Home – Project Detail
Application:
· Energy Storage (V2G for Electric Vehicle Energy Storage):
With the increasing number of electric vehicles, it is predicted that by 2030, there will be 80 million electric vehicles globally. Massive amounts of electric vehicles can serve as flexible loads on the user side and distributed power generation devices. V2G enables bidirectional energy flow between electric vehicles and the power grid, allowing electric vehicle owners to charge during off-peak hours and discharge during peak hours to take advantage of price differentials. It enhances load flexibility, reduces distribution network investments, and promotes the integration of clean energy. Moreover, it contributes to the development of the electric vehicle industry and reduces the land occupation of public charging facilities.
| Product name | Bidirectional ACDC power energy system | |
| Product model | BIM300100-180KW | |
| Charging | ||
|
AC side parameter |
Rated grid voltage | 400Vac (380/400/415Vaccanset) |
| Grid voltage range | 304Vac~485Vac | |
| Grid voltage frequency | 50/60±5% (50Hz/60Hz Both modesself-adaption) | |
| Voltage systems | Three-phasefour-wire (3W+PE) | |
| Input current | ≤348A | |
| powerfactor | ≥0.99,full load | |
| Currentharmonics | <3%,full load | |
|
Battery side parameter |
Outputvoltage | 100~300VDC,rated150VDC |
| Output rated current | 1200A | |
| Rated power | 180kW | |
| Power derating | 304Vac~485Vac input,full load output | |
| Chargeefficiency | 95%max (Use SiC components) ,94% (Use Si components) | |
| Stabilized voltage
precision |
±0.5% | |
| Stabilized current
precision |
± 1% | |
| Ripplefactor | <1%Vo | |
| Discharging | ||
| Battery
side parameter |
Rated grid voltage | 100~300VDC |
| Discharging current | 1200A Max | |
|
AC side parameter |
V2G(on-grid discharging) | |
| Grid voltage range | 304Vac~485Vac | |
| Grid voltage frequency | 50/60±5%(50Hz/60HzBoth modesself-adaption) | |
| Outputpower | 180kW | |
| Efficiency | 95%max (Use SiC components) ,94% (Use Si components) | |
| Other feature | ||
|
Protect function |
OV protection | Available |
| OC protection | Available | |
| SC protection | Available | |
| OT protection | Available | |
|
Other parameter |
Operating temperature | -30~65℃,55℃ above output power derating |
| Storage temperature | -40~75℃ | |
| Noise | <60dB | |
| Size | 600*800*1500mm | |
| Weight | 260Kgs | |
SunCare Hospital, a leading healthcare institution committed to sustainable operations and patient well-being, partnered with us to transition its energy source to solar. The project involved the full design and installation of a customized solar power system to reduce operating costs, increase energy reliability, and support the hospital's green initiatives.
This project was designed to meet the hospital’s energy needs while promoting sustainability, reducing costs, and ensuring uninterrupted service for patients and essential medical operations.
We provided a complete solar solution tailored to the hospital’s needs, ensuring performance, safety, and long-term energy savings without disrupting daily operations.
We analyzed usage patterns and infrastructure to design a system that meets specific energy needs.
Our team installed efficiently with zero interruption to hospital operations and strict safety procedures.
We created a solar layout that maximizes efficiency while matching the hospital’s structure and goals.
We integrated smart monitoring and backup support to ensure continuous power for critical medical equipment.
This project is more than just an energy upgrade, it is a commitment to health, sustainability, and community leadership. The SunCare Hospital solar installation reflects how renewable energy can enhance essential services without compromise.
Solarize brings cutting-edge clean energy solutions to life, empowering homes, businesses, and public spaces with sustainable power that transforms everyday living.
