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Safety, Security And safeguards In GEN IV sodium fast reactorsRossi, Fabiana <1982> 29 April 2015 (has links)
This work presents first a study of the national and international laws in the fields of safety, security and safeguards. The international treaties and the recommendations issued by the IAEA as well as the national regulations in force in France, the United States and Italy are analyzed. As a result of this, a comparison among them is presented. Given the interest of the Japan Atomic Energy Agency for the aspects of criminal penalties and monetary, also the Japanese case is analyzed.
The main part of this work was held at the JAEA in the field of proliferation resistance (PR) and physical protection (PP) of a GEN IV sodium fast reactor. For this purpose the design of the system is completed and the PR & PP methodology is applied to obtain data usable by designers for the improvement of the system itself. Due to the presence of sensitive data, not all the details can be disclosed. The reactor site of a hypothetical and commercial sodium-cooled fast neutron nuclear reactor system (SFR) is used as the target NES for the application of the methodology. The methodology is applied to all the PR and PP scenarios: diversion, misuse and breakout; theft and sabotage. The methodology is applied to the SFR to check if this system meets the target of PR and PP as described in the GIF goal; secondly, a comparison between the SFR and a LWR is performed to evaluate if and how it would be possible to improve the PR&PP of the SFR. The comparison is implemented according to the example development target: achieving PR&PP similar or superior to domestic and international ALWR. Three main actions were performed: implement the evaluation methodology; characterize the PR&PP for the nuclear energy system; identify recommendations for system designers through the comparison.
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Improvement of photon transport model by including coupled photon-electron transport and kernel refinementDi Giulio, Eugenio <1986> 29 April 2015 (has links)
The first part of this work deals with the inverse problem solution in the X-ray spectroscopy field. An original strategy to solve the inverse problem by using the maximum entropy principle is illustrated. It is built the code UMESTRAT, to apply the described strategy in a semiautomatic way. The application of UMESTRAT is shown with a computational example. The second part of this work deals with the improvement of the X-ray Boltzmann model, by studying two radiative interactions neglected in the current photon models. Firstly it is studied the characteristic line emission due to Compton ionization. It is developed a strategy that allows the evaluation of this contribution for the shells K, L and M of all elements with Z from 11 to 92. It is evaluated the single shell Compton/photoelectric ratio as a function of the primary photon energy. It is derived the energy values at which the Compton interaction becomes the prevailing process to produce ionization for the considered shells. Finally it is introduced a new kernel for the XRF from Compton ionization. In a second place it is characterized the bremsstrahlung radiative contribution due the secondary electrons. The bremsstrahlung radiation is characterized in terms of space, angle and energy, for all elements whit Z=1-92 in the energy range 1–150 keV by using the Monte Carlo code PENELOPE. It is demonstrated that bremsstrahlung radiative contribution can be well approximated with an isotropic point photon source. It is created a data library comprising the energetic distributions of bremsstrahlung. It is developed a new bremsstrahlung kernel which allows the introduction of this contribution in the modified Boltzmann equation. An example of application to the simulation of a synchrotron experiment is shown.
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Modelling, diagnostics and experimental analysis of plasma assisted processes for material treatmentBoselli, Marco <1983> 29 April 2015 (has links)
This work presents results from experimental investigations of several different atmospheric pressure plasmas applications, such as Metal Inert Gas (MIG) welding and Plasma Arc Cutting (PAC) and Welding (PAW) sources, as well as Inductively Coupled Plasma (ICP) torches. The main diagnostic tool that has been used is High Speed Imaging (HSI), often assisted by Schlieren imaging to analyse non-visible phenomena. Furthermore, starting from thermo-fluid-dynamic models developed by the University of Bologna group, such plasma processes have been studied also with new advanced models, focusing for instance on the interaction between a melting metal wire and a plasma, or considering non-equilibrium phenomena for diagnostics of plasma arcs.
