Calculation of the eigenfunctions of the two-group neutron diffusion equation and application to modal decomposition of BWR instabilities

In this thesis, numerical methods aiming at determining the eigenfunctions, their adjoint and the corresponding eigenvalues of the two-group neutron diffusion equations representing any heterogeneous system are investigated. First, the classical power iteration method is modified so that the calculation of modes higher than the fundamental mode is possible. Thereafter, the Explicitly-Restarted Arnoldi method, belonging to the class of Krylov subspace methods, is touched upon. Although the modified power iteration method is a computationally-expensive algorithm, its main advantage is its robustness, i.e. the method always converges to the desired eigenfunctions without any need from the user to set up any parameter in the algorithm. On the other hand, the Arnoldi method, which requires some parameters to be defined by the user, is a very efficient method for calculating eigenfunctions of large sparse system of equations with a minimum computational effort. These methods are thereafter used for off-line analysis of the stability of Boiling Water Reactors. Since several oscillation modes are usually excited (global and regional oscillations) when unstable conditions are encountered, the characterization of the stability of the reactor using for instance the Decay Ratio as a stability indicator might be difficult if the contribution from each of the modes are not separated from each other. Such a modal decomposition is applied to a stability test performed at the Swedish Ringhals-1 unit in September 2002, after the use of the Arnoldi method for pre-calculating the different eigenmodes of the neutron flux throughout the reactor. The modal decomposition clearly demonstrates the excitation of both the global and regional oscillations. Furthermore, such oscillations are found to be intermittent with a time-varying phase shift between the first and second azimuthal modes.

Comparative study of the different models for the calculation of BLEVEs overpressure effects

The BLEVE, acronym for Boiling Liquid Expanding Vapour Explosion, is one of the most dangerous accidents that can occur in pressure vessels. It can be defined as an explosion resulting from the failure of a vessel containing a pressure liquefied gas stored at a temperature significantly above its boiling point at atmospheric pressure. This phenomenon frequently appears when a vessel is engulfed by a fire: the heat causes the internal pressure to raise and the mechanical proprieties of the wall to decrease, with the consequent rupture of the tank and the instantaneous release of its whole content. After the breakage, the vapour outflows and expands and the liquid phase starts boiling due to the pressure drop. The formation and propagation of a distructive schock wave may occur, together with the ejection of fragments, the generation of a fireball if the stored fluid is flammable and immediately ignited or the atmospheric dispersion of a toxic cloud if the fluid contained inside the vessel is toxic. Despite the presence of many studies on the BLEVE mechanism, the exact causes and conditions of its occurrence are still elusive. In order to better understand this phenomenon, in the present study first of all the concept and definition of BLEVE are investigated. A historical analysis of the major events that have occurred over the past 60 years is described. A research of the principal causes of this event, including the analysis of the substances most frequently involved, is presented too. Afterwards a description of the main effects of BLEVEs is reported, focusing especially on the overpressure. Though the major aim of the present thesis is to contribute, with a comparative analysis, to the validation of the main models present in the literature for the calculation and prediction of the overpressure caused by BLEVEs. In line with this purpose, after a short overview of the available approaches, their ability to reproduce the trend of the overpressure is investigated. The overpressure calculated with the different models is compared with values deriving from events happened in the past and ad-hoc experiments, focusing the attention especially on medium and large scale phenomena. The ability of the models to consider different filling levels of the reservoir and different substances is analyzed too. The results of these calculations are extensively discussed. Finally some conclusive remarks are reported.

Noi, esplorat-t-ori. Quanti sentieri ci servono per leggerci?

