This dataset provides a detailed overview of the electric vehicle (EV) market in India from 2001 to 2024. It includes monthly sales data, sales data categorized by manufacturer, and vehicle class-wise sales data for different manufacturers. This rich dataset is ideal for market analysis, trend forecasting, and research on the adoption and growth of electric vehicles in India.

Updated Files Included

EV Maker by Place

List of popular EV Makers and their location of Manufacturing Plant

Operational PC

Total Operational Public Charging Station for EV available in each state

Vehicle Class

Total vehicles (includes electric and all other fuels) registered (manufactured) by category from 2001 - Aug 2024

ev_cat_01-24

Total electric vehicles manufactured from 2001 - Aug 2024 and vehicle category

ev_sales_by_makers_and_cat_15-24

Total electric vehicles manufactured by makers from 2015 - Aug 2024 with the vehicle class

Potential Uses

• Market Analysis: Understand the growth trends and market share of different manufacturers in the Indian EV market.
• Forecasting: Predict future sales trends based on historical data.
• Research: Study the adoption patterns and the impact of various factors on the EV market in India.

Acknowledgments

This dataset was compiled and web-scrapped from Vahaan4 Dashboard

Note - The data for name of Manufacturers is only available from 2015

📝 Description

This Electric Vehicle (EV) Sales and Adoption dataset contains detailed records of electric vehicle sales, including vehicle details, region, customer segments, and sales metrics. It aims to help data enthusiasts and businesses forecast EV sales, analyze market trends, and derive insights to improve marketing and inventory strategies.

📊 Collection Methodology

Data Aggregation: Combined from (fictional) public EV registration records, automotive dealership sales reports, and online retailer transactions.

Quality Control: Only confirmed EV transactions are included; partially-completed orders and canceled orders were filtered out.

Revenue Calculation: Reflects the final sale price after applying any applicable discounts or incentives.

Feature Engineering: Customer demographics (segment, region) are included to facilitate market segmentation analysis.

🚀 Potential Use Cases

Sales Forecasting – Predict future EV sales volume based on regional and demographic patterns.

Market Trend Analysis – Identify which brands and vehicle types are most popular in specific regions.

Battery and Range Insights – Correlate battery capacity and fast-charging options with sales performance.

Consumer Behavior & Segmentation – Understand different customer segments' purchasing habits and price sensitivities.

Environmental Policy & Incentive Impact – Investigate how discounts or tax incentives affect adoption rates.

🔑 Key Features

Date: Represents a month in YYYY-MM format.

Region: Geographic region where sales took place.

Brand: Automotive brand (e.g., Tesla, BYD, Volkswagen, etc.).

Model: Specific EV model name.

Vehicle_Type: Category (Sedan, SUV, Hatchback, etc.).

Battery_Capacity_kWh: Battery capacity in kilowatt-hours.

Discount_Percentage: Any discount applied to final sale (%).

Customer_Segment: Broad segmentation (High Income, Tech Enthusiast, Eco-Conscious, etc.).

Fast_Charging_Option: Indicates if the vehicle supports fast-charging.

Units_Sold: Total number of units sold (in train.csv).

Revenue: Total revenue from units sold (in train.csv).

This dataset is well-suited for machine learning, statistical analysis, and data visualization projects that address growing interest in electrification, sustainability, and emerging transportation technologies!

The data article refers to the paper "A method for generating complete EV charging datasets and analysis of residential charging behaviour in a large Norwegian case study". The Electric Vehicle (EV) charging dataset includes detailed information on plug-in times, plug-out times, and energy charged for over 35,000 residential charging sessions, covering 267 user IDs across 12 locations within a mature EV market in Norway. Utilising methodologies outlined in the paper, realistic predictions have been integrated into the datasets, encompassing EV battery capacities, charging power, and plug-in State-of-Charge (SoC) for each EV-user and charging session. In addition, hourly data is provided, such as energy charged and connected energy capacity for each charging session.

The comprehensive dataset provides the basis for assessing current and future EV charging behaviour, analysing and modelling EV charging loads and energy flexibility, and studying the integration of EVs into power grids.

This study discloses a dataset of electric vehicles’ (EVs’) charging transactions at a scale for multi-faceted analysis from both EV charger and user perspectives. The data comprises of whole sessions that occurred during a charging operation company’s annual commercial operation period, specifically including identifiers and charger location categories. For data acquisition, machine-to-machine wireless communication system with proper retransmission for interruption is utilised. Entire dataset is newly collected and available with 72856 sessions from 2238 EV users and 2119 chargers. The dataset can be used in a variety of ways to the functioning of power systems and markets, including EV charging service businesses, charger installation siting, demand transaction market design, and long-term investment planning of EV-related infrastructure.

