Micro-mobility Charging Infrastructure

Global Micro-mobility Charging Infrastructure Market to Reach US$24.5 Billion by 2030

The global market for Micro-mobility Charging Infrastructure estimated at US$7.0 Billion in the year 2024, is expected to reach US$24.5 Billion by 2030, growing at a CAGR of 23.1% over the analysis period 2024-2030. E Scooters, one of the segments analyzed in the report, is expected to record a 26.6% CAGR and reach US$11.4 Billion by the end of the analysis period. Growth in the E Bikes segment is estimated at 19.7% CAGR over the analysis period.

The U.S. Market is Estimated at US$1.9 Billion While China is Forecast to Grow at 31.2% CAGR

The Micro-mobility Charging Infrastructure market in the U.S. is estimated at US$1.9 Billion in the year 2024. China, the world`s second largest economy, is forecast to reach a projected market size of US$6.0 Billion by the year 2030 trailing a CAGR of 31.2% over the analysis period 2024-2030. Among the other noteworthy geographic markets are Japan and Canada, each forecast to grow at a CAGR of 18.1% and 20.9% respectively over the analysis period. Within Europe, Germany is forecast to grow at approximately 19.4% CAGR.

Global Micro-Mobility Charging Infrastructure Market – Key Trends & Drivers Summarized

What Is Micro-Mobility Charging Infrastructure and Why Is It Essential?
Micro-mobility charging infrastructure refers to the network of charging stations and systems specifically designed to recharge electric-powered micro-mobility vehicles, such as e-scooters, e-bikes, and other small electric vehicles (EVs). With the rapid growth of shared micro-mobility services in urban areas, including scooter-sharing and bike-sharing programs, the need for efficient and accessible charging infrastructure has become critical. This infrastructure includes charging stations, battery swapping stations, and sometimes, even charging hubs integrated into public spaces like parks, parking lots, and commercial centers. These solutions enable quick, convenient charging to ensure that micro-mobility fleets remain operational and meet the increasing demand for eco-friendly transportation options.

The need for micro-mobility charging infrastructure is increasingly evident in cities worldwide as they seek to reduce congestion, pollution, and their carbon footprints. With urban mobility trends shifting toward sustainable and electric-powered vehicles, micro-mobility has emerged as a popular mode of transportation, especially for short trips. The reliability of charging infrastructure directly affects the performance and sustainability of these services. If users cannot easily access charging stations or swap out batteries, services face operational disruptions that impact rider experience and service continuity. Therefore, establishing a well-maintained, widespread charging infrastructure is key to the long-term success of micro-mobility systems in urban areas.

As governments push for cleaner transport options and cities become more congested, micro-mobility vehicles powered by clean energy are gaining popularity. This surge in demand is fueling investment in robust charging networks that can keep vehicles powered and functional. Additionally, as micro-mobility services evolve and expand into more metropolitan areas, optimizing the charging infrastructure is critical for scaling these services efficiently. This includes not only increasing the number of charging stations but also enhancing their technology for faster, more efficient charging.

What Are the Emerging Trends Shaping the Micro-Mobility Charging Infrastructure Market?
The micro-mobility charging infrastructure market is undergoing a transformation driven by several emerging trends. One of the most significant developments is the shift toward faster, more efficient charging technologies. As electric micro-mobility vehicles become more prevalent, the demand for faster charging solutions is growing. Traditional charging times can be inconvenient for users, especially in shared micro-mobility services where turnaround times need to be minimized. Therefore, technologies like high-speed chargers, ultra-fast charging stations, and quick battery swap stations are being adopted more widely to ensure that micro-mobility services remain operational with minimal downtime.

Another key trend is the integration of renewable energy sources into the charging infrastructure. As cities aim to reduce their carbon footprints, there is a growing push for the integration of solar power, wind energy, and other renewable sources into charging stations. Charging stations that use renewable energy sources not only promote cleaner transportation but also contribute to sustainable urban development. These green charging stations are often seen as part of a broader push toward creating eco-friendly cities. For example, solar-powered e-scooter charging stations are becoming more common in urban spaces, allowing for a more sustainable way to power micro-mobility vehicles.

The development of smart charging infrastructure is also gaining traction. Smart charging systems enable better management of the power grid, monitoring of charging patterns, and data collection for improved operational efficiency. These systems can optimize energy usage, reduce peak demand charges, and even provide real-time information to users about available charging stations. As micro-mobility fleets increase in number, the ability to track usage patterns and automate charging schedules will help reduce energy costs and enhance the efficiency of micro-mobility services. The integration of data analytics into these charging networks is also facilitating better fleet management and route optimization for operators, leading to greater overall system efficiency.

How Does Micro-Mobility Charging Infrastructure Contribute to Urban Mobility Solutions?
Micro-mobility charging infrastructure plays a crucial role in the broader urban mobility landscape by ensuring the sustainability and scalability of shared electric transportation systems. As cities around the world continue to face traffic congestion, high pollution levels, and strained public transportation systems, micro-mobility solutions offer a promising alternative. However, without the appropriate charging infrastructure in place, these services would struggle to maintain consistent availability, especially in high-demand areas.

