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- Modelling European cities’ pathways to zero-emission urban mobility by 2030 through the development of potential transition scenarios This study modelled European cities’ pathways to zero-emission urban mobility by 2030 through the development of potential transition scenarios. Each scenario is built on different set of sustainable policy measures, whose impacts is quantified through a series of indicators as output results. The assessment is realized through MOMOS a quantitative tool which allows to simulate and quantify in a simplified way the impacts of potential mobility transition scenarios in cities. Four potential scenarios, each one with a different focus and a specific combination of policy measures, have been simulated and applied to five real European cities: Brussels, Madrid, Milan, Greater Manchester, and Warsaw. An in-depth data collection defined and reproduced the city characteristics at the base year, including socio-demographic aspects as well as mobility features. The main output of the study consisted in the calculation of the CO2 emissions reduction associated to each scenario. Besides that, a series of core indicators have also been calculated for the 2030 horizon. These included: modal split, public and private fleet electrification, car ownership, road safety, and air pollutants emissions. In addition, multi-criteria cost effectiveness analysis estimated costs and benefits associated to the four transition scenarios. Such analysis was based on four components: (implementation and maintenance) costs of the policy measures, environmental benefits, users’ transport costs and travel time, and revenues for the public administration and service providers. For more information: Clean cities website on the (E)Mission zero study, including technical reports and factsheet results. Briefing of the (E)Mission zero study Interactive tool to explore results of the (E)Mission zero study [tw_button icon=”” link=”http://www.trt.it/en/projects/” size=”small” rounded=”false” style=”flat” hover=”default” color=”#223468″ target=”_self”]Projects[/tw_button]
- Ivory Coast – Elaboration of the National Logistics Plan The aim of the project is the elaboration of the National Logistics Plan of the Ivory Coast with the identification of strategies for the development of logistics in the country, the drafting of an action plan and the training on the simulation model realised. The work is characterised by the performance of the following activities: collection of data and information through field interviews and desk research with reference to freight transport and logistics in Ivory Coast; processing of the data and information collected in order to provide an overview of the current state of logistics in the country, both in terms of supply and demand for freight transport; analysis of the institutional, organisational and regulatory framework of the freight transport sector in the Ivory Coast; study of the country’s freight transport and logistics development programmes for the future years; elaboration of the National Logistics Plan of the Ivory Coast. In support of the plan, TRT is also responsible for the construction of a simulation model of the demand and supply of freight transport in the country, capable of providing a forecast of demand, also in relation to the constant growth of the national GDP and the planned infrastructural interventions both on the transport network and on the main nodes (such as, for example, distribution centres and port terminals). [tw_button icon=”” link=”http://www.trt.it/en/projects/” size=”small” rounded=”false” style=”flat” hover=”default” color=”#223468″ target=”_self”]Projects[/tw_button]
- Scoping and Feasibility Study for a European Transport Market Study Client: RailNetEurope (RNE) RailNetEurope (in short, RNE), commissioned the consortium formed by TRT (lead) and HaCon a scoping and feasibility study for the development of a freight transport market study at the European level (European Transport Market Study, or ETMS). The need to investigate the technical characteristics, and the potential use cases of such a study stems from the scarce diffusion and lack of application of the Transport Market Studies made by individual European Rail Freight Corridors (RFCs) in the past. A European-level study would overcome the drawbacks identified with previous studies and would concretely support the necessity of optimising and coordinating efforts aimed at increasing the modal share of rail freight transport, in line with EU policy targets. The research process underlying the feasibility study was first grounded on a thorough analysis of existing RFCs’ Transport Market Studies, aimed at identifying the respective contents and structure, as well as the data sources and databases employed; further, the employment of EU-scale models was assessed with respect to the purposes of simulation and forecasting, and a wide stakeholder consultation strategy was activated, bringing i.a. infrastructure managers, railway undertakings, associations, port terminals, and members of the Rail Freight Corridors to the table. The project delivered a feasibility study with an accurate assessment of the actual possibility of making a Transport Market Study at the European scale, based on both the availability of necessary data and analytical tools, as well as the need to adequately and efficiently respond to the requests brought up by stakeholders. Specifically, several options for realising the study have been evaluated, accompanied by the definition of required analytical tools and methodologies. Based on the best solution, the main components of the actual study have been set, and guidelines for its realization have been redacted. For more information: RailNetEurope istitutional websire Dedicated page for Rail Freight Corridors
- Passenger demand for small aircrafts until 2050: design and application of a modelling tool to simulate future scenarios The background of the study is the European Clean Sky 2 programme, aiming at developing innovative technologies to reduce emissions and noise levels from aircrafts, while simultaneously developing and strengthening a globally competitive aeronautical industry in Europe. The scope of the programme does also include Small Air Transport (SAT), which is expected to contribute to the connectivity of remote regions in Europe and the rest of the world. The study provided an ATS level assessment and forecasts for Small Air Transport aircrafts, namely airplanes with passenger capacity between 9 and 19 seats and pressurized and unpressurized cabin compartment. A modelling tool has been developed to provide (i) the assessment with respect to passenger volume, fleet and flights for the base year 2019 and (ii) results for future years from 2025 to 2050 in five years steps. The main activities of the project have been related to: Review and analysis of available SAT concepts and potential business models; Design and development of the model for the estimation of demand for Small Air Transport aircrafts at European scale, supported by the related data collection and calibration process. The model is also accompanied by input and output interface, complemented with a user guide; Application of the model to forecasts future potential SAT demand for the reference scenario and two alternative scenarios by 2050; Analysis of European modelling results to evaluate the potential SAT demand for the rest of the world with a qualitative approach. TRT led the project and covered all the activities related to the model design, development and application. The subcontractor SEO Amsterdam Economics focused on the review of SAT concept and business models. For more information: Official site of Clean Aviation programme: description of Small Air Transport Transversal Activity.