The India Electric Vehicle Market is segmented by Vehicle Type (Commercial Vehicles, Passenger Vehicles, Two-Wheelers) and by Fuel Category (FCEV, HEV). The report offers market size in both market value in USD and market volume in unit. Further, the report includes a market split by Vehicle Type, Vehicle Configuration, Vehicle Body Type, Propulsion Type, and Fuel Category.

Year: The calendar year representing the timeframe from 2017 to 2021, providing a chronological sequence for the electric vehicle sales data.

Electric 2 Wheelers (Bike, Scooty): This column captures the sales figures specifically for electric two-wheelers, including both bikes and scooters, reflecting the evolving trends in individual electric mobility.

Electric 3 Wheelers (Tempo, Reksha): Focusing on electric three-wheelers, this column details the sales data for vehicles like tempos and rickshaws, highlighting the adoption of electric technology in the commercial transportation sector.

Electric 4 Wheelers (Cars): Tracking the sales of electric four-wheelers, mainly electric cars, this column signifies the shift towards sustainable and eco-friendly options in the passenger vehicle segment.

Electric Bus: This column outlines the sales statistics for electric buses, showcasing the advancements in electric public transportation and the efforts to reduce emissions in the mass transit sector.

Overall Total of Car Sales: Providing a consolidated figure, this column represents the total sales of electric cars, offering a comprehensive view of the growth and acceptance of electric vehicles in the Indian automotive market.

The United States Electric Car Market is segmented by Vehicle Configuration (Passenger Cars) and by Fuel Category (BEV, FCEV, HEV, PHEV). The report offers market size in both market value in USD and market volume in unit. Further, the report includes a market split by Vehicle Type, Vehicle Configuration, Vehicle Body Type, Propulsion Type, and Fuel Category.

The UK electric car market is experiencing robust growth, driven by government incentives, increasing environmental awareness, and advancements in battery technology. The market's Compound Annual Growth Rate (CAGR) exceeding 4% suggests a significant expansion over the forecast period (2025-2033). While precise figures for the UK market size in 2025 are unavailable from the provided data, extrapolating from global trends and considering the UK's proactive electric vehicle adoption policies, a reasonable estimate for the 2025 market size would be in the range of £3-5 billion. This is supported by the significant investments from major automotive players like BMW, Nissan, Jaguar Land Rover, Hyundai, Volvo, Kia, Mercedes-Benz, Audi, Toyota, and Ford, all actively competing within the UK market. These companies are not only launching new electric vehicle models but also investing heavily in charging infrastructure and battery production within the UK, further accelerating market growth. Segment-wise, passenger vehicles are expected to dominate the market share, closely followed by light commercial vehicles, driven by the increasing adoption of electric delivery vans and smaller commercial trucks in urban areas. While challenges remain, such as the initial higher purchase price of EVs and concerns over range anxiety, government subsidies and the expanding charging network are mitigating these barriers. The continued growth of the UK electric car market is projected to be influenced by several factors. Stringent emission regulations are pushing manufacturers to electrify their fleets. Furthermore, consumer preferences are shifting towards eco-friendly vehicles, creating sustained demand. Technological advancements, particularly in battery technology leading to longer ranges and faster charging times, are addressing consumer concerns. However, potential restraints include the availability of charging infrastructure in less populated areas and the ongoing cost of battery production, which can impact the overall affordability of electric vehicles. Sustained government support, coupled with technological improvements and a growing awareness of environmental responsibility among consumers, are likely to drive the UK electric car market towards substantial growth in the coming decade. This report provides an in-depth analysis of the dynamic UK electric car industry, covering the period from 2019 to 2033. It offers invaluable insights for businesses, investors, and policymakers navigating the complexities of this rapidly evolving sector. With a focus on key market trends, leading players, and future growth projections, this report is essential reading for anyone seeking to understand and participate in the UK's electric vehicle revolution. The report leverages a robust data set, including historical data (2019-2024), base year analysis (2025), and comprehensive forecasts (2025-2033) to deliver actionable intelligence. High-volume keywords like "UK electric car market," "electric vehicle sales UK," "EV charging infrastructure UK," and "electric car industry trends UK" are strategically incorporated for optimal search engine visibility. Recent developments include: November 2023: Ford motors and manufacturers 2030 have entered into a strategic Partnerships to help its suppliers achieve their CO2 reduction targets in line with Ford Motor Co.'s global objective of becoming carbon neutral by 2050.August 2023: Toyota Argentina announced that as it begins production of the Hiace in 2024 at its plant in Zárate, it will continue and enlarge the mission of the Conversions area, dedicated to designing and producing vehicles adapted to the specific needs of multiple customers.August 2023: The Dubai Police Department has placed an electric Mercedes EQS 580 on its fleet of luxury cars and environmentally conscious vehicles to patrol the streets.. Key drivers for this market are: Used Car Financing To Continue Solving Consumer Challenges In Indonesia. Potential restraints include: Trust And Transparency In Used Car Remained A Key Challenge For Consumers. Notable trends are: OTHER KEY INDUSTRY TRENDS COVERED IN THE REPORT.

