4 resultados para Gloucester Harbor
em AMS Tesi di Dottorato - Alm@DL - Università di Bologna
Resumo:
L’oggetto di ricerca della presente tesi di dottorato è costituito dall’analisi dell’opera Gesta Regum Anglorum, del monaco benedettino Guglielmo di Malmesbury, all’interno della quale sono stati esplorati e verificati i temi di legittimazione, di patronage e di propaganda. L’opera, infatti, rimane senza un manifesto committente, ad eccezione di una primissima versione. Il titolo della tesi rivela fin da subito questo aspetto, giacché estrae un passaggio del prologo al I libro: «propter adhorantium auctoritatem voluntate», traducibile con «per le autorevoli esortazioni che ricevetti». Dopo un’analisi delle lettere dedicatorie premesse all’opera, si è ipotizzata la volontà dell’autore di dedicare le Gesta Regum Anglorum, nella loro versione definitiva, a Roberto conte di Gloucester, approfondendo in tal senso l’aspetto legittimatorio dell’opera e la possibilità che essa potesse servire come strumento per ottenere un patronage dal conte nei confronti dell’abbazia di Malmesbury. La seconda parte della tesi è incentrata sulla comparazione tra le due principali redazioni dell’opera – quella conclusa intorno al 1126/27 e quella rivista tra 1135 e 1140 – per analizzarne le modifiche, ipotizzandone la funzione come volta mitigare aspetti relativi ai principali antenati di Roberto di Gloucester (Guglielmo I e Guglielmo II). La terza parte della tesi si è concentrata sull’aspetto propagandistico dell’opera in favore del monastero di appartenenza di Guglielmo (Malmesbury) e soprattutto in favore del clero regolare, nella dicotomia che caratterizzò questo e il clero secolare durante gli anni in cui l’autore viveva. Nell’ultima parte della tesi, è stato ripreso l’aspetto legittimatorio delle Gesta Regum, tentando di fornire un’analisi delle tre raffigurazioni dei sovrani normanni d’Inghilterra, che punteggiano i tre libri finali dell’opera.
Resumo:
Sheet pile walls are one of the oldest earth retention systems utilized in civil engineering projects. They are used for various purposes; such as excavation support system, cofferdams, cut-off walls under dams, slope stabilization, waterfront structures, and flood walls. Sheet pile walls are one of the most common types of quay walls used in port construction. The worldwide increases in utilization of large ships for transportation have created an urgent need of deepening the seabed within port areas and consequently the rehabilitation of its wharfs. Several methods can be used to increase the load-carrying capacity of sheet-piling walls. The use of additional anchored tie rods grouted into the backfill soil and arranged along the exposed wall height is one of the most practical and appropriate solutions adopted for stabilization and rehabilitation of the existing quay wall. The Ravenna Port Authority initiated a project to deepen the harbor bottom at selected wharves. An extensive parametric study through the finite element program, PLAXIS 2D, version 2012 was carried out to investigate the enhancement of using submerged grouted anchors technique on the load response of sheet-piling quay wall. The influence of grout-ties area, length of grouted body, anchor inclination and anchor location were considered and evaluated due to the effect of different system parameters. Also a comparative study was conducted by Plaxis 2D and 3D program to investigate the behavior of these sheet pile quay walls in terms of horizontal displacements induced along the sheet pile wall and ground surface settlements as well as the anchor force and calculated factor of safety. Finally, a comprehensive study was carried out by using different constitutive models to simulate the mechanical behavior of the soil to investigate the effect of these two models (Mohr-Coulomb and Hardening Soil) on the behavior of these sheet pile quay walls.
Resumo:
Many bivalve species possess two distinct mtDNA lineages, called F and M, respectively inherited maternally and paternally: this system is called doubly uniparental inheritance (DUI). The main experimental project of my PhD was the quantification of the two mtDNAs during the development of the DUI species Ruditapes philippinarum, from early embryos to sub-adults, using Real-Time qPCR. I identified the time interval in which M mtDNA is lost from female individuals, while it is retained in males (which are heteroplasmic through all of their life cycle). The results also suggested absence of mtDNA replication during early embryogenesis, a process constituting a bottleneck that highly reduces the copy number of mtDNA molecules in cells of developing larvae. In males this bottleneck may produce cells homoplasmic for M mtDNA, and could be considered as a first step of the segregation of M in the male germ line. Another finding was the characterization, in young clams approaching the first reproductive season, of a significant boost in copy number of F mtDNA in females and of M in males. Given the age of animals in which this mtDNA-specific growth was observed, the finding could probably be the outcome of the first round of gonads and gametes production. Other lines of research included the characterization of the unassigned regions in mt genomes of DUI bivalves. These regions can harbor signals involved in the control of replication and/or transcription of the mtDNA molecule, as well as additional open reading frames (ORFs) not related to oxidative phosphorylation. These features in DUI species could be associated to the maintenance of separate inheritance routes for the two mtDNAs. Additional ORFs are also found in other animal mt genomes: I summarized the presence of gene duplications as a co-author in a review focusing on animal mt genomes with unusual gene content.
Resumo:
This thesis presents a new Artificial Neural Network (ANN) able to predict at once the main parameters representative of the wave-structure interaction processes, i.e. the wave overtopping discharge, the wave transmission coefficient and the wave reflection coefficient. The new ANN has been specifically developed in order to provide managers and scientists with a tool that can be efficiently used for design purposes. The development of this ANN started with the preparation of a new extended and homogeneous database that collects all the available tests reporting at least one of the three parameters, for a total amount of 16’165 data. The variety of structure types and wave attack conditions in the database includes smooth, rock and armour unit slopes, berm breakwaters, vertical walls, low crested structures, oblique wave attacks. Some of the existing ANNs were compared and improved, leading to the selection of a final ANN, whose architecture was optimized through an in-depth sensitivity analysis to the training parameters of the ANN. Each of the selected 15 input parameters represents a physical aspect of the wave-structure interaction process, describing the wave attack (wave steepness and obliquity, breaking and shoaling factors), the structure geometry (submergence, straight or non-straight slope, with or without berm or toe, presence or not of a crown wall), or the structure type (smooth or covered by an armour layer, with permeable or impermeable core). The advanced ANN here proposed provides accurate predictions for all the three parameters, and demonstrates to overcome the limits imposed by the traditional formulae and approach adopted so far by some of the existing ANNs. The possibility to adopt just one model to obtain a handy and accurate evaluation of the overall performance of a coastal or harbor structure represents the most important and exportable result of the work.