase nearly linearly with increasing oxidation state of Co. This agrees well with findings in previous studies and is attributable to an increase in the ionic radius of Co3+ ions with increasing temperature, due to a thermal excitation from a LS to IS or LS/HS spin states. High temperature electronic conductivity measurements indicate that the electronic conductivity increases with an increase of both relative and absolute amount of Co3+. The latter can be attributed to an increase in the number of Co-O-Co connections. Additional high temperature magnetic measurements for selected samples, whose susceptibilities did not follow a Curie law behaviour up to room temperature, showed effective magnetic moments that did approach plateaus even at high temperatures (900 K). Interpretations of these data are, however, hindered by the samples losing oxygen during the applied heating-cooling cycle. The present study has shown that the investigated system is suitable for further studies, of more fundamental character, which could provide further insight of the structure-property relationships that depend on the oxidation state of Co. / Studies of cobalt based perovskites for cathode materials in solid oxide fuel cells.
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