Analysis of ‘EVs - One Electric Vehicle Dataset - Smaller’ provided by Analyst-2 (analyst-2.ai), based on source dataset retrieved from https://www.kaggle.com/geoffnel/evs-one-electric-vehicle-dataset on 30 September 2021.

--- Dataset description provided by original source is as follows ---

CONTEXT: This is a dataset of electric vehicles.

One of the more popular data science datasets is the mtcars dataset. It is known for its simplicity when running analysis and visualizations.

When looking for simple datasets on EVs, there don't seem to be any. Also, given the growth in this market, this is something many would be curious about. Hence, the reason for creating this dataset.

For more information, please visit the data source below.

TASKS: Some basic tasks would include 1. Which car has the fastest 0-100 acceleration? 2. Which has the highest efficiency? 3. Does a difference in power train effect the range, top speed, efficiency? 4. Which manufacturer has the most number of vehicles? 5. How does price relate to rapid charging?

CONTENT: I've included two datasets below:

1. 'ElectricCarData_Clean.csv' -- original pulled data.

2. 'ElectricCarData_Norm.csv' -- units removed from each of the rows -- rapid charge has a binary yes/no value

The point of both is to have users practice some data cleaning.

CREDITS: There are two credits and sourcing that needs to be mentioned: 1. Datasource: ev-database.org/ 2.*Banner image*: freepik - author - 'macrovector'

UPDATES: There will be future updates when we can attain additional data.

--- Original source retains full ownership of the source dataset ---

In the financial year of 2025, two-wheelers led the electric vehicle market in India, with sales reaching approximately *****million units. This represented a substantial growth compared to the sales figures from the previous year. Meanwhile, the sales of four-wheeler electric vehicles stood at around ********for the same period. Notably, all sectors of the electric vehicle market witnessed significant growth that year. Electric vehicle market The market projection for electric vehicles (EVs) in India is promising, with a significant increase in sales volume expected in the coming years. In the passenger vehicle segment, Tata Motors has carved out a substantial market share. Meanwhile, Ola Electric is leading the charge in the two-wheeler EV segment. However, the share of EV sales in total vehicle sales in India, while growing, is still relatively small. This points to a gradual yet steady shift towards EV adoption across various vehicle segments in the country. Challenges in EV adoption With the growing environmental concerns, the acceptance of EVs is on the rise in India, with the willingness to invest in sustainable modes of transportation. However, this transition is not without challenges. Concerns about the availability of public charging infrastructure and the safety of battery technology are prevalent. Addressing these issues will be crucial in accelerating the adoption of EVs in the country.

This dataset contains results from a stated choice experiment set in a context where respondents are buying their next personal car. Before the choice experiment, respondents answered questions about their socio-economic background and were asked about their preferences for a new car or a used car for next car purchase, and then were directed to scenarios of new car options or used car options accordingly. The choice tasks were generated using an orthogonal design with 240 fractional factorial scenarios extracted from the full factorial combinations. Each respondent was randomly assigned to 6 of the 240 tasks. Each task provided two purchase options: a conventional car powered by gasoline; and an electric version of the conventional car, which runs solely on electricity but is otherwise identical to the conventional car. Key attributes that varied between choice tasks were purchase price, driving range, walking distance of the nearest slow charging options from home and to work, fast charging time, fast charging availability in town, and fast charging availability on highway. The gasoline car option is the reference alternative with all attribute levels fixed throughout the entire experiment. The survey was designed and implemented in SurveyMonkey, an online survey platform, and respondents were recruited and paid through Amazon Mechanical Turk (MTurk). Respondents were recruited from among car owners who have completed at least 100 tasks on MTurk with a minimum 95% acceptance rate.

