Experimental Study on Friction between Saline Ice and Steel

Understanding the interaction of sea ice with offshore structures is of primary importance for the development of technology in cold climate regions. The rheological properties of sea ice (strength, creep, viscosity) as well as the roughness of the contact surface are the main factors influencing the type of interaction with a structure. A device was developed and designed and small scale laboratory experiments were carried out to study sea ice frictional interaction with steel material by means of a uniaxial compression rig. Sea-ice was artificially grown between a stainless steel piston (of circular cross section) and a hollow cylinder of the same material, coaxial to the former and of the same surface roughness. Three different values for the roughness were tested: 1.2, 10 and 30 μm Ry (maximum asperities height), chosen as representative values for typical surface conditions, from smooth to normally corroded steel. Creep tests (0.2, 0.3, 0.4 and 0.6 kN) were conducted at T = -10 ºC. By pushing the piston head towards the cylinder base, three different types of relative movement were observed: 1) the piston slid through the ice, 2) the piston slid through the ice and the ice slid on the surface of the outer cylinder, 3) the ice slid only on the cylinder surface. A cyclic stick-slip motion of the piston was detected with a representative frequency of 0.1 Hz. The ratio of the mean rate of axial displacement to the frequency of the stick-slip oscillations was found to be comparable to the roughness length (Sm). The roughness is the most influential parameter affecting the amplitude of the oscillations, while the load has a relevant influence on the their frequency. Guidelines for further investigations were recommended. Marco Nanetti - seloselo@virgilio.it

The contribution of the Finite Volume Point Dilution Method to the determination of solute mass flux in an alluvial aquifer.

Groundwater represents one of the most important resources of the world and it is essential to prevent its pollution and to consider remediation intervention in case of contamination. According to the scientific community the characterization and the management of the contaminated sites have to be performed in terms of contaminant fluxes and considering their spatial and temporal evolution. One of the most suitable approach to determine the spatial distribution of pollutant and to quantify contaminant fluxes in groundwater is using control panels. The determination of contaminant mass flux, requires measurement of contaminant concentration in the moving phase (water) and velocity/flux of the groundwater. In this Master Thesis a new solute flux mass measurement approach, based on an integrated control panel type methodology combined with the Finite Volume Point Dilution Method (FVPDM), for the monitoring of transient groundwater fluxes, is proposed. Moreover a new adsorption passive sampler, which allow to capture the variation of solute concentration with time, is designed. The present work contributes to the development of this approach on three key points. First, the ability of the FVPDM to monitor transient groundwater fluxes was verified during a step drawdown test at the experimental site of Hermalle Sous Argentau (Belgium). The results showed that this method can be used, with optimal results, to follow transient groundwater fluxes. Moreover, it resulted that performing FVPDM, in several piezometers, during a pumping test allows to determine the different flow rates and flow regimes that can occurs in the various parts of an aquifer. The second field test aiming to determine the representativity of a control panel for measuring mass flus in groundwater underlined that wrong evaluations of Darcy fluxes and discharge surfaces can determine an incorrect estimation of mass fluxes and that this technique has to be used with precaution. Thus, a detailed geological and hydrogeological characterization must be conducted, before applying this technique. Finally, the third outcome of this work concerned laboratory experiments. The test conducted on several type of adsorption material (Oasis HLB cartridge, TDS-ORGANOSORB 10 and TDS-ORGANOSORB 10-AA), in order to determine the optimum medium to dimension the passive sampler, highlighted the necessity to find a material with a reversible adsorption tendency to completely satisfy the request of the new passive sampling technique.

Caratterizzazione idrogeologica dell'acquifero presente all'interno di cordoni litoranei antropizzati: casi studio di Marina Romea e Porto Corsini

Secondo l'Agenzia Europea dell'Ambiente una delle principali minacce per le risorse di acqua dolce della zone costiere italiane è l’intrusione salina. L’obiettivo di questa tesi magistrale è la caratterizzazione idrogeologica di una frazione dell’acquifero freatico costiero situato in due differenti corpi dunosi. L’indagine proseguita per cinque mesi ha evidenziano differenze tra un’area sottoposta a forte pressione antropica (Marina Romea) e un’area che mostra un relativo sviluppo naturale del sistema spiaggia-duna (Porto Corsini). La tecnica di campionamento utilizzata è il sistema a minifiltri (multi level samplers), metodologia innovativa che garantisce tempistiche di monitoraggio rapide e una campionatura multi-livello puntuale e precisa. La campagna di monitoraggio ha coinvolto misure di freatimetria, conduttività elettrica e analisi chimiche delle acque che hanno portato ad una loro classificazione geo-chimica. Dai risultati si evidenzia che l’acquifero è molto salinizzato, gli strati d’acqua dolce sono isolati in lenti superficiali e i tipi di acque presenti sono dominati da ioni sodio e cloro. Tra i due siti il più vulnerabile risulta essere Marina Romea per molti fattori: l’erosione costiera che assottiglia la fascia dunale adibita alla ricarica di acqua dolce, un’estensione spaziale della duna minore rispetto a Porto Corsini, la presenza di infrastrutture turistiche che hanno frazionato la duna, la vicinanza al canale di drenaggio che causa la risalita delle acque profonde saline, la presenza di specie arboree idro-esigenti che attingono e quindi assottigliano le lenti d’acqua dolce. Si propone di migliorare la qualità dell’acqua sotterranea con una migliore gestione del canale di drenaggio, sostituendo alcuni esemplari di pinacee con specie arbustive tipiche degli ambienti dunosi ed infine imponendo misure per il risparmio idrico durante la stagione turistica.