5 resultados para criticality

em AMS Tesi di Dottorato - Alm@DL - Università di Bologna


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The present PhD thesis summarizes the three-years study about the neutronic investigation of a new concept nuclear reactor aiming at the optimization and the sustainable management of nuclear fuel in a possible European scenario. A new generation nuclear reactor for the nuclear reinassance is indeed desired by the actual industrialized world, both for the solution of the energetic question arising from the continuously growing energy demand together with the corresponding reduction of oil availability, and the environment question for a sustainable energy source free from Long Lived Radioisotopes and therefore geological repositories. Among the Generation IV candidate typologies, the Lead Fast Reactor concept has been pursued, being the one top rated in sustainability. The European Lead-cooled SYstem (ELSY) has been at first investigated. The neutronic analysis of the ELSY core has been performed via deterministic analysis by means of the ERANOS code, in order to retrieve a stable configuration for the overall design of the reactor. Further analyses have been carried out by means of the Monte Carlo general purpose transport code MCNP, in order to check the former one and to define an exact model of the system. An innovative system of absorbers has been conceptualized and designed for both the reactivity compensation and regulation of the core due to cycle swing, as well as for safety in order to guarantee the cold shutdown of the system in case of accident. Aiming at the sustainability of nuclear energy, the steady-state nuclear equilibrium has been investigated and generalized into the definition of the ``extended'' equilibrium state. According to this, the Adiabatic Reactor Theory has been developed, together with a New Paradigm for Nuclear Power: in order to design a reactor that does not exchange with the environment anything valuable (thus the term ``adiabatic''), in the sense of both Plutonium and Minor Actinides, it is required indeed to revert the logical design scheme of nuclear cores, starting from the definition of the equilibrium composition of the fuel and submitting to the latter the whole core design. The New Paradigm has been applied then to the core design of an Adiabatic Lead Fast Reactor complying with the ELSY overall system layout. A complete core characterization has been done in order to asses criticality and power flattening; a preliminary evaluation of the main safety parameters has been also done to verify the viability of the system. Burn up calculations have been then performed in order to investigate the operating cycle for the Adiabatic Lead Fast Reactor; the fuel performances have been therefore extracted and inserted in a more general analysis for an European scenario. The present nuclear reactors fleet has been modeled and its evolution simulated by means of the COSI code in order to investigate the materials fluxes to be managed in the European region. Different plausible scenarios have been identified to forecast the evolution of the European nuclear energy production, including the one involving the introduction of Adiabatic Lead Fast Reactors, and compared to better analyze the advantages introduced by the adoption of new concept reactors. At last, since both ELSY and the ALFR represent new concept systems based upon innovative solutions, the neutronic design of a demonstrator reactor has been carried out: such a system is intended to prove the viability of technology to be implemented in the First-of-a-Kind industrial power plant, with the aim at attesting the general strategy to use, to the largest extent. It was chosen then to base the DEMO design upon a compromise between demonstration of developed technology and testing of emerging technology in order to significantly subserve the purpose of reducing uncertainties about construction and licensing, both validating ELSY/ALFR main features and performances, and to qualify numerical codes and tools.

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3D video-fluoroscopy is an accurate but cumbersome technique to estimate natural or prosthetic human joint kinematics. This dissertation proposes innovative methodologies to improve the 3D fluoroscopic analysis reliability and usability. Being based on direct radiographic imaging of the joint, and avoiding soft tissue artefact that limits the accuracy of skin marker based techniques, the fluoroscopic analysis has a potential accuracy of the order of mm/deg or better. It can provide fundamental informations for clinical and methodological applications, but, notwithstanding the number of methodological protocols proposed in the literature, time consuming user interaction is exploited to obtain consistent results. The user-dependency prevented a reliable quantification of the actual accuracy and precision of the methods, and, consequently, slowed down the translation to the clinical practice. The objective of the present work was to speed up this process introducing methodological improvements in the analysis. In the thesis, the fluoroscopic analysis was characterized in depth, in order to evaluate its pros and cons, and to provide reliable solutions to overcome its limitations. To this aim, an analytical approach was followed. The major sources of error were isolated with in-silico preliminary studies as: (a) geometric distortion and calibration errors, (b) 2D images and 3D models resolutions, (c) incorrect contour extraction, (d) bone model symmetries, (e) optimization algorithm limitations, (f) user errors. The effect of each criticality was quantified, and verified with an in-vivo preliminary study on the elbow joint. The dominant source of error was identified in the limited extent of the convergence domain for the local optimization algorithms, which forced the user to manually specify the starting pose for the estimating process. To solve this problem, two different approaches were followed: to increase the optimal pose convergence basin, the local approach used sequential alignments of the 6 degrees of freedom in order of sensitivity, or a geometrical feature-based estimation of the initial conditions for the optimization; the global approach used an unsupervised memetic algorithm to optimally explore the search domain. The performances of the technique were evaluated with a series of in-silico studies and validated in-vitro with a phantom based comparison with a radiostereometric gold-standard. The accuracy of the method is joint-dependent, and for the intact knee joint, the new unsupervised algorithm guaranteed a maximum error lower than 0.5 mm for in-plane translations, 10 mm for out-of-plane translation, and of 3 deg for rotations in a mono-planar setup; and lower than 0.5 mm for translations and 1 deg for rotations in a bi-planar setups. The bi-planar setup is best suited when accurate results are needed, such as for methodological research studies. The mono-planar analysis may be enough for clinical application when the analysis time and cost may be an issue. A further reduction of the user interaction was obtained for prosthetic joints kinematics. A mixed region-growing and level-set segmentation method was proposed and halved the analysis time, delegating the computational burden to the machine. In-silico and in-vivo studies demonstrated that the reliability of the new semiautomatic method was comparable to a user defined manual gold-standard. The improved fluoroscopic analysis was finally applied to a first in-vivo methodological study on the foot kinematics. Preliminary evaluations showed that the presented methodology represents a feasible gold-standard for the validation of skin marker based foot kinematics protocols.