Additionally, the experimental diagnostic tools that have been developed for industrial thermal plasmas have been used also for the characterization of innovative low temperature atmospheric pressure non equilibrium plasmas, such as dielectric barrier discharges (DBD) and Plasma Jets. These sources are controlled by few kV voltage pulses with pulse rise time of few nanoseconds to avoid the formation of a plasma arc, with interesting applications in surface functionalization of thermosensitive materials. In order to investigate also bio-medical applications of thermal plasma, a self-developed quenching device has been connected to an ICP torch. Such device has allowed inactivation of several kinds of bacteria spread on petri dishes, by keeping the substrate temperature lower than 40 degrees, which is a strict requirement in order to allow the treatment of living tissues.
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Severe Accident Simulation of Small Modular ReactorsDi Giuli, Mirco <1976> January 1900 (has links)
Since the Three Mile Island Unit 2 (TMI-2), accident in 1979 which led to the meltdown of about one half of the reactor core and to limited releases of radioactive materials to the environment, an important international effort has been made on severe accident research. The present work aims to investigate the behaviour of a Small Modular Reactor during severe accident conditions. In order to perform these analyses, a SMR has been studied for the European reference severe accident analysis code ASTEC, developed by IRSN and GRS. In the thesis will be described in detail the IRIS Small Modular Reactor; the reference reactor chosen to develop the ASTEC input deck. The IRIS model was developed in the framework of a research collaboration with the IRSN development team. In the thesis will be described systematically the creation of the ASTEC IRIS input deck: the nodalization scheme adopted, the solution used to simulate the passive safety systems and the strong interaction between the reactor vessel and the containment. The ASTEC SMR model will be tested against the RELAP-GOTHIC coupled code model, with respect to a Design Basis Accident, to evaluate the capability of the ASTEC code on reproducing correctly the behaviour of the nuclear system. Once the model has been validated, a severe accident scenario will be simulated and the obtained results along with the nuclear system response will be analysed.
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Calcoli di sezioni d'urto efficaci di riflettore in sistemi PWR di terza generazione / Reflector effective cross sections calculations for GENIII PWR systemsGuglielmelli, Antonio <1975> 29 April 2015 (has links)
La corretta modellizzazione della zona del riflettore dei sistemi GEN III+ è un passaggio fondamentale per un’accurata predizione dei parametri di cella il cui valore influenza direttamente la distribuzione di potenza su tutto il nocciolo. Tale esigenza si è resa ancora più stringente dopo la constatazione che il fenomeno del “tilt power” risulta essere più amplificato nei noccioli nucleari equipaggiati con un riflettore pesante. Per tali ragioni, nel presente lavoro di tesi si è dedicata particolare attenzione alle metodiche di modellizzazione ed alla generazione delle sezioni d’urto efficaci omogenee ed agli assembly discontinuity factors (ADF) nella zona di riflessione. Il codice deterministico utilizzato per il calcolo è SCALE 6.1.3.
La notevole differenza nelle proprietà neutroniche associata ad un’elevata eterogeneità geometrica tra un nocciolo ed un riflettore hanno suggerito di effettuare un’analisi preliminare sul sistema riflettente GEN II proposto nel benchmark NEA-NSC-DOC (2013) per testare la capacità di SCALE 6.1.3 di effettuare un corretto calcolo di cella adottando una modellizzazione monodimensionale assembly/riflettore. I risultati ottenuti sono confrontati con quelli presentati nel benchmark e e con quelli valutati attraverso il codice Monte Carlo SERPENT 2.0 confermando la capacità di calcolo di SCALE 6.1.3.
