Abstract:
The Paris Agreement marked a milestone as all 196 member states committed to addressing global warming and finding solutions. In 2015, climate change concerns led to a push for action in the electric mobility sector within the framework of the agreement. However, some countries have not witnessed substantial growth in the sector, leading to discussions on whether electric vehicles or supporting infrastructure should take precedence. This raises questions about the prioritization of EV charging infrastructure. In contrast, countries like Norway, the United States, and China are witnessing the deployment of EV charging infrastructure alongside the increasing sales of electric vehicles. An electric car charging network is a charging station infrastructure system that is dedicated electrical infrastructure at various levels of the distribution grid. But why does India need to prioritize the deployment of EV charging infrastructure? India has approximately 1.3 million EVs, with 73% of them being 2w and E-Rickshaws, and the remaining 27% requiring high power charging stations, the majority of which are public (1,742 public charging stations). According to independent research conducted by the CEEW Centre for Energy Finance (CEEWCEF), the Indian EV market will be worth US$206 billion by 2030 provided India continues consistent progress towards its ambitious 2030 target. India faces a huge challenge due to its rapidly growing population; the next few decades will see the electrification of the transportation system occupied with electric vehicles in the road transportation sector, and the government will only focus on EV sales until 2030, with sales of 2W increasing tenfold by 2021. There are 295 million automobiles in India, with electrification expected to reach 28% in 2030 and 35% in 2040. India must prepare to meet the challenge of electrifying transport by providing the necessary infrastructure and power generation. The installation of electric vehicle (EV) charging stations is a critical component in the transition to a more environmentally friendly transportation system. This thesis investigates the current state of EV charging infrastructure implementation, as well as the associated difficulties and prospects. The study uses both quantitative and qualitative data, as well as case studies of successful EV charging station implementations in various circumstances. The thesis begins by examining the existing state of global EV charging infrastructure, examining the various types of charging stations, their technical specifications, and the regulatory and administrative frameworks that control their deployment. It then looks at the major problems and barriers to v widespread deployment of EV charging infrastructure, such as high upfront costs, the need for standardization, and a lack of clear economic models. The paper then examines successful case studies of EV charging station deployments in various contexts. It investigates the tactics and approaches employed in these case studies, such as public-private partnerships, novel finance structures, and community participation programs. Finally, the thesis makes recommendations to governments, entrepreneurs, and other stakeholders in order to speed up the deployment of EV charging infrastructure. These include the need for more supportive policies and regulations, increased public-private partnerships, and increased investment in R&D to improve charging station technology and lower costs. Overall, this thesis emphasizes the significance of EV charging infrastructure deployment in the transition to a more sustainable transportation system, as well as insights and recommendations for stakeholders wishing to speed the deployment of this infrastructure.