The widespread adoption of electric vehicles (EVs) is inseparable from the development of charging infrastructure. With the global transformation of the energy structure and the booming market for new energy vehicles, the integration of wind, solar, energy storage, and charging technologies is gradually becoming a new trend in future energy solutions.
01 Why Do Charging Stations Need "Wind-Solar-Storage-Charging" Integration?
Currently, China has built the largest, most widely serviced, and most diverse charging infrastructure system in the world. As of April 2024, the number of public charging piles in China has reached 2.9766 million. With the increase in the number of new energy vehicles, the improvement in the vehicle-to-pile ratio, and the widespread adoption of ultra-fast charging, the demand for power supply capacity for charging facilities is growing, posing significant challenges to the existing charging network system.
The wind-solar-storage-charging integration serves as a valuable complement to the power grid. Compared to traditional electric vehicle charging stations, wind-solar-storage integrated charging stations are more flexible, greener, and more efficient. They not only reduce the electricity costs of the station but also improve the quality of the power supply.
02 What is Wind-Solar-Storage-Charging Integration?
The Wind-Solar-Storage-Charging Integration system is a new energy system that combines wind power generation (wind), solar power generation (solar), energy storage (storage), and charging facilities (charging) into one. It not only effectively utilizes renewable energy sources (wind and solar) but also balances the grid load through the energy storage system, providing charging services for electric vehicles and other applications.
03 What are the advantages and highlights of Kortrong's Wind-Solar-Storage-Charging Integration solution compared to other similar solutions?
1) Provide a comprehensive solution and service for Wind-Solar-Storage-Charging integration stations, covering the entire project lifecycle from consulting, design, development, implementation, operation, training, to after-sales support.
2) Utilize renewable energy sources such as wind and solar power to enhance the investment economics of integrated charging stations. The energy storage system is used for peak shaving and valley filling, enabling peak-valley arbitrage.
3) Promote renewable energy consumption, reduce the impact on the grid, optimize energy storage technologies, and drive the development of smart energy management systems.
4) Use globally leading equipment for energy storage, photovoltaics, and charging stations to enhance the user charging experience.
5) Contribute to achieving the green energy transition, explore zero-carbon city technologies, and facilitate green power, green certificates trading, and related market-based transactions.
04 Solution Values
- Efficient Utilization of Renewable Energy
- Improved Grid Stability and Reliability
- Reduced Energy Costs and Increased Charging Station Profitability
- Enhanced Energy Self-sufficiency
- Increased Energy Security
05 Typical Cases
Wind-Solar-Storage-Charging Integrated Energy Storage Project
Location: Zaozhuang, Shandong
Scale: 480kW/1.72MWh
Product Type: Container ESS+PV+Fan+Charger
Integrated Storage and charging Project
Location: Jinan, Shandong
Scale: 1.4MW/3MWh
Product Type: Combined Cabinet ESS
Solar-Storage-Charging and Charging Inspection & Replacement Multi-Function Integrated Station
Location: Chongqing
Scale: 3.72MW/6.67MWh
Product Type: PV+Charging Pile+Testing+Power Exchange+ESS
