The increasing popularity of electric vehicles (EVs) has led to a growing need for electrified transportation, which has further deepened the interconnectedness of power and transportation networks. To account for EV drivers' preferences in route selection, this paper proposes an environment-aware dispatch model that coordinates the integrated power and transportation network to achieve greater economic benefits and increased utilization of renewable energy. The model employs discrete choice models with an environmental factor to represent user behavior. The constructed user behavior models serve as the basis for the integrated optimal traffic-power flow (IOTPF) model, which aims to optimize the flow of both power and traffic while minimizing the total cost of EV travel and maximizing the use of renewable energy sources. The paper employs a decentralized optimization algorithm to solve the equilibrium flows of the IOTPF model. Numerical results illustrate how the environment-aware user behavior impacts travel costs and the use of renewable energy, demonstrating the effectiveness of the IOTPF model in coordinating the optimal strategy of the integrated power-transportation network.


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    Title :

    Decentralized Optimization of Coupled Power-Transportation Network considering Environment-aware User Behavior


    Contributors:
    Cao, Zhiao (author) / Han, Yinghua (author) / Zhao, Qiang (author) / Wang, Jinkuan (author) / Zhao, Shuyi (author)


    Publication date :

    2023-04-21


    Size :

    1100077 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English





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