6,833 research outputs found

    Hydrogen leakages in a congested aircraft environment: a CFD simulation method

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    The option of using hydrogen as a fuel for propulsion of aircraft has been investigated in the recent past especially in combination with long endurance unmanned mission targets (Helinet, Helios). This application has proved to be challenging mostly due to the low volumetric density of hydrogen, which needs to be compressed at very high pressures to be confined in the narrow volumes allowed by aircrafts structures. Aerial, as well as automotive, applications of hydrogen pose also the issue of weight for the total storage solution adopted: high pressures may mean thick layers for vessels and consequently high weights for unit of mass of hydrogen stored. Composite materials have helped in reducing the weight but remain tough to be adopted for vessels large enough to store the hydrogen mass necessary for long trips. Liquid hydrogen has only been adopted so far for aerospace applications and just for boosting rather than for endurance. Instead, hydrogen can be efficiently used for fuelling auxiliary systems on board and for ground services, helping to reduce the environmental impact, also regarding the idling phase. Fuel cells that are supplied with hydrogen can provide the electricity needed by all the auxiliary equipment, from air conditioning systems, to controls and avionics, to lighting and security services. Although smaller quantities of hydrogen are needed on board to supply only the auxiliaries rather than for propulsion, still there is a need for pressurising the gas and so to have a pressurised feed line that runs into the congested environment of an aircraft where ventilation is anyway usually present. In view of the experience gained in the oil and gas offshore sector, where flammable and pressurised gases may be released due to failures in the feed lines, we propose an innovative approach to investigate the possible hazards deriving from the use of pressurised hydrogen in aeronautics. Hydrogen releases may happen due to failures all along the lines but, statistically, ruptures are more frequent in lower pressures sections that are potentially less protected. A hydrogen supply line can cover pressures that range from 350 bars of the storage vessel to the nearly ambient pressure when it supplies the fuel cells. This induces to take greater care of possible mid-pressure (10-15 bars) releases and of their consequences. Ruptures are seldom catastrophic, while more often they are represented by small diameter cracks. The release through these ruptures is supersonic and it soon slows down also due to the scattering with obstacles in the aircraft environment. Modelling of the entire phenomenon is a challenging task for Computational-Fluid-Dynamic analysts as some variables such as pressure, and therefore velocity, have too strong variations throughout the domain. Yet, CFD remains the best tool to predict the dispersion and possibly the dangerous (i.e. above the - very low- flammability limit of hydrogen) accumulation of gas. Our proposal is to split the phenomenon in two phases and to study them separately with a coupling based on the parameters that are more relevant to describe the evolution: velocity and concentration. First, the supersonic release of hydrogen from the rupture, and the consequent compressible effects, are modelled in a domain that is large enough to contain the deceleration of the gas up to dispersion-like rates: this domain is, however, smaller than the full domain where we wish to study the entire phenomenon. Second, data related to speed and concentration calculated on the surface of this domain are given as boundary conditions for the simulation of the dispersion phase. Preliminary applications of this method to hydrogen releases from 10 mm hole ruptures at a pressure of 10 bar have provided interesting results especially with the supersonic release phase, that is the most challenging for the CFD simulation due to the intrinsic characteristics of hydrogen as a very light gas. In particular, addressing the supersonic release phase may allow estimating the effect of impact of the jet release onto the first obstacle (in the form of thermal stresses). The final coupling of the two phases can provide a dispersion pattern within a congested environment that can be validated in field tests, in the same way as it is being done with this method applied to natural gas releases in offshore platforms

    CFD modelling of an accidental pressurised gas release

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    Risk assessment usually requires to simulate hundreds of different accidental scenarios in order to identify the most potentially critical events. The objective of this work is to improve and optimize the use of a Two Steps CFD model in order to minimise the number of simulations needed this is achieved thanks to a sensitivity analysis on the main parameters characterising a release event in a typical congested industrial environment

