-
AboutThe Yuanhe Energy team has been deeply engaged in the fields of energy storage systems, power electronics, and automatic control for many years, boasting over a decade of experience in the energy storage industry. By collaborating with industry partners, they have developed safer, smarter, and more efficient energy storage integration products. The company’s energy storage system integration products and solutions can meet the needs of various application scenarios, including combined frequency modulation for thermal power plants, energy storage supporting new energy generation, user‑side energy storage, and independent shared energy storage power stations. -
SolutionsEnergy storage is a flexible solution for mitigating grid fluctuations caused by renewable energy generation. When deployed at an appropriate scale, energy storage can effectively reduce curtailment rates of wind and solar power, enhancing the grid’s ability to absorb these sources; it can also participate in ancillary services such as peak shaving and frequency regulation, thereby generating additional revenue. -
ProductsThe company’s core business encompasses the R&D, production, and sales of large-scale energy storage system integration products, commercial and industrial energy storage products, and digital energy products, as well as the development, construction, operation, and value‑added services for energy storage power plants. -
ContactLet us join hands to overcome the technological bottlenecks in off‑grid flexible DC power supply, optimize energy storage efficiency, reduce operation and maintenance costs, and deliver clean electricity to every remote corner, jointly creating a bright future of energy inclusivity, green sustainability, and low carbon emissions.
Product Categories
ESS Products
4C-rate lithium titanate batteries paired with a top-mounted liquid cooling unit, featuring individual temperature control for each battery pack, housed in a 20-foot container—ideal for applications such as frequency modulation in thermal power plants, grid frequency regulation, and slope control.
1C-rate lithium iron phosphate battery, top-mounted liquid cooling unit with individual temperature control for each battery pack, housed in a 20-foot container—ideal for applications such as frequency modulation in thermal power plants, grid frequency regulation, and slope control.
Standard 20-foot sea container with a top-mounted liquid cooling system, featuring individual temperature control for each cluster. Capacity can be customized freely.
It employs square lithium iron phosphate 314Ah cells with a long cycle life, paired with a high‑voltage box to form a liquid‑cooled modular battery system that meets the highest standards in terms of safety, reliability, and performance. Suitable for commercial and industrial applications, solar‑storage‑charging systems, microgrids, and other scenarios, this system can be expanded via parallel connection based on site conditions.
It employs square lithium iron phosphate 314Ah cells with a long cycle life and a flexible DC coupling solution featuring a hybrid inverter with redundancy capabilities. The photovoltaic array feeds DC power directly into the DC bus via an MPPT controller, where it is coupled with the energy storage battery system on the DC side, before being converted back to AC power by a centralized hybrid inverter for load use.
It employs square lithium iron phosphate 314Ah cells with a long cycle life and a flexible DC coupling solution featuring a hybrid inverter with redundancy capabilities. The photovoltaic array feeds DC power directly into the DC bus via an MPPT controller