Litcius/Paper detail

China's electric vehicles adoption: implications for sustainable electricity, transportation, and net-zero emissions

Hermas Abudu, Rockson Sai, Md Altab Hossin, Elvis Banoemuleng Botah

2024Frontiers in Sustainable Energy Policy9 citationsDOIOpen Access PDF

Abstract

Introduction The rapid adoption of electric vehicles in China is a key strategy for decarbonizing the transportation sector, facilitating the transition to sustainable energy, and meeting the country's net-zero emissions goals. Notwithstanding this, limited research has explored how technological advancement influences electric vehicle adoption in the context of achieving sustainable electricity. Methods This study addresses this gap by integrating vehicle range, smart charging infrastructure, and battery electric vehicles into an econometric count framework utilizing countrywide data-driven insights. Results The findings demonstrate that technological advancements-specifically in vehicle range and the expansion of charging infrastructure-are vital solutions in driving battery electric vehicles acceptance. These advancements are essential for revolutionizing the transportation industry and contributing to the country's emissions reduction targets. Discussion However, this presents a dual challenge: balancing increased electricity demand while capitalizing on these technologies to meet net-zero goals. The study highlights critical policy implications, particularly the need to advance electric vehicle material technologies through the use of critical minerals including aluminum and lithium. By prioritizing these materials, producers can improve electric vehicles' efficiency and support the integration of renewable energy sources. The study concludes that incorporating renewable energy solutions, like solar-powered charging stations, is crucial for ensuring sustainable electricity. Policies encouraging public-private partnerships and investments in research on materials and smart charging technologies are crucial for reducing charging times and improving vehicle range. Additionally, fostering public-private collaborations to install smart charging infrastructure equipped with Internet-of-Things technology at parking slots can create a synergistic effect, significantly boosting electric vehicle adoption in China.

Topics & Concepts

Sustainable transportElectric vehicleZero emissionElectricityRenewable energyEnvironmental economicsBusinessContext (archaeology)Driving rangeTransport engineeringSustainabilityEngineeringEconomicsPaleontologyElectrical engineeringPhysicsQuantum mechanicsEcologyPower (physics)BiologyElectric Vehicles and InfrastructureAdvanced Battery Technologies ResearchTransportation and Mobility Innovations