PV+BESS+EV Charging Station Solution
Fyfine aims to provide you with the industry’s most cutting-edge one-stop PV+ESS+Charging solution
Why Choose PV+BESS+EV Charging?
Solar + storage + charging solutions help charging station operators improve energy efficiency, reduce grid pressure, and support stable fast charging for commercial EV charging projects.
Reduce Grid Pressure
Battery energy storage can support EV charging during peak demand periods and reduce the pressure on grid capacity. This is especially useful for highway service areas, commercial parking lots, logistics parks, and charging stations with limited grid access.
Improve Solar Energy Utilization
PV power can be used directly for EV charging or stored in the battery system for later use. This helps project owners increase renewable energy usage and reduce dependence on grid electricity.
Support Fast Charging Demand
The energy storage system provides stable power support for DC fast charging stations. It helps charging operators handle high-power charging demand more efficiently and improve the user charging experience.
Optimize Energy Costs
With EMS control, the battery system can charge during low-price periods and discharge during peak-price periods. This helps reduce operating costs and improve the return of the charging station project.
Suitable for Multiple Project Scenarios
PV+BESS+EV charging solutions are suitable for highway service areas, gas stations, commercial parking lots, logistics parks, industrial parks, bus stations, and renewable energy demonstration projects.
Energy Upgrade: PV+BESS+Charging Becomes Mainstream
Flyfine PV+BESS+EV charging solutions combine solar power generation, LiFePO4 battery energy storage, EV charging equipment, grid connection, and intelligent EMS control to support stable and efficient commercial charging projects.
Intelligent Energy Management for Solar + Storage + Charging
The system can coordinate PV power, battery storage, grid electricity, and EV charging loads according to energy demand, electricity price, solar generation, and charging station operation strategy.
Mode 1: PV Priority Operation
During the daytime, solar power supplies the charging load first. When PV generation exceeds real-time demand, the extra energy can be stored in the battery system or sent to the grid according to the project strategy.
Mode 2: BESS Support During Peak Demand
When charging demand is high or grid capacity is limited, the battery energy storage system discharges to support DC fast charging and reduce pressure on the grid connection.
Mode 3: Grid Backup & Stable Power Supply
When solar generation is insufficient or the battery state of charge is low, the grid provides stable power support for the charging station and helps maintain continuous operation.
Mode 4: Time-of-Use Energy Optimization
With EMS control, the battery system can charge during low electricity price periods and discharge during peak price periods, helping charging station operators reduce energy costs and improve project returns.
Data Statistics and Analysis
The EMS collects and monitors energy data such as PV generation, battery status, charging load, grid usage, and system operation records, helping operators understand system performance clearly.
Operation Strategy Optimization
The system can optimize charging and discharging strategies according to electricity price, load demand, PV generation, and customer operation targets.
Data Visualization
Project owners can view energy flow, battery status, charging demand, PV output, and system operating data through a visualized management platform.
Smart Strategy
Intelligent control strategies help coordinate solar power, battery storage, grid electricity, and charging loads to improve system efficiency and support stable operation.
EV Charging Products & Solutions
Explore Flyfine EV charging products for solar + storage + charging projects, commercial charging stations, parking lots, logistics parks, residential areas, and fleet charging applications.
Project Case
Application: highway service area
Config: 4 units of 100kW/215kWh all in one battery
Charging Station: 4 sets of 480kw flexible charging stacks; including 4pcs liquid-cooled ultra-fast charging gun , 20pcs fast charging gun
Energy Source: 1MWp PV solar panels
Application: highway service area
Config: 2 units of 100kW/215kWh all in one battery and 2 units of 50kW/100kWh all in one battery
Charging Station: 2 sets of 480kw flexible charging stacks; including 2pcs liquid-cooled ultra-fast charging gun , 10pcs fast charging gun
Energy Source: 1025kwp PV solar panels
Let’s build your energy project together.
Share your project requirements with FLYFINE Energy. Our team will help you match the right lithium battery, energy storage system, or inverter solution.
Product selection support
OEM / ODM cooperation
Fast quotation response
Email
sales@flyfinebattery.com
Phone / WhatsApp
+86 15018413606
