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Solar Energy Battery Storage DC Charger ESS EV Car Charging Station
Our Energy Storage Charging System revolutionizes the way we utilize energy through its advanced technology and intelligent management. By utilizing lithium battery groups and employing both local and cloud Energy Management Systems (EMS), this system enables efficient energy storage, power balancing, and seamless integration with the grid, electric vehicle (EV) charging, and new energy inputs. It not only maximizes the value of energy resources but also enhances grid stability and enables various smart grid functions like Vehicle-to-Grid (V2G), Vehicle-to-Everything (V2X), and Building-to-Grid (B2G).
Solar Energy Battery Storage DC Charger ESS Key Features:
Lithium Battery Energy Storage: Our system utilizes high-performance lithium battery groups for efficient energy storage. This allows for optimal utilization of renewable energy sources and enables the system to handle peak load shaving, grid capacity expansion, and new energy resources access. By storing excess energy during low-demand periods, it ensures a stable and reliable power supply during peak demand.
Power Balancing and Optimization: With the integration of local and cloud-based EMS, our system ensures a balanced power supply and usage between the grid, battery, EV charging, and new energy inputs. It intelligently manages energy flows, optimizing resource allocation and minimizing energy waste. This results in reduced energy costs and enhanced grid stability.
Grid Peak Load Shaving: The Energy Storage Charging System plays a crucial role in peak load shaving by storing excess energy during off-peak hours and supplying it back to the grid during high-demand periods. By reducing the strain on the grid during peak times, it helps to maintain grid stability and reliability, while also saving costs associated with peak electricity rates.
Grid Capacity Expansion: By utilizing energy storage and intelligent power management, our system enables grid capacity expansion without the need for costly infrastructure upgrades. It effectively addresses the increasing demand for electricity and supports the integration of more renewable energy sources into the grid.
New Energy Resources Access: Our system provides seamless integration with various new energy resources, such as solar and wind power. It enables efficient utilization of these clean energy sources, reducing dependency on fossil fuels and promoting a sustainable energy ecosystem.
Smart Grid Core Access Point: The Energy Storage Charging System serves as a central access point for smart grid functionalities. With V2G, V2X, and B2G capabilities, it enables bidirectional energy flow between electric vehicles, buildings, and the grid. This allows for optimized energy management, grid stability, and the potential for energy trading and ancillary services.
The Energy Storage Charging System with Lithium Battery Groups is a game-changer in the energy storage and management landscape. It maximizes the value of energy resources, enhances grid stability, and offers advanced smart grid functionalities. Embrace the future of energy with our innovative and intelligent solution.
Solar Energy Battery Storage DC Charger ESS Specification Parameter
| IHS540K2 540kW POWER CUBE | ||||
| AC grid access | AC input voltage | 45-65Hz/3-phases+N+PE/380/480Vac(±10%) | ||
| AC max input power | 360kW | |||
| AC Distribution | AC Grid charging power to Energy Storage Battery is max 120kW, Max. 240kW to EV | |||
| Max AC feedback power (optional) | EES Battery to Grid/EV battery to Grid, depend on the configuration of bidirectional AC2DC | |||
| Energy Storage Battery access | Battery group access | Max 2 groups | ||
| Battery capacity / group | 200kWh /280Ah /627V-806V/0.5 C dis/charge /max 0.75 C discharge 30 min | |||
| Battery charging power from AC Grid | Max 2* 60kW =120kW (4 ACDC power module configuration) | |||
| Battery discharging channel to EV | Max 4 channels | |||
| Battery B2V EV charging power | Max 4* 60kW =240kW (8 DCDC power module configuration) | |||
| Battery to Grid/ B2G feedback power (optional) | Depend on the configuration of bidirectional converter | |||
| Electric Vehicle charging | EV Charging point | Max 4 point with 2 Dispensers | ||
| EV Charging power | Max 360kW | |||
| EV Charging power transfer | Ring net power transfer between the 4 charging point | |||
| EV Charging voltage | 150V-1000V | |||
| Electric Vehicle discharging | EV feedback to AC Grid/V2G power (optional) | Depend on the configuration of the bidirectional AC2DC | ||
| Pv access | Access channel | Max 2 channel | ||
| Access power | Max 2*30kW MPPT | |||
| Metering | AC Grid side | 1 AC energy meter | ||
| HMI | 7"TFT Touch Screen, 5 LED, E-STOP | |||
| Dimensions | W*H*D mm = 1000 * 2200* 1150 mm | Weight: 550+21*18 = 928 kg (Full power modules) | ||
| Off Grid/Backup | Optional function, support backup power for AC bus / Backup power depend on the configuration of the bidirectional AC2DC | |||
Solar Energy Battery Storage DC Charger ESS Advantages:
Sustainable and Renewable Energy: The charger harnesses solar energy, a clean and renewable power source, to charge electric vehicles. By utilizing solar power, it reduces dependency on fossil fuels and helps combat climate change by minimizing carbon emissions.
Energy Independence and Grid Resilience: The integrated battery storage system ensures a reliable power supply for electric vehicles, even during periods of low sunlight or grid outages. It provides energy independence and enhances grid resilience by storing excess solar energy for later use, ensuring continuous charging availability.
Cost Savings and Efficiency: By utilizing solar energy and battery storage, the charger reduces reliance on grid electricity, resulting in decreased charging costs over time. The system optimizes energy usage and charging schedules, maximizing efficiency and minimizing electricity expenses for EV owners.
Versatile and Compatible: The charger is compatible with various electric vehicle models, making it a versatile charging solution for both personal and commercial use. It supports fast and convenient charging, providing high-power output to minimize charging time and accommodate different charging needs.
User-Friendly and Smart Grid Integration: The charger features an intuitive interface that allows users to monitor and control the charging process. It provides real-time data on charging status, energy consumption, and battery storage levels, empowering users to optimize their charging experience. Additionally, the charger is equipped with smart grid connectivity, enabling communication with the power grid to optimize energy flow, adjust charging schedules based on demand and pricing fluctuations, and potentially participate in demand response programs.
Overall, the Solar Energy Battery Storage DC Charger ESS EV Car Charging Station offers sustainable, reliable, and cost-effective charging solutions while promoting energy independence and environmental stewardship.