The finite nature and high pollution levels of traditional fuels have drawn widespread attention, necessitating urgent advancements in clean energy technology. And transportation sector stands out as a major contributor to pollutant gas emissions. Promoting the application and technological innovation of clean energy, such as green electricity and hydrogen energy, in transportation systems is not only a crucial measure to address climate change and environmental challenges but also a comprehensive strategy to achieve sustainable development, enhance energy security and foster economic growth. Also, it contributes to improving residents' quality of life. Therefore, how to build a green, low-carbon, and smart transportation system is an issue worthy of study and exploration.
The widespread adoption of new energy vehicles, such as electric vehicles (EVs) and hydrogen fuel cell vehicles (HFCVs), is a crucial force in achieving low-carbon transportation, yet it still faces difficulties and challenges. On one hand, it is necessary to ensure that electric and hydrogen energy supplied for new energy vehicles is sourced from clean energy, such as wind and photovoltaic power generation, to prevent a mere shift of carbon emissions from vehicle operation to the energy supply stage. On the other hand, comprehensive research and exploration are essential in areas such as the construction of supporting infrastructure (such as charging stations and hydrogen refueling stations), mechanism design, and technological practices to facilitate their widespread adoption. Furthermore, conducting in-depth studies on the strategic interactions among various stakeholders in the transportation network and proposing corresponding policy proposals also contribute to driving the transition towards clean and low-carbon transportation. This comprehensive research effort aims to address the challenges associated with the promotion of clean energy, providing practical solutions to achieve the goals of green and low-carbon transportation.
We welcome high-quality research articles and review articles on topics including, but not limited to the following:
• Application research of low-carbon energy such as hydrogen energy, wind energy and solar energy in transportation system;
• Infrastructure planning and construction in low-carbon transport network;
• Game analysis of multi-stakeholder in low-carbon transportation system;
• Development and promotion of new energy vehicles such as hydrogen fuel cell vehicles and electric vehicles;
• Low-carbon transportation planning and management in smart cities;
• Development analysis of intelligent transportation system;
• Carbon emission assessment of transportation system;
• Transportation network planning based on hydrogen energy;
• Policy study of low-carbon transportation and energy;
• Driver and barrier factors of low-carbon transportation;
• Economics and sustainability analysis of low-carbon transportation and energy;
• Environmental impact assessment of energy-transport systems;
• Comprehensive decisions on low carbon transport and energy;
• Modeling analysis of clean energy consumption and electricity transmission;
• Demand forecasting of clean electricity and low-carbon transportation.
The finite nature and high pollution levels of traditional fuels have drawn widespread attention, necessitating urgent advancements in clean energy technology. And transportation sector stands out as a major contributor to pollutant gas emissions. Promoting the application and technological innovation of clean energy, such as green electricity and hydrogen energy, in transportation systems is not only a crucial measure to address climate change and environmental challenges but also a comprehensive strategy to achieve sustainable development, enhance energy security and foster economic growth. Also, it contributes to improving residents' quality of life. Therefore, how to build a green, low-carbon, and smart transportation system is an issue worthy of study and exploration.
The widespread adoption of new energy vehicles, such as electric vehicles (EVs) and hydrogen fuel cell vehicles (HFCVs), is a crucial force in achieving low-carbon transportation, yet it still faces difficulties and challenges. On one hand, it is necessary to ensure that electric and hydrogen energy supplied for new energy vehicles is sourced from clean energy, such as wind and photovoltaic power generation, to prevent a mere shift of carbon emissions from vehicle operation to the energy supply stage. On the other hand, comprehensive research and exploration are essential in areas such as the construction of supporting infrastructure (such as charging stations and hydrogen refueling stations), mechanism design, and technological practices to facilitate their widespread adoption. Furthermore, conducting in-depth studies on the strategic interactions among various stakeholders in the transportation network and proposing corresponding policy proposals also contribute to driving the transition towards clean and low-carbon transportation. This comprehensive research effort aims to address the challenges associated with the promotion of clean energy, providing practical solutions to achieve the goals of green and low-carbon transportation.
We welcome high-quality research articles and review articles on topics including, but not limited to the following:
• Application research of low-carbon energy such as hydrogen energy, wind energy and solar energy in transportation system;
• Infrastructure planning and construction in low-carbon transport network;
• Game analysis of multi-stakeholder in low-carbon transportation system;
• Development and promotion of new energy vehicles such as hydrogen fuel cell vehicles and electric vehicles;
• Low-carbon transportation planning and management in smart cities;
• Development analysis of intelligent transportation system;
• Carbon emission assessment of transportation system;
• Transportation network planning based on hydrogen energy;
• Policy study of low-carbon transportation and energy;
• Driver and barrier factors of low-carbon transportation;
• Economics and sustainability analysis of low-carbon transportation and energy;
• Environmental impact assessment of energy-transport systems;
• Comprehensive decisions on low carbon transport and energy;
• Modeling analysis of clean energy consumption and electricity transmission;
• Demand forecasting of clean electricity and low-carbon transportation.