Electric Vehicle Market size was valued at $273.4 billion in 2021 and is predicted to reach USD 1869.9 billion by 2030 with a CAGR of 24.4% from 2022-2030

Palo Alto EV Charging Station Usage Open Data provides comprehensive insights into the usage patterns of electric vehicle (EV) charging stations in the city of Palo Alto, California. This open dataset offers valuable information about the availability, utilization, and demand for EV charging infrastructure, allowing researchers, analysts, and businesses to gain a deeper understanding of the local EV market and sustainable transportation practices.

The data includes details on charging station locations, types of charging connectors available, charging session durations, energy consumption, and other relevant metrics. This information enables users to analyze trends, identify peak usage times, assess charging infrastructure performance, and develop data-driven solutions to enhance the efficiency and accessibility of EV charging services.

Researchers can leverage this dataset to study charging behavior, develop predictive models, and propose strategies for optimized charging station placement. Businesses can use the data to identify opportunities for expanding charging infrastructure and improving user experiences.

Overall, Palo Alto EV Charging Station Usage Open Data supports sustainable mobility initiatives by fostering a data-driven approach to EV infrastructure planning and management. It empowers stakeholders to make informed decisions, enhance the EV charging ecosystem, and contribute to the wider adoption of electric vehicles for a greener and more sustainable future.

Between 2023 and 2029, the size of the global electric vehicle market is expected to increase from *** billion U.S. dollars to reach an estimated global market size of some *** billion U.S. dollars by 2029. Driving for electrification Electric vehicles (EVs) have become a much more attractive choice to consumers in recent years thanks to increased range, battery life, efficiency, and affordability. EVs have taken the automotive market in northern European states by storm, and sales figures in China have also been on the rise. Electric vehicles are seen as the future in China, with market size and demand continuously growing, and it is expected that electric vehicles will make up between ** and ** percent of the country’s passenger vehicle market by 2025. Widespread adoption in Norway As of 2022, however, it is Norway that has the largest share of electric vehicles in its fleet: such automobiles represented the majority of new registrations in 2022. Electric vehicles are so popular in Norway in part because of strong incentives put forward by the government, but also because of the availability of charging ports. The widespread availability of charging outlets is paramount in making electric vehicles a viable option for car users.

The electric vehicle (EV) motor core market is experiencing robust growth, driven by the global surge in EV adoption. While precise market figures for 2029 require a complete dataset, we can project a significant expansion based on available information. Assuming a conservative Compound Annual Growth Rate (CAGR) of 15% (a reasonable estimate given the rapid advancement of EV technology and government incentives globally), and a 2025 market size of $5 billion (a plausible figure based on current market reports for related EV components), the EV motor core market could reach approximately $11.8 billion by 2029. This projection considers factors such as increasing demand for electric cars and buses, stringent emission regulations globally, and ongoing advancements in motor core technology leading to higher efficiency and performance. The market is segmented by various motor types (permanent magnet synchronous motors, induction motors, etc.), vehicle types (passenger cars, commercial vehicles), and geographic regions. Key drivers include the aforementioned regulatory pressure, growing consumer preference for EVs, and continuous improvements in battery technology and charging infrastructure. However, challenges remain, including supply chain disruptions impacting raw material costs (like rare earth magnets for permanent magnet motors), competition among motor core manufacturers, and the need for further technological advancements to achieve even higher energy density and reduce costs. North America and Europe are currently leading markets, but significant growth is expected in Asia, particularly China, due to its large EV production base and government support for the industry. The market is also witnessing a shift towards more efficient and cost-effective motor core designs, employing advanced materials and manufacturing processes. This trend is crucial for ensuring the long-term competitiveness and sustainability of the EV industry.

In the fourth quarter of 2024, over ******* battery-electric vehicles were sold in the United States. This was a year-over-year increase of around **** percent compared to the sales recorded in the fourth quarter of 2023. The fourth quarter of 2024 also recorded a hike in sales compared to the third quarter of that same year, making it the best quarter for BEV sales in the country across the past two years. Global EV Race - Where does the U.S. stand? Over the last few years, consumers have perceived Electric Vehicles (EVs) as a far more appealing option due to their increased range, battery life, variety of models, and affordability. Therefore, the EV market has grown fast in recent years and is forecast to expand to *** trillion U.S. dollars in 2029. Though the global demand for electric cars has been escalating, American sales lag behind Europe and the Asia-Pacific regions. In 2023, Chinese customers bought around *** million plug-in EVs, considerably more than American customers' purchases,around *** million that year. China is the leader of the global EV race, with a substantial ** percent growth in sales year-on-year in 2023. However, given the market share of electric vehicles in the global automotive industry, this still can be anyone's race. Outlook of the U.S. market There is still a lack of interest in electric vehicles among American buyers compared to European and Asian consumers. In the first quarter of 2021, the share of the battery electric vehicle was **** percentage points more in Norway than in the U.S.. One of the main reasons is that American consumers still anticipate that EVs are more expensive than gasoline vehicles and diesel internal combustion engine cars (ICE). This perception is partially true in the U.S. since the battery production market is highly concentrated in Asia, where the companies have logistical advantages, leading automotive makers to offer better prices. On the other hand, high licensing fees for electric vehicles are another factor affecting the consumption behaviors of automobile purchasers. In many states, the licensing fees for electric cars are considerably higher than their ICE counterparts. EV licensing fees were around *** U.S. dollars compared to ** U.S. dollars for standard vehicles in Georgia in 2021. Together, these factors significantly impact the individual perception of electric cars in the United States.

