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

Approccio SEM-AVS (Simultaneously Extracted Metals-Acid Volatile Sulfides) per la valutazione del rischio ambientale dei metalli nei sedimenti della Pialassa Baiona

La Pialassa Baiona è una laguna sottoposta a diversi vincoli normativi, visto il suo inquadramento tra le aree SIC e ZPS, e soggetta a diverse sorgenti di disturbo antropico, più intense negli anni ‘50-‘70. Questa tesi si propone lo scopo di valutare il rischio associato ai metalli bivalenti presenti nei sedimenti della Pialassa Baiona attraverso tre approcci: il primo riguarda la determinazione della frazione biodisponibile dei metalli presenti nei sedimenti attraverso la determinazione dei solfuri acidi volatili (AVS) e dei metalli simultaneamente estraibili (SEM), nonché la valutazione della potenziale tossicità dei sedimenti attraverso la valutazione del rapporto molare SEM/AVS, il secondo approccio considera invece il contenuto pseudo totale dei metalli bivalenti (Cd, Cu, Ni, Pb e Zn) e il loro confronto sia con i valori tipici di fondo naturale del Mar Adriatico che con i valori guida di riferimento internazionale (Threshold Effect Level, TEL e Probable Effect Level, PEL) al fine di valutare lo stato di qualità dei sedimenti della zona d’indagine. Il terzo approccio considera l’influenza del gradiente naturale terra-mare tipico delle zone di transizione e del gradiente antropico legato alla vicinanza dell’area industriale alla Pialassa Baiona, sulla distribuzione spaziale dei metalli oggetto di questo studio. I risultati ottenuti evidenziano che l’area più prossima alla zona industriale e al contempo più lontana dall’effetto del ricambio delle acque e di dilavamento ad opera del mare, è risultata quella con livelli significativamente più elevati per la maggior parte dei metalli analizzati. Questo permette di ipotizzare un’influenza diretta delle sorgenti di inquinanti, ma anche un effetto dispersivo della circolazione. Gli AVS hanno invece evidenziato un gradiente terra-mare; ciò comporta che nelle zone più prossime all’influenza del mare si sono riscontrate concentrazioni minori di AVS. La valutazione della potenziale tossicità dei metalli in termini di rapporto SEM/AVS non ha evidenziato la presenza di siti a rischio per il biota acquatico, se non per un unico sito prossimo all’area industriale.

Influence of particle size, density and concentration on bend erosive wear in pneumatic conveyors

Particle concentration is a principal factor that affects erosion rate of solid surfaces under particle impact, such as pipe bends in pneumatic conveyors; it is well known that a reduction in the specific erosion rate occurs under high particle concentrations, a phenomenon referred to as the “shielding effect”. The cause of shielding is believed to be increased likelihood of inter-particulate collisions, the high collision probability between incoming and rebounding particles reducing the frequency and the severity of particle impacts on the target surface. In this study, the effects of particle concentration on erosion of a mild steel bend surface have been investigated in detail using three different particulate materials on an industrial scale pneumatic conveying test rig. The materials were studied so that two had the same particle density but very different particle size, whereas two had very similar particle size but very different particle density. Experimental results confirm the shielding effect due to high particle concentration and show that the particle density has a far more significant influence than the particle size, on the magnitude of the shielding effect. A new method of correcting for change in erosivity of the particles in repeated handling, to take this factor out of the data, has been established, and appears to be successful. Moreover, a novel empirical model of the shielding effects has been used, in term of erosion resistance which appears to decrease linearly when the particle concentration decreases. With the model it is possible to find the specific erosion rate when the particle concentration tends to zero, and conversely predict how the specific erosion rate changes at finite values of particle concentration; this is critical to enable component life to be predicted from erosion tester results, as the variation of the shielding effect with concentration is different in these two scenarios. In addition a previously unreported phenomenon has been recorded, of a particulate material whose erosivity has steadily increased during repeated impacts.

Distribution of metals in several vineyards of North Italy: from soil to wine

Nowadays we live in densely populated regions and this leads to many environmental issues. Among all pollutants that human activities originate, metals are relevant because they can be potentially toxic for most of living beings. We studied the fate of Cd, Cr, Cu, Fe, Mn, Ni, Pb and Zn in a vineyard environment analysing samples of plant, wine and soil. Sites were chosen considering the type of wine produced, the type of cultivation (both organic and conventional agriculture) and the geographic location. We took vineyards that cultivate the same grape variety, the Trebbiano). We investigated 5 vineyards located in the Ravenna district (Italy): two on the Lamone Valley slopes, one in the area of river-bank deposits near Ravenna city, then a farm near Lugo and one near Bagnacavallo in interfluve regions. We carried out a very detailed characterization of soils in the sites, including the analysis of: pH, electric conductivity, texture, total carbonate and extimated content of dolomite, active carbonate, iron from ammonium oxalate, Iron Deficiency Chlorosis Index (IDCI), total nitrogen and organic carbon, available phosphorous, available potassium and Cation Exchange Capacity (CEC). Then we made the analysis of the bulk chemical composition and a DTPA extraction to determine the available fraction of elements in soils. All the sites have proper ground to cultivate, with already a good amount of nutrients, such as not needing strong fertilisations, but a vineyard on hills suffers from iron deficiency chlorosis due to the high level of active carbonate. We found some soils with much silica and little calcium oxide that confirm the marly sandstone substratum, while other soils have more calcium oxide and more aluminium oxide that confirm the argillaceous marlstone substratum. We found some critical situations, such as high concentrations of Chromium, especially in the farm near Lugo, and we noticed differences between organic vineyards and conventional ones: the conventional ones have a higher enrichment in soils of some metals (Copper and Zinc). Each metal accumulates differently in every single part of grapevines. We found differences between hill plants and lowland ones: behaviors of plants in metal accumulations seems to have patterns. Metals are more abundant in barks, then in leaves or sometimes in roots. Plants seem trying to remove excesses of metal storing them in bark. Two wines have excess of acetic acid and one conventional farm produces wine with content of Zinc over the Italian law limit. We already found evidence of high values relating them with uncontaminated environments, but more investigations are suggested to link those values to their anthropogenic supplies.