L’analisi sulla modellizzazione dei sistemi riflettenti GEN III+ è stata effettuata ricavando il valore dei parametri di cella per configurazioni omogenee ed una serie di configurazioni geometriche esatte che comprendono tutte le modellizzazioni del sistema riflettente lungo la direzione angolare del riflettore. Si è inoltre effettuata un’analisi di sensitività su parametri operativi e sui parametri di codice. Si è infine effettuato un calcolo in color-set per indagare l’influenza degli effetti 2-D sui parametri di cella. I risultati prodotti rappresentano un contributo migliorativo nella conoscenza dei parametri di cella di riflettore e potranno essere utilizzati per una più precisa valutazione del fenomeno del tilt nei sistemi GEN III+. / In GEN III+ systems the correct modelization of the reflector zone is a key step for an exact prediction of the cell parameters whose values directly affect the radial power distribution of the core system. This need has become even more necessary after the discovery of the amplification of the “tilt power” phenomenon in the GEN III+ nuclear core. For this reason, special care is taken in the modelization methodology and in the generation of reflector homogenized cross-section and discontinuity factor (DFs) on the reflector zone. The deterministic package code used for the cell data calculation is SCALE 6.1.3 suite.
The strong difference in the neutronic properties at core/reflector interface combined with a high geometric heterogeneity between a core and a reflector system have suggested to perform a preliminary analysis on the GEN II reflector system as presented by NEA-NSC-DOC (2013) benchmark with the aim of testing the capability of the deterministic code to perform a correct calculation on a 1-D assembly/reflector modelization. The results, which are in good agreement with those evaluated with SERPENT 2.0 Monte Carlo code, confirmed the capability of SCALE code to perform cell data reflector calculations.
The modelization analysis on the GEN III+ reflector system has been performed for two homogeneous configurations and for a series of exact heterogeneous zones along the angular direction of the reflector. It has been also realized a sensitivity analysis on operational and code parameters. Finally, it was performed a 2x2 color-set calculation to investigate the 2-D geometry effects on the numerical values of cell reflector parameters.
The final results are an improvement in the scientific knowledge of the reflector cell data values. These values can be used in a EPR nodal code calculation for a more accurate assessment of the core power distribution and of the “power tilt” values.
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Theoretical and numerical study of the laser-plasma ion accelerationSgattoni, Andrea <1982> 06 June 2011 (has links)
The laser driven ion acceleration is a burgeoning field of resarch
and is attracting a growing number of scientists since the first results reported in 2000 obtained
irradiating thin solid foils by high power laser pulses.
The growing interest is driven by the peculiar characteristics of the produced bunches,
the compactness of the whole accelerating system and the very short
accelerating length of this all-optical accelerators.
A fervent theoretical and experimental work has been done since then.
An important part of the theoretical study is done by means of numerical simulations and the most widely used
technique exploits PIC codes (“Particle In Cell'”).
In this thesis the PIC code AlaDyn, developed by our research group considering innovative
algorithms, is described. My work
has been devoted to the developement of the code and
the investigation of the laser driven ion acceleration
for different target configurations.
Two target configurations for the proton acceleration are
presented together with the results of the 2D and 3D numerical investigation.
One target configuration consists of a solid foil with a low density layer attached on the
irradiated side. The nearly critical plasma of the foam layer allows a very
high energy absorption by the target and an increase of the proton
energy up to a factor 3, when compared to the ``pure'' TNSA configuration.
The differences of the regime with respect to the standard TNSA are described
The case of nearly critical density targets has been investigated with
3D simulations. In this case the laser travels throughout the plasma
and exits on the rear side. During the propagation, the laser drills a channel
and induce a magnetic vortex that expanding on the rear side of the targer is source of a
very intense electric field. The protons of the plasma are
strongly accelerated up to energies of 100 MeV using a 200PW laser.
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Visualizzazioni e rappresentazioni sensoriali della scienza non visibile / Visual and sensory representation of invisible scienceVarano, Stefania <1978> January 1900 (has links)
La visualizzazione scientifica è la resa in forma visuale di dati, al fine di meglio comprenderli per sé e più facilmente illustrarli ad altri. I dati visualizzati sono informazioni quantitative frutto di osservazione, astrazione o calcolo.
