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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    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.
1

Termodynamisk utvärdering av borstål / Thermodynamic Evaluation of Boron Steel

Persson, Daniel January 2014 (has links)
Vid framställning av olika material är introduceringen av legeringselement ett betydelsefullt område. Vid framställning av stål kan egenskaperna för stålet optimeras genom att styra de kemiska reaktionerna som sker i samband med att stålet legeras. För legeringar av stål är låga halter av grundämnet bor av intresse. Tillsatser av bor vid ståltillverkningen har visats ge betydande förbättringar av olika materialegenskaper för stål. Ett känt problem är att bor uppvisar hög affinitet till flera andra grundämnen. Detta leder till att bor vid materialtillverkningen bildar ej önskvärda kemiska föreningar med dessa ämnen vilket leder till att borets bidrag till stålets egenskaper förloras i hög utsträckning.Med hjälp av termodynamiska beräkningsmodeller, såsom CALPHAD-metoden, går det att beräkna olika termodynamiska beskrivningar av kemiska föreningar. Dessa kan därefter sammanställas i databaser för framtida beräkningar. Genom att utföra utvärderingar och beräkningar på system av lägre grad, t.ex. binära system, kan i förlängningen mer komplexa beräkningar utföras på multikomponenta system som innehåller flera olika grundämnen. Databasen i detta projekt saknar en uppdaterad beskrivning av tillgänglig termodynamisk informationen för vissa borkarbider. Syftet med detta examensarbete var att utföra en utvärdering av stål mikrolegerat med bor och utföra en uppdatering av en databas med avseende på utvalda kemiska föreningar. Med programvaran Thermo-Calc har en termodynamisk utvärdering skett av Fe-B-C-systemet med avseende på de tidigare ej beskrivna borkarbiderna Fe3(B,C) och Fe23(B,C)6. Deframtagna beskrivningarna av föreningarna implementerades i databasen på ekvationsform och beräkningar utfördes för att påvisa pålitligheten i beskrivningarna. Resultaten från beräkningarna visades överensstämma väl med referenser i litteraturen. / When studying the production of different materials, the introduction of alloying elements is of great importance. The material properties of steels can be optimized through control of the different chemical reactions taking place in the production process. For different steel alloys, alloying with the element boron has shown an increased hardenability for the end products. One problem with boron is that it shows high affinity to several other elements. This can lead to boron forming different chemical compounds that are not desired and thus losing the contribution of boron to the hardenability effect. With the help of thermodynamic calculation models, such as the CALPHAD-method, it is now possible to calculate different kinds of thermodynamic descriptions for chemical compounds. These descriptions can be used in databases for future calculations. By making evaluations of thermodynamic systems of lower degrees, for example a binary system, one could perform more complex calculations of systems involving many elements and compounds. The database used in this project lacked an updated thermodynamic description of selected boron carbides. The purpose of this Master’s Thesis was to perform a thermodynamic evaluation of steel alloyed with small amounts of boron. Using the updated descriptions, the database was updated with the latest thermodynamic information regarding the chemical compounds of Fe3(C,B) and Fe23(C,B)6.A thermodynamic evaluation has been performed using the software Thermo-Calc for the boron carbides Fe3(C,B) and Fe23(C,B)6 in the ternary system Fe-B-C. These new descriptions were implemented in the database and through calculations validated against published articles and journals. The results from the calculations were shown to be satisfactory when comparing to other published results.
2

Analysis of Parabolic Trough Solar Energy Integration into Different Geothermal Power Generation Concepts

Vahland, Sören January 2013 (has links)
The change in climate as a consequence of anthropogenic activities is a subject ofmajor concerns. In order to reduce the amount of greenhouse gas emissions inthe atmosphere, the utilization of renewable, fossil-free power generationapplications becomes inevitable. Geothermal and solar energy play a major rolein covering the increased demand for renewable energy sources of today’s andfuture’s society. A special focus hereby lies on the Concentrating Solar Powertechnologies and different geothermal concepts. The costs for producingelectricity through Concentrating Solar Power and therefore Parabolic Trough Collectorsas well as geothermal conversion technologies are still comparatively high. Inorder to minimize these expenses and maximize the cycle’s efficiency, thepossible synergies of a hybridization of these two technologies becomeapparent. This thesis therefore investigates the thermodynamic and economicbenefits and drawbacks of this combination from a global perspective. For that,a Parabolic Trough Collector system is combined with the geothermal conversionconcepts of Direct Steam, Single and Double Flash, Organic Rankine as well asKalina Cycles. The solar integrations under investigation are Superheat,Preheat and Superheat & Reheat of the geothermal fluid. The thermodynamicanalysis focuses on the thermal and utilization efficiencies, as well as therequired Parabolic Trough Collector area. The results indicate that in the caseof the Superheat and Superheat & Reheat setup, the thermal efficiency canbe improved for all geothermal concepts in comparison to their correspondinggeothermal stand-alone case. The Preheat cases, with the major contributionfrom solar energy, are not able to improve the cycle’s thermal efficiencyrelative to the reference setup. From an exergy perspective the findings varysignificantly depending on the applied boundary conditions. Still, almost allcases were able to improve the cycle’s performance compared to the referencecase. For the economic evaluation, the capital investment costs and thelevelized costs of electricity are studied. The capital costs increasesignificantly when adding solar energy to the geothermal cycle. The levelizedelectricity costs could not be lowered for any hybridization case compared tothe reference only-geothermal configurations. The prices vary between20.04 €/MWh and 373.42 €/MWh. When conducting a sensitivity analysison the solar system price and the annual mean irradiance, the Kalina Superheatand Superheat & Reheat, as well as the Organic Rankine Preheathybridizations become cost competitive relative to the reference cases.Concluding, it is important to remark, that even if the hybridization of the ParabolicTrough and the different geothermal concepts makes sense from a thermodynamicperspective, the decisive levelized costs of electricity could not be improved.It is, however, possible that these costs can be further reduced under speciallocal conditions, making the addition of Parabolic Trough solar heat tospecific geothermal concepts favorable.

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