    A novel approach to high-pressure gas releases simulations

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    Risk-relevant plants like Oil & Gas (O&G) or nuclear ones are subjected to strict safety regulations. Risk Assessment is mandatory for these plants, and the damage quantification is a crucial step which has to be carefully addressed. Nowadays the state of practice for consequences estimation entails the use of semi-empirical methods which permit a fast evaluation of the large number of accidental scenarios needed for a Quantitative Risk Assessment (QRA). However, in case of large and congested industrial environments like offshore platforms or equipment inside nuclear primary containment buildings, the aforementioned methods usually lead to an overestimation of the damage areas, for example because they neglect the space congestion which highly affects the accident evolution. A more accurate analysis can be performed using the Computational Fluid Dynamics (CFD), nonetheless its high computational cost represents an important drawback. In this work a CFD approach, called Source Box Accident Model (SBAM), is presented. It models high-pressure gas releases (> 10 bar) in congested environments guaranteeing a good computational cost-accuracy compromise. The aim of SBAM is to permit a fast consequences estimation (evaluation of flammable/toxic areas, etc.) via CFD, in order to have a simulations time compatible with the plants design schedule. The long-term objective is to integrate the CFD contribution in a safety driven design process. SBAM is based on the splitting of the multi-physics and multiscale phenomena characterizing the accident: the initial supersonic compressible release and the successive low speed dispersion. The first one is simulated in a small domain called Source Box (SB) and the second one in the case study domain. The two simulations are coupled in a suitable way, through proper parameters which are extensively discussed. This work presents a detailed description of SBAM and two different analyses: a sensitivity study on the coupling parameters and a numerical benchmark which uses a standard CFD simulation as reference. The sensitivity analysis shows that the coupling is a crucial step of the method and the coupling parameters must be treated in the most accurate way. The numerical benchmark shows that SBAM is not introducing significant errors with respect to a standard CFD simulation and in addition, permits a relevant simplification in the simulation setup and computational cost reduction

    [Poesia] Três poemas de Alberto Secama

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    Three poems by Alberto Secama. About the author: Alberto Secama is an Angolan poet who has poems published on many websites and on facebook:https://www.facebook.com/Xungurra/abouthttp://www.pordentrodaafrica.com/cultura/africa-em-verso-rio-kwanza-por-alberto-secamahttp://www.pordentrodaafrica.com/cultura/africa-em-verso-zong-por-alberto-secamahttp://www.pordentrodaafrica.com/cultura/coluna-africa-em-verso-o-sol-la-fora-por-alberto-secamaTres poemas de Alberto Secama. Sobre el autor: Alberto Secama es un poeta angoleño que tiene poemas publicados en varios sitios y en el facebook:https://www.facebook.com/Xungurra/abouthttp://www.pordentrodaafrica.com/cultura/africa-em-verso-rio-kwanza-por-alberto-secamahttp://www.pordentrodaafrica.com/cultura/africa-em-verso-zong-por-alberto-secamahttp://www.pordentrodaafrica.com/cultura/coluna-africa-em-verso-o-sol-la-fora-por-alberto-secamaTrês poemas de Alberto Secama. Sobre o autor: Alberto Secama é um poeta angolano que possui poemas publicados em vários sites e no facebook:https://www.facebook.com/Xungurra/abouthttp://www.pordentrodaafrica.com/cultura/africa-em-verso-rio-kwanza-por-alberto-secamahttp://www.pordentrodaafrica.com/cultura/africa-em-verso-zong-por-alberto-secamahttp://www.pordentrodaafrica.com/cultura/coluna-africa-em-verso-o-sol-la-fora-por-alberto-secam

    Orizzonti mantovani. Spunti e dinamiche paesaggistiche ne L'Illustrissimo di Alberto Cantoni

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    In the literary production of Alberto Cantoni, short story writer and novelist between the nineteenth and twentieth centuries, the novel L'Illustrissimo is highly important both because it is the last publication of the author, from Pomponesco, a small town a few kilometers south of Mantua, both because it summarizes in a single text the different nuances and different directions that his writing has taken over the course of his literary career, also due to a writing and processing time that embraces the entire span of years of his career itself. In the foreground, in addition to the numerous and brilliant characters, one of the protagonists is the Mantuan landscape which, not a simple background, becomes a true literary parameter which in different and significant ways affects the purposes and mechanisms of the novel

    Plenary Session: Luis Alberto Urrea

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    a) Plenary Session: Luis Alberto Urrea, Mexican American Chicago Writer Luis Alberto Urrea is a 2005 Pulitzer Prize finalist for non-fiction and member of the Latino Literature Hall of Fame. He is a prolific and acclaimed writer who has used his dual-culture life border experiences to explore the complex and interconnected Mexican-US American reality. The critically acclaimed and best-selling Mexican-born author of 13 books, Urrea has won numerous awards for his poetry, fiction and essays. Moderator: Dr. Héctor García, Loyola University Chicag

    Chemical composition and yield of rhizome biomass of Arundo donax L. grown for biorefinery in the Mediterranean environment

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    The contribution of the rhizome to productivity of fermentable sugars and the detailed composition of rhizomes were analyzed in three mature stands of Arundo donax L. cultivated in three locations of variable fertility in the South of Italy. Although the average yearly aboveground dry biomass and rhizome amount showed large and significant differences among sites, (15.3 and 2.6 Mg ha−1 year−1 of rhizomes in the most and less productive sites respectively), rhizomes of all sites had more than 30% of the dry matter (DM) as non-structural carbohydrates (NSC). Sucrose and starch were the most abundant NSC but measurable amounts of glucose, fructose, galactose and of the valuable trisaccharide raffinose were also present. The amount of NSC in rhizomes affected their content of dry mater, and water extractives. The ash content also varied significantly among cultivation sites; the highest amount was recorded in rhizomes of the most productive site (Acerra). The abundance in cell wall components of rhizomes was similar to that of published values for the above ground biomass. The present results demonstrate that NSC content in rhizomes of mature stands is a conserved trait. Hence, rhizome biomass, thanks to its quantity and high fermentable sugars content, should be considered as a relevant fraction of the A. donax crop product whose utilization can increase the productivity and the environmental fingerprint of this crop, in view of its biomass utilization in biorefinery