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MFA and LCA methodologies were applied to analyse the anthropogenic aluminium cycle in Italy with focus on historical evolution of stocks and flows of the metal, embodied GHG emissions, and potentials from recycling to provide key features to Italy for prioritizing industrial policy toward low-carbon technologies and materials. Historical trend series were collected from 1947 to 2009 and balanced with data from production, manufacturing and waste management of aluminium-containing products, using a ‘top-down’ approach to quantify the contemporary in-use stock of the metal, and helping to identify ‘applications where aluminium is not yet being recycled to its full potential and to identify present and future recycling flows’. The MFA results were used as a basis for the LCA aimed at evaluating the carbon footprint evolution, from primary and electrical energy, the smelting process and the transportation, embodied in the Italian aluminium. A discussion about how the main factors, according to the Kaya Identity equation, they did influence the Italian GHG emissions pattern over time, and which are the levers to mitigate it, it has been also reported. The contemporary anthropogenic reservoirs of aluminium was estimated at about 320 kg per capita, mainly embedded within the transportation and building and construction sectors. Cumulative in-use stock represents approximately 11 years of supply at current usage rates (about 20 Mt versus 1.7 Mt/year), and it would imply a potential of about 160 Mt of CO2eq emissions savings. A discussion of criticality related to aluminium waste recovery from the transportation and the containers and packaging sectors was also included in the study, providing an example for how MFA and LCA may support decision-making at sectorial or regional level. The research constitutes the first attempt of an integrated approach between MFA and LCA applied to the aluminium cycle in Italy.

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Il presente studio si colloca nell’ambito di una ricerca il cui obiettivo è la formulazione di criteri progettuali finalizzati alla ottimizzazione delle prestazioni energetiche delle cantine di aziende vitivinicole con dimensioni produttive medio-piccole. Nello specifico la ricerca si pone l’obiettivo di individuare degli indicatori che possano valutare l’influenza che le principali variabili progettuali hanno sul fabbisogno energetico dell’edificio e sull’andamento delle temperature all’interno dei locali di conservazione ed invecchiamento del vino. Tali indicatori forniscono informazioni sulla prestazione energetica dell’edificio e sull’idoneità dei locali non climatizzati finalizzata alla conservazione del vino Essendo la progettazione una complessa attività multidisciplinare, la ricerca ha previsto l’ideazione di un programma di calcolo in grado di gestire ed elaborare dati provenienti da diversi ambiti (ingegneristici, architettonici, delle produzioni agroindustriali, ecc.), e di restituire risultati sintetici attraverso indicatori allo scopo individuati. Il programma è stato applicato su un caso-studio aziendale rappresentativo del settore produttivo. Sono stati vagliati gli effetti di due modalità di vendemmia e di quattro soluzioni architettoniche differenti. Le soluzioni edilizie derivano dalla combinazione di diversi isolamenti termici e dalla presenza o meno di locali interrati. Per le analisi sul caso-studio ci si è avvalsi di simulazioni energetiche in regime dinamico, supportate e validate da campagne di monitoraggio termico e meteorologico all’interno dell’azienda oggetto di studio. I risultati ottenuti hanno evidenziato come il programma di calcolo concepito nell’ambito di questo studio individui le criticità dell’edificio in termini energetici e di “benessere termico” del vino e consenta una iterativa revisione delle variabili progettuale indagate. Esso quindi risulta essere uno strumento informatizzato di valutazione a supporto della progettazione, finalizzato ad una ottimizzazione del processo progettuale in grado di coniugare, in maniera integrata, gli obiettivi della qualità del prodotto, della efficienza produttiva e della sostenibilità economica ed ambientale.

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La tesi riprende un tema che è stato oggetto in passato di studi anche molto approfonditi; oggi sembra essere tornato alla ribalta grazie ad alcuni contributi che hanno nuovamente stimolato la dottrina a confrontarsi su aspetti così delicati anche alla luce della crisi economica. E'stato da sempre rilevato che la buona scrittura delle norme è un fattore fondamentale per il rilancio dell’economia del paese, per la semplificazione e per garantire ordine, coerenza e chiarezza all’ordinamento giuridico. La prima parte è incentrata su una ricostruzione storica e giuridica delle fonti che hanno disciplinato le “regole per la qualità delle regole”, oltre ad una panoramica della dottrina che si è occupata in passato del tema. Segue l’individuazione specifica di quali sono le regole formali e sostanziali di drafting. In particolare, una parte è dedicata alla giurisprudenza costituzionale per comprendere se esiste o meno un aggancio per la Corte Costituzionale da permetterle il sindacato sulle “regole oscure” e dichiararle illegittime. La seconda parte analizza le pressai, in particolare si è scelto di analizzare il rapporto tra Governo e Parlamento nelle problematiche principali che attengono al procedimento legislativo e alla cornice entro la quale viene esplicato in relazione alla decretazione d’urgenza, maxiemendamenti, questione di fiducia, istruttoria in commissione, gruppi di pressione. Ciò che è stato rilevato, è una scarsa aderenza ai principi e ai criteri di better regulation, peraltro difficilmente giustiziabili da parte della Corte costituzionale e sottratti al controllo di chi, al contrario, ha competenza in questo settore, ossia il Comitato per la legislazione e il DAGL. Le conclusioni, pertanto, prendono le mosse da una serie di criticità rilevate e tentano di tracciare una strada da percorrere che sia rispettosa dei canoni della “better regulation” anche alla luce delle riforme costituzionali e dei regolamenti parlamentari in corso di approvazione.