Charging infrastructure directly supports the operations of shared e-scooters, e-bikes, and other micro-mobility vehicles by ensuring that they are constantly ready for use. With the increased reliance on micro-mobility for first- and last-mile connectivity, particularly in urban environments, users require convenient access to vehicles at all times. Charging stations must, therefore, be strategically placed throughout urban areas, particularly in high-density zones like commercial centers, transport hubs, and residential neighborhoods. This ensures users can easily locate charging stations and reduces the risk of running out of power during use.

In addition to improving the user experience, well-established charging infrastructure also supports the efficiency of fleet management. Micro-mobility fleet operators can use charging station data to optimize vehicle availability, reduce operational costs, and increase the lifetime of their vehicles. For example, operators can monitor battery levels and charging times to predict when vehicles will be available for redeployment in high-demand locations. As a result, the system becomes more efficient, reducing downtime and ensuring that users can access transportation options when needed.

What Are the Main Drivers of Growth in the Micro-Mobility Charging Infrastructure Market?
The growth in the micro-mobility charging infrastructure market is driven by several factors, including the rapid adoption of electric micro-mobility solutions, government policies promoting clean transportation, and technological advancements in charging solutions. One of the primary drivers is the increasing use of electric micro-mobility vehicles in urban transportation. Cities are increasingly turning to electric scooters, e-bikes, and other small electric vehicles to provide sustainable, cost-effective solutions to urban transportation challenges. As these micro-mobility services expand, the demand for efficient charging infrastructure rises, ensuring that vehicles are continuously operational and can meet the needs of riders.

Government support and regulatory policies are also playing a significant role in the growth of micro-mobility charging infrastructure. Many governments are offering incentives and subsidies to promote the adoption of electric vehicles, including micro-mobility options. In some cities, local governments are implementing regulations that require the installation of charging stations for micro-mobility vehicles in public spaces, ensuring that infrastructure keeps pace with the growing demand for electric transportation. These policies not only promote sustainability but also support the development of the necessary charging networks to facilitate widespread adoption.

Technological innovations, particularly in the areas of fast-charging technology, smart charging, and integration with renewable energy sources, are further driving the market. As consumers and businesses alike demand faster and more reliable charging solutions, companies are investing in the development of high-speed chargers, modular systems, and infrastructure that can accommodate increasing numbers of vehicles. Additionally, the integration of renewable energy into charging stations aligns with the growing trend toward sustainability in urban planning, further accelerating demand for these advanced charging solutions.

Finally, the rapid expansion of shared micro-mobility services is a key driver for the market`s growth. Companies that operate shared fleets of e-scooters and e-bikes are expanding rapidly to meet demand in more cities around the world. For these services to scale successfully, an extensive and reliable charging network is required. As the number of micro-mobility vehicles continues to increase, the infrastructure needed to support them must grow as well, making micro-mobility charging solutions a critical component of the transportation ecosystem in urban areas.

In conclusion, the micro-mobility charging infrastructure market is growing at a rapid pace due to increased adoption of electric micro-mobility vehicles, supportive government policies, and advancements in technology. As cities and businesses continue to embrace sustainable transportation solutions, the demand for efficient, fast, and widespread charging infrastructure will be crucial to ensure the success and scalability of micro-mobility services. The integration of renewable energy sources and smart technology will further enhance the growth prospects of the market in the coming years.

SCOPE OF STUDY:

The report analyzes the Micro-mobility Charging Infrastructure market in terms of units by the following Segments, and Geographic Regions/Countries:

Segments:
Vehicle Type (E Scooters, E Bikes, E Skateboards, E Unicycles); Charger Type (Wired Charger, Wireless Charger); Power Source (Battery Powered Charging Infrastructure, Solar Powered Charging Infrastructure); End-Use (Residential End-Use, Commercial End-Use)

Geographic Regions/Countries:
World; United States; Canada; Japan; China; Europe (France; Germany; Italy; United Kingdom; Spain; Russia; and Rest of Europe); Asia-Pacific (Australia; India; South Korea; and Rest of Asia-Pacific); Latin America (Argentina; Brazil; Mexico; and Rest of Latin America); Middle East (Iran; Israel; Saudi Arabia; United Arab Emirates; and Rest of Middle East); and Africa.

Select Competitors (Total 41 Featured) -

• Ather Energy
• Beam Global
• Bird Global
• CATL
• Charge Enterprises
• Electrify America
• Flower Turbines
• Giulio Barbieri SRL
• Gogoro
• Gravity
• It`s Electric
• Lime
• Micro-Mobility Services
• Perch Mobility
• Revel
• Selex Motors
• SUN Mobility
• Swiftmile
• Voltpost
• Yulu

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