Il processo di visualizzazione presuppone una serie di regole per la codifica e decodifica dell’informazione. Normalmente il codice rappresentativo è articolato, per gestire al meglio il compromesso tra la fedeltà di rappresentazione e i limiti del mezzo usato per rappresentarla; non di rado però è sottointeso. Nei casi in cui la rappresentazione visuale è densamente figurativa, cioè imita espressamente la realtà, questo può portare a una confusione tra significante e significato oppure a un’interpretazione errata da parte dell’utente guidata dall’analogia con la memoria e l’esperienza vissuta. Questo fraintendimento può dimostrarsi particolarmente rischioso nei casi in cui la rappresentazione visuale ha come oggetto qualcosa di fisicamente esistente ma, per cause legate alla natura fisica dell’oggetto, inaccessibile alla vista e agli strumenti ottici.
Abbiamo argomentato come nel caso di rappresentazioni della realtà più arbitrarie e scarsamente figurative, la corrispondenza con il contenuto informativo è più cosciente nell’utilizzatore, permettendo di superare alcuni dei limiti cognitivi delle rappresentazioni visuali. Ci siamo quindi chiesti se non fosse possibile, e magari anche conveniente, realizzare rappresentazioni sensoriali che non fanno uso della vista e ne abbiamo studiato le potenzialità.
Lo studio ha guidato la realizzazione di una resa in forma tattile e uditiva dell’emissione di onde radio da parte di oggetti celesti in una regione di cielo, attraverso parametri tattili e uditivi arbitrari e non necessariamente corrispondenti ad analoghi visuali.
La sperimentazione, effettuata anche con l’aiuto di utenti non vedenti, ha evidenziato una notevole efficacia in termini di trasferimento di informazione e di coinvolgimento di un pubblico diversamente abile, mostrando interessanti spunti di ricerca futuri in ambito didattico, museale e sociale. / Scientific visualization is the visual representation of data, in order to better understand and illustrate them. The displayed data is any quantitative information, resulting from observation, abstraction or calculation.
The display process implies a set of rules for encoding information in a visual form. Normally the code is complex, in order to better compromise between the fidelity of representation and the limits of the medium used to represent it; not infrequently, however, it is tacit. In cases where the visual representation is densely figurative (i.e. a clear imitation of reality), this can lead to mistake signifier for signified, or to misinterpret the represented data, due to the analogy of the representation with real experience. This misunderstanding may be particularly risky in cases where the object of the visual representation is something physical, but inaccessible to the eye and to optical instruments.
We argue that in the case of more arbitrary and less figurative representations, the fruition is more conscious, also allowing to overcome some of the cognitive limits of visual representations. We investigate whether it is possible, and maybe even more suitable, to create sensorial representations that do not use the view, therefore we studied the potential of such representations.
This study led to the realization of a tactile and acoustic map of radio waves emitted from celestial objects in a region of the sky, using tactile and auditory parameters not necessarily corresponding to visual analogues.
The experiment, carried out also with visually impaired users, showed a significant effect in terms of transfer of information and involvement of a disabled audience, presenting interesting cues for future research in education, implementations for science centers and creation of integrations projects about sensory impairment.
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Sequestered String Models: Supersymmetry Breaking and Cosmological ApplicationsMuia, Francesco <1987> 29 February 2016 (has links)
In the present thesis I focused on the study of the phenomenology arising from a class of string models called sequestered compactifications, which were born with the aim of getting low-energy SUSY from strings. This is not an easy task if combined with cosmological constraints, since the mechanism of moduli stabilization fixes both the scale of supersymmetric particles and the scale of moduli, which tend to be of the same order. However, if on the one hand supersymmetric particles with TeV mass are desired in order to address the electroweak hierarchy problem, on the
other hand the cosmological moduli problem requires the moduli to be heavier than 100 TeV. The specific setup of sequestered compactifications makes this hierarchy
achievable, at least in principle: as in these models the visible sector is located on a stack of D3-branes at singularities, a physical separation between the visible degrees of freedom and the SUSY-breaking sources takes place. Such decoupling translates into a hierarchy between the scale of SUSY-breaking and the spectrum of supersymmetric particles. Interestingly, moduli are the four-dimensional manifestation of the existence of extra-dimensions. Since they are only gravitationally coupled,
they could decay late in the history of the universe, affecting in a significant way its cosmological evolution. Possible deviations of the cosmological observables from
the values predicted by the standard Hot Big Bang Theory constitute an interesting alternative for the discovery of new physics beyond the Standard Model, which is complementary to the particle physics search. For this reason in addition to SUSY-breaking in sequestered models, I also studied several cosmological scenarios arising
from them, such as production of non-thermal dark matter and dark radiation, reheating from moduli decay and inflation.