This is a cars data set which is used to perform a data analysis process about this data. This data set also used to predict the type of car based on the features input like MPG, Cylinders, Displacement, Horsepower, Weight, Acceleration, Year of publishing and Country of origin. Use this data set to practice and implement the new techniques.

Cars and how much fuels they use

• Cars 1 Data is collected from link ### Dataset of electric passenger cars with their specifications This dataset lists all fully electric passenger cars with their attributes (properties). The collection does not contain data on plug-in hybrid cars and electric cars from the so-called “range extenders”. Hydrogen cars were also not included in the dataset due to the insufficient number of mass-produced models and different (compared to EV) specificity of the vehicle, including the different charging methods. The dataset includes cars that, as of 2 December, 2020, could be purchased in Poland as new at an authorized dealer and those available in public and general presale, but only if a publicly available price list with equipment versions and full technical parameters was available. The list does not include discontinued cars that cannot be purchased as new from an authorized dealer (also when they are not available in stock). The subject of the study is only passenger cars, the main purpose of which is to transport people (inter alia without including vans intended for professional deliveries). The dataset of electric cars includes all fully electric cars on the primary market that were obtained from official materials (technical specifications and catalogs) provided by automotive manufacturers with a license to sell cars in Poland. These materials were downloaded from their official websites. In the event that the data provided by the manufacturer were incomplete, the information was supplemented with data from the SAMAR AutoCatalog (link can be found in References section). The database consisting of 53 electric cars (each variant of a model – which differs in terms of battery capacity, engine power, etc. – is treated as separate) and 22 variables (25 variables, including make, model and “car name” merging these two previous).
• FEV data are collected from link ### Electric vehicle population This dataset shows the Battery Electric Vehicles (BEVs) and Plug-in Hybrid Electric Vehicles (PHEVs) that are currently registered through Washington State Department of Licensing (DOL).
• Data collected from link

Electric vehicle charging infrastructure historical and current daily utilization data from the present day to 2019 covering the continental US and Europe. Charging stations are logged by the minute and then summarized by day to see usage trends over a stations' life. Our dataset tracks approximately 90,000 stations.

Our data is unique in that it is aggregated from a wide range of sources, and internally enhanced, giving us the ability to provide a consistent set of validated and accurate data. Users can use this data to deeply understand charging station utilization.

Use cases for this data include (but are not limited to): Market research, usage prediction for electric utility companies, charger usage prediction for up and coming locations, and more. We can also help municipalities with identifying supply and demand gaps.

Learn more at evseinsights.com.

There were about 58.1 million electric vehicles in operation worldwide in 2024. That year, all-electric vehicles accounted for about 67.2 percent of plug-in electric vehicles. Electric vehicle market growth Globally, electric vehicle sales soared to approximately 17.3 million units in 2024. While conventional vehicle sales slumped amid the outbreak of the coronavirus pandemic, the market share of electric vehicles increased to between four and five percent in 2020, and has been rising ever since. China was the market with the largest battery-electric vehicle fleet in 2024, accounting for around 23 million of the world's battery-electric vehicle population. Manufacturers leading the Chinese market Leading the Chinese battery-electric vehicle market in 2023 was domestic manufacturer BYD. The company has been acknowledged for its innovation in battery technology. BYD also began manufacturing vehicles in foreign countries in 2015. Tesla. BYD's main competitor on the global market, was the second most popular BEV manufacturer in China.

The data for Total cost of ownership was collected from academic research on the topic, technical reports from the industry, and data on vehicle technology maintained by the Environmental Protection Agency (EPA) and the Alternative Fuel Data Center.

The household-level data used for market segmentation is obtained from the 2019 California Vehicle Survey hosted by NREL.