Cosa ci spinge a viaggiare? Siamo così terribilmente annoiati dalle nostre insicurezze e dalle luccicanti certezze della società che per rimanere in vita sentiamo il bisogno di muoverci, spostarci, andare fuori. Ma fuori dove? Crediamo davvero di salvarci andando a cercare qualcosa che non riusciamo nemmeno a definire? Coloro che potrebbero rispondere affermativamente a un tale quesito non sono quelli che partono, ma quelli che non tornano. Viaggiare per me significa leggere le differenze e leggermi nel profondo, scrivere dell’esperienza e scrivermi tracciando il mio cambiamento, tradurre da una lingua all’altra e tradurre le mie nuove emozioni. Questo elaborato è, perciò, l’umile tentativo di descrivere la complessità e l’arricchimento che può derivare dal fare esperienza, che sia viaggiando, leggendo, scrivendo o traducendo, vedendomi “di spalle che partivo” come avrebbe detto Fabrizio De André. Il fil rouge che creerà un legame tra tali azioni, che tesserà la trama dell’arazzo della mia esperienza è la metafora. La metafora è qualcosa che va anche al di là della sua semplice etimologia dal greco che la rende protagonista di un portare oltre. Metterò in scena il dubbio e la curiosità come motivi del viaggiare; parlerò della soglia come sipario che scorre via una volta che ci si apre all’Altro e non vi è più distinzione né distanza di spazio e tempo; varcherò i confini delle definizioni come palcoscenico in cui lettori, scrittori e traduttori viaggiano, e mostrerò come questi siano antropologi, registi e spettatori allo stesso tempo. Tutto ciò che infine rimarrà non sarà solo il silenzio, l’assenza derivanti dalle perdite che tali esperienze comportano, ma soprattutto l’amore che l’accoglienza dell’Altro insegna.

Design and Implementation of a Cloud Infrastructure for Distributed Scientific Calculation

Cloud computing enables independent end users and applications to share data and pooled resources, possibly located in geographically distributed Data Centers, in a fully transparent way. This need is particularly felt by scientific applications to exploit distributed resources in efficient and scalable way for the processing of big amount of data. This paper proposes an open so- lution to deploy a Platform as a service (PaaS) over a set of multi- site data centers by applying open source virtualization tools to facilitate operation among virtual machines while optimizing the usage of distributed resources. An experimental testbed is set up in Openstack environment to obtain evaluations with different types of TCP sample connections to demonstrate the functionality of the proposed solution and to obtain throughput measurements in relation to relevant design parameters.

Litterature de l'immigration et temoignage : Proposition de traduction de deux chapitres du roman "solo la luna ci ha visti passare" de Francesca Ghirardelli

Il presente elaborato ha l’obiettivo di analizzare il fenomeno dell’immigrazione, soprattutto quella clandestina, attraverso una proposta di traduzione verso il francese del romanzo « Solo la luna ci ha visti passare », pubblicato dalla scrittrice italiana Francesca Ghirardelli nel maggio 2016. Il romanzo è la testimonianza di una ragazzina curda-siriana che, tra luglio e agosto 2016, ha intrapreso un lungo viaggio in camion dalla Siria all’Europa passando per la costa balcanica. Il presente elaborato è suddiviso in tre capitoli. Il primo capitolo è incentrato sulla presentazione del romanzo « Solo la luna ci ha visti passare » dal punto di vista contenutistico e stilistico. Inoltre, sarà inserita la trascrizione, tradotta in francese, di un’intervista radiofonica con l’autrice Francesca Ghirardelli. Nel secondo capitolo viene proposta la traduzione del capitolo II e di una parte del capitolo III del romanzo in questione, seguita da un commento volto a ragionare sulle difficoltà riscontrate e le tecniche impiegate durante il processo traduttivo. Infine, nell’ultimo capito sarà illustrata la storia dell’immigrazione in Italia e in Francia e verrà analizzata l’influenza di questo fenomeno sulle letterature di entrambi i paesi.

numerical problems in the calculation of electric field and charge density profiles for mass impregnated non-draining hvdc cables subjected to fast polarity reversals

The goal of this simulation thesis is to present a tool for studying and eliminating various numerical problems observed while analyzing the behavior of the MIND cable during fast voltage polarity reversal. The tool is built on the MATLAB environment, where several simulations were run to achieve oscillation-free results. This thesis will add to earlier research on HVDC cables subjected to polarity reversals. Initially, the code does numerical simulations to analyze the electric field and charge density behavior of a MIND cable for certain scenarios such as before, during, and after polarity reversal. However, the primary goal is to reduce numerical oscillations from the charge density profile. The generated code is notable for its usage of the Arithmetic Mean Approach and the Non-Uniform Field Approach for filtering and minimizing oscillations even under time and temperature variations.

A next-to-leading order calculation of the impact of primordial magnetic fields into cosmological observables

In this thesis, we perform a next-to-leading order calculation of the impact of primordial magnetic fields (PMF) into the evolution of scalar cosmological perturbations and the cosmic microwave background (CMB) anisotropy. Magnetic fields are everywhere in the Universe at all scales probed so far, but their origin is still under debate. The current standard picture is that they originate from the amplification of initial seed fields, which could have been generated as PMFs in the early Universe. The most robust way to test their presence and constrain their features is to study how they impact on key cosmological observables, in particular the CMB anisotropies. The standard way to model a PMF is to consider its contribution (quadratic in the magnetic field) at the same footing of first order perturbations, under the assumptions of ideal magneto-hydrodynamics and compensated initial conditions. In the perspectives of ever increasing precision of CMB anisotropies measurements and of possible uncounted non-linear effects, in this thesis we study effects which go beyond the standard assumptions. We study the impact of PMFs on cosmological perturbations and CMB anisotropies with adiabatic initial conditions, the effect of Alfvén waves on the speed of sound of perturbations and possible non-linear behavior of baryon overdensity for PMFs with a blue spectral index, by modifying and improving the publicly available Einstein-Boltzmann code SONG, which has been written in order to take into account all second-order contributions in cosmological perturbation theory. One of the objectives of this thesis is to set the basis to verify by an independent fully numerical analysis the possibility to affect recombination and the Hubble constant.

Spacecraft Collision Probability Calculation from Conjunction Data Message and High Precision Orbit Propagator

The increasing number of Resident Space Objects (RSOs) is a threat to spaceflight operations. Conjunction Data Messages (CDMs) are sent to satellite operators to warn for possible future collision and their probabilities. The research project described herein pushed forward an algorithm that is able to update the collision probability directly on-board starting from CDMs and the state vector of the hosting satellite which is constantly updated thanks to an onboard GNSS receiver. A large set of methods for computing the collision probability was analyzed in order to find the best ones for this application. The selected algorithm was then tested to assess and improve its performance. Finally, parts of the algorithm and external software were implemented on a Raspberry Pi 3B+ board to demonstrate the compatibility of this approach with computational resources similar to those typically available onboard modern spacecraft.

99% - Dall’1% dell'idea al 99% della fase Pre-Seed: ciò che serve sapere (e forse non tutti dicono) su questo percorso, visto dalla prospettiva di un Service Designer

Oggigiorno, quando una persona “ha un’idea” e vuole concretizzarla si rivolge agli incubatori: la diffusa metodologia Lean Startup è determinante nel far comprendere agli aspiranti founders la portata della propria “idea” abbattendo i rischi. Tuttavia, ci sono due problemi: accedere ai percorsi di incubazione non è scontato e, una volta concluso il percorso, si hanno diverse conoscenze per passare dalla validazione alla fase Seed, ma non sufficienti per un’efficace Execution. Partendo dalla personale esperienza del progetto Climby, si cercherà di dare un’overview sugli aspetti più importanti da considerare, evidenziando ciò che si potrebbe sottovalutare. Il fine è dunque supportare chi “ha un’idea” nell’intraprendere il percorso di incubazione in modo più consapevole e illustrare i limiti dei percorsi stessi, suggerendo approfondimenti di immediata applicazione ed utilità nelle diverse fasi citate, come integrazioni tratte dal Service Design. Pertanto, sarà posta particolare attenzione a ciò che è stato appreso in prima persona, considerando errori e aspetti positivi del percorso di un’“idea” nata nel 2019 e trasformatasi drasticamente durante l’incubazione, fino a ciò che accade dopo il Pitch Day. In tal modo, si intende anche esplicitare alcuni aspetti importanti, talvolta trascurati, ma rilevanti per le scelte da compiere prima ancora di iniziare un percorso. Il fine, quindi, è quello di produrre un contenuto complementare agli autorevoli scritti che trattano di Lean Startup, invece di proporne trattazione alternativa. Infine, conducendo queste riflessioni, si proporrà anche un confronto più specifico tra le metodologie e gli strumenti di Lean Startup e Service Design e - anticipando le conclusioni - suggerendo che sarebbe interessante approfondire l’integrazione di questi due ambiti, di cui emerge ancora una forte mancanza di reciproca conoscenza e che, invece, potrebbero rappresentare reciprocamente una risorsa se considerati senza visioni di parte.