La razionalizzazione del trasporto merci su strada

Il presente lavoro, senza alcuna pretesa di esaustività, ha inteso ricostruire il quadro normativo relativo alla disciplina dell’autotrasporto merci su strada. In primis, ci si è soffermata sugli aspetti generali del settore, approfondendo, in seguito, la normativa europea e nazionale. Tale excursus, ha permesso di riscontrare i molteplici interventi legislativi susseguitisi in ambito di regolamentazione dell’autotrasporto merci su strada, evidenziando i passaggi più significativi in tema di riordino della disciplina. Si è pertanto proceduto all’analisi del primo importante intervento legislativo del settore, intercorso ad opera della Legge n. 298/1974, disciplinante gli aspetti di natura pubblicistica del settore. Tale provvedimento, ha un apposito Albo Nazionale per gli autotrasportatori di merci per conto terzi, identificando i requisiti necessari per l’accesso al mercato e l’esercizio della professione di autotrasportatore di cose in conto terzi. Importati novità vengono introdotte con il D.lgs. 286/2005, provvedimento che ha portato al raggiungimento del processo di liberalizzazione del mercato. Successivamente si è proceduto a riscontrare l’intensa produzione normativa, posta a regolamentazione del settore, che nella ricerca di un equilibrio tra esigenze di mercato e corretto esercizio dell’attività di autotrasporto, si propone di addivenire al raggiungimento degli obiettivi comunitari di armonizzazione della disciplina e qualificazione del settore dell’autotrasporto. Significativi, in tal senso, i recenti interventi di riforma posti in essere con il “Pacchetto comunitario del 21 ottobre 2009” ( Regolamento (CE) 1071/2009 e Regolamento (CE) 1072/2009. Da ultimo, al fine di verificare le eventuali debolezze del sistema normativo vigente, in relazione al raggiungimento degli obiettivi comunitari suesposti, si è ritenuto di indirizzare la ricerca verso un’attenta valutazione dell’efficienza dei modelli di trasporto merci su strada, verificandone l’impatto in termini di maggior incidenza sui costi esterni derivanti dal trasporto. A tal proposito, particolare attenzione è stata rivolta anche alla disciplina del trasporto in conto proprio.

Strategies and procedures for the development of intermodal freight transport in Europe: the role of motorways of the sea services and railway terminals

Since the birth of the European Union on 1957, the development of a single market through the integration of national freight transport networks has been one of the most important points in the European Union agenda. Increasingly congested motorways, rising oil prices and concerns about environment and climate change require the optimization of transport systems and transport processes. The best solution should be the intermodal transport, in which the most efficient transport options are used for the different legs of transport. This thesis examines the problem of defining innovative strategies and procedures for the sustainable development of intermodal freight transport in Europe. In particular, the role of maritime transport and railway transport in the intermodal chain are examined in depth, as these modes are recognized to be environmentally friendly and energy efficient. Maritime transport is the only mode that has kept pace with the fast growth in road transport, but it is necessary to promote the full exploitation of it by involving short sea shipping as an integrated service in the intermodal door-to-door supply chain and by improving port accessibility. The role of Motorways of the Sea services as part of the Trans-European Transport Network is is taken into account: a picture of the European policy and a state of the art of the Italian Motorways of the Sea system are reported. Afterwards, the focus shifts from line to node problems: the role of intermodal railway terminals in the transport chain is discussed. In particular, the last mile process is taken into account, as it is crucial in order to exploit the full capacity of an intermodal terminal. The difference between the present last mile planning models of Bologna Interporto and Verona Quadrante Europa is described and discussed. Finally, a new approach to railway intermodal terminal planning and management is introduced, by describing the case of "Terminal Gate" at Verona Quadrante Europa. Some proposals to favour the integrate management of "Terminal Gate" and the allocation of its capacity are drawn up.

Advanced lithium battery chemistries for sustainable transportation

The specific energy of lithium-ion batteries (LIBs) is today 200 Wh/kg, a value not sufficient to power fully electric vehicles with a driving range of 400 km which requires a battery pack of 90 kWh. To deliver such energy the battery weight should be higher than 400 kg and the corresponding increase of vehicle mass would narrow the driving range to 280 km. Two main strategies are pursued to improve the energy of the rechargeable lithium batteries up to the transportation targets. The first is the increase of LIBs working voltage by using high-voltage cathode materials. The second is the increase of battery capacity by the development of a cell chemistry where oxygen redox reaction (ORR) occurs at the cathode and metal lithium is the anode (Li/O2 battery). This PhD work is focused on the development of high-voltage safe cathodes for LIBs, and on the investigation of the feasibility of Li/O2 battery operating with ionic liquid(IL)-based electrolytes. The use of LiMn1-xFexPO4 as high-voltage cathode material is discussed. Synthesis and electrochemical tests of three different phosphates, more safe cathode materials than transition metal oxides, are reported. The feasibility of Li/O2 battery operating in IL-based electrolytes is also discussed. Three aspects have been investigated: basic aspects of ORR, synthesis and characterization of porous carbons as positive electrode materials and study of limiting factors to the electrode capacity and cycle-life. Regarding LIBs, the findings on LiMnPO4 prepared by soluble precursors demonstrate that a good performing Mn-based olivine is viable without the coexistence of iron. Regarding Li/O2 battery, the oxygen diffusion coefficient and concentration values in different ILs were obtained. This work highlighted that the O2 mass transport limits the Li/O2 capacity at high currents; it gave indications on how to increase battery capacity by using a flow-cell and a porous carbon as cathode.