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Functional Modification of Materials and Synthesis of Nanostructures by Non-Equilibrium Atmospheric Pressure Plasma ProcessesLiguori, Anna <1989> January 1900 (has links)
Widely employed for a steadily increasing number of industrial processes and experimental studies, plasma can be considered as one of the most pervasive and promising technology of our time. Differently from thermal plasmas, the potentialities offered by non-equilibrium plasmas, especially if working at atmospheric pressure, are still far away to be totally understood, since the surprising and sometimes unpredictable results, coming from studies carried out all over the world, bring out the growing versatility of this technology and its suitability for many applications intersecting our daily lives.
The present dissertation, organized in two parts, is focused to present and discuss the results obtained from the Ph.D research activities carried out in the wide field of plasma and materials. The first part of the work is mainly aimed at investigating the potentialities of cold atmospheric plasmas (CAP) for the modification of materials, coating deposition and crosslinking of polymers. In the first two chapters, the conventional techniques and the CAP approaches most employed to carry out the processes will be briefly summarized. In the other chapters, organized by topic, the results achieved during the Ph.D research activities in the fields of surface material modification, coating deposition and crosslinking of polymers will be presented and discussed.
The second part of the dissertation is linked to the investigation of the potentialities of plasma-induced chemistry in a liquid environment for the synthesis of nanostructures. Similarly to the first one, the second part of the dissertation will present an overview on the conventional and CAP assisted methods for nanostructures synthesis; moreover, in the second part of the last chapter, the Ph.D experimental activities aimed at synthesising CuO quantum dots in a liquid environment will be illustrated.
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Optimize Natural Ventilation and Thermal Mass in Residential Buildings to Achieve Thermal Comfort and Reduction of Energy Consumption in Hot Dry ClimateMousli, Kindah <1982> 01 June 2016 (has links)
Using natural phenomena to reach indoor comfort has been known since early time and the oldest heritage architecture‘s and engineering of Middle East region, which has responded with such phenomena as well very good solutions special for hot-dry region (height temperature and radiation at summer and big variation between day and night temperature also between the hot summer and cool winter). This Architecture realized inside its houses optimum comfortable temperatures throughout nearly all the days of the yearlong. That was through equating with the volume adopting and the space taming with the different natural elements forces of the sun, atmosphere and climate as all which is common in these days as passive design strategies and reducing energy consumption .
This research investigate the thermal mass and natural ventilation for traditional house (hot-dry region in Damascus) that gives high energy efficiency in providing cool indoor air through ventilation (single sided , cross ventilation) and envelope behavior, with the procedures of measurements combined with simulation program model, to improve Middle East new residential buildings through utilize combination of passive cooling and heating techniques. Natural ventilation in traditional building coupled with effects of massive construction and design assemble, provide thermal comfort (temperature control) over interior condition. This strategies are utilized to conserve energy in a hot-dry climate specially on middle east region as Damascus and other cities which have comfort traditional houses .
The modern template applied by simulation program for traditional heating and cooling technique achieves thermal comfort related to occupant behavior and reduces energy consumption for new apartment of about 30-45% reduction of energy needs at Damascus, 20-35% at Cairo and 15-30% also at very hot dry climate as Riyadh.
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