    O duplo significado do sentir e do pensar nas obras de Alberto Caeiro e Descartes

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    Dissertação (mestrado) - Universidade Federal de Santa Catarina, Centro de Comunicação e Expressão. Programa de Pós-Graduação em LiteraturaA pretensão desta dissertação intitulada O duplo significado do sentir e do pensar nas obras de Alberto Caeiro e Descartes é investigar a relação entre o sentir e o puro pensar, usando como referência a poesia O Guardador de Rebanhos, de Alberto Caeiro, que apresenta de forma evidente o tema; e como este assunto é tratado nas Meditações Metafísicas de René Descartes, também de forma claramente visível. Podemos perceber em ambos os autores, uma diplopia, uma espécie de duplo olhar sobre a relação sentir e puro pensar. No primeiro capítulo vou falar sobre a tese do duplo olhar de Descartes, a respeito da relação sentir e puro pensar na leitura de Merleau-Ponty, salientando a visão de natureza. No segundo capítulo, parto da leitura das três primeiras Meditações Metafísicas para caracterizar a tensão que se pode verificar entre Descartes e Alberto Caeiro quando se referem ao puro pensar. O foco principal de Descartes, nas três primeiras Meditações, é o pensar puro, e neste ponto Alberto Caeiro critica o pensar puro. No terceiro capítulo, analisando as três últimas Meditações, percebe-se que há uma virada no pensamento de Descartes, no qual o autor inverte seu ponto de vista, aproximando-se da idéia de Alberto Caeiro. No quarto capítulo, mostrarei a leitura que outros autores fazem acerca do sentir e do pensar na obra de Alberto Caeiro, mostrando que assim como Descartes, este também ostenta uma diplopia, não do sentir, mas do pensar. The pretension of this work entitled O duplo significado do sentir e do pensar nas obras de Alberto Caeiro e Descartes is to investigate the relationship between the feeling and the pure thinking, using as reference the poetry O Guardador de Rebanhos, by Alberto Caeiro, that presents in an evident way this theme; and as this subject is treated in René Descartes' Metaphysical Meditations, also in a clearly visible way. It is possible to notice in both authors, the diplopy, a sort of double look about the relationship between feeling and pure thinking. The thesis about Descartes'double look regarding the relation of feeling and pure thinking, in Merleau-Ponty reading, pointing out the nature vision, will be treated in the first chapter. In the second chapter, I start from the reading of the first three Metaphysical Meditations to characterize the tension that can be verified between Descartes and Alberto Caeiro when they refer to the pure thinking. Descartes' main focus in the first three Meditations is pure thinking and, in this point, Alberto Caeiro criticizes pure thinking. In the third chapter, analyzing the last three Meditations, it is possible to notice that there is an alteration in Descartes' thought, in which the author inverts his point of view, approaching of Alberto Caeiro's idea. In the fourth chapter, I will show the reading that other authors do concerning feeling and thinking in Alberto Caeiro's work, showing that as well as Descartes, this also shows a diplopy, not of feeling, but of thinking

    CFD Modelling of Pressurized Gas Releases: Sensitivity Analysis of Driving Parameters

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    The consequences analysis is a crucial aspect of the Risk Assessment, especially for Oil & Gas structures, where hundreds of accidental scenarios must be simulated. This work investigates the accidental release of high-pressure flammable gas in a congested offshore environment considering multi-physics and multi-scale nature of the phenomenon. Initially, the flow results supersonic with compressible effects and then it evolves in a subsonic dispersion. To handle this change of physics, a Computational Fluid Dynamics (CFD) two steps approach is developed at the SEADOG laboratory in Politecnico di Torino. This approach imposes two simulations: the first one considers the compressible phenomena in a small domain called Source Box (SB), the second one considers the gas dispersion in the platform. The advantage is to use the results of the first simulation as an input for several dispersion simulations. The aim is to compile a library of plausible SB and to evaluate the consequences of an accidental scenario selecting the proper SB for the dispersion simulation, allowing a timesaving. This work is focused on the optimization of the number of SB to construct a SB library. The objective of this work is to achieve a sensitivity analysis on the input parameters (release pressure, hole diameter, distance and dimension of an obstacle inside the SB) in order to optimize the number of SB to be simulated reducing the computational effort
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