Assessment of development of electric mobility and interaction with RES

Since the past decade, electric vehicles have gradually entered the mainstream market and become the favorite of European and Italian consumers; the growth of electric vehicles can bring about environmentally friendly changes, such as reducing carbon dioxide emissions, greenhouse gas emissions and the use of primary energy. In the development plan for the future energy system, many authoritative organizations and government departments, such as Terna, SEN, Unione Petrolifera, etc., have made optimistic predictions on the development of electric vehicles, and the Italian government has provided more incentive policy accordingly to reach for this goal. At the same time, the development of renewable energy is also an important part of the future energy plan. Renewable energy such as wind, photovoltaic and hydropower will gradually increase the installed capacity and gradually replace the status of traditional fossil fuels such as coal, oil and natural gas; In particular, the development of photovoltaics has the greatest potential. Due to Italy's location in the Mediterranean, the unique geographical conditions make photovoltaic energy destined to occupy an important position in the future energy transformation. The development of electric vehicles is closely integrated with the development of renewable energy. More electric vehicles mean higher power consumption and bring more load to the grid. Fully utilize different charging strategies for smart charging. Time-sharing charging can match the power load with the time period of some renewable energy generation to achieve the mitigation of grid pressure and more efficient use of renewable energy to generate electricity. However, it is not the highest proportion of electric vehicles and the most renewable energy generation means the optimal solution for emissions. During the peak period of electricity consumption, excessive power demand and production will cause overload of transmission lines. Using the energy system simulation software EnergyPlan can effectively analyze this situation and find the turning point. In addition, through the entire life cycle of electric vehicles, from raw materials, to the production of electric vehicles, to the use cycle, and finally to the recycling after scrapping, analysis, you can more clearly understand that how its life cycle is correlating with greenhouse gas emissions for better management and planning, to achieve minimizing emissions.

Dall'ultimo decennio, i veicoli elettrici sono entrati gradualmente nel mercato mainstream e sono diventati i preferiti dei consumatori europei e italiani; la crescita dei veicoli elettrici può portare a cambiamenti ecologici, come la riduzione delle emissioni di anidride carbonica, le emissioni di gas serra e l'uso di energia primaria. Nel piano di sviluppo per il futuro sistema energetico, molte organizzazioni autorevoli e dipartimenti governativi, come Terna, SEN, Unione Petrolifera, ecc., Hanno avanzato previsioni ottimistiche sullo sviluppo dei veicoli elettrici, e il governo italiano ha fornito di conseguenza una politica di incentivi di più per raggiungere questo obiettivo. Lo sviluppo dei veicoli elettrici è strettamente integrato con lo sviluppo delle energie rinnovabili. Più veicoli elettrici significano un maggiore consumo di energia e portano più carico alla rete. Utilizza completamente diverse strategie di ricarica per la ricarica intelligente. La ricarica multiproprietà può abbinare il carico di energia con il periodo di tempo di una certa generazione di energia rinnovabile per ottenere la mitigazione della pressione della rete e un uso più efficiente dell'energia rinnovabile per generare elettricità.