论文信息 - Optimization Methodology of Infrastructure and Onboard Energy Storage System for Cost-Reduction in Tramway Lines Design

Optimization Methodology of Infrastructure and Onboard Energy Storage System for Cost-Reduction in Tramway Lines Design

Nowadays, friendly urban-adapted railway vehicles are required, in this matter, manufacturers are committed to develop more efficient and cost-competitive mobility solutions. The search of the most competitive solution takes on high important when the Onboard Energy Storage Systems (OESSs) become part of the project equation due to the additional cost they represent over a conventional tramway, but also the economic saving they allow from the electrification point of view. This paper proposes an optimization methodology for tramway lines design to find the optimal combination of infrastructure required for electrification (sections with/without catenary, opportunity charging points location, substations and civil work related with them) and OESS sizing aiming to minimize the total operation cost of the project. The methodology includes technical, economic and lifespan estimation (OESS) models considering the whole project lifetime. To customize the tramway solution to each scenario, three optimization modes have been defined: ESS sizing, opportunity charging point location, and whole scenario optimization (infrastructure and OESS sizing). The proposed methodology and customization analysis are applied on a real case study of the tramway of Zaragoza, Spain.

[1] Jean-Paul Moskowitz,et al. STEEM: ALSTOM and RATP experience of supercapacitors in tramway operation , 2010, 2010 IEEE Vehicle Power and Propulsion Conference.

[2] Alfred Rufer,et al. Energy storage for railway systems, energy recovery and vehicle autonomy in Europe , 2010, The 2010 International Power Electronics Conference - ECCE ASIA -.

[3] Paul Batty,et al. Sustainable urban rail systems: strategies and technologies for optimal management of regenerative braking energy , 2013 .

[4] Pietro Tricoli,et al. Recent developments and applications of energy storage devices in electrified railways , 2014 .

[5] Massimo Ceraolo,et al. Stationary and on-board storage systems to enhance energy and cost efficiency of tramways , 2014 .

[6] Jesús Carretero,et al. A holistic approach to railway engineering design using a simulation framework , 2014, 2014 4th International Conference On Simulation And Modeling Methodologies, Technologies And Applications (SIMULTECH).

[7] Jihong Wang,et al. Overview of current development in electrical energy storage technologies and the application potential in power system operation , 2015 .

[8] Joaquín Maroto,et al. Methodology for Multiobjective Optimization of the AC Railway Power Supply System , 2015, IEEE Transactions on Intelligent Transportation Systems.

[9] Haritza Camblong,et al. Adaptive energy management strategy and optimal sizing applied on a battery-supercapacitor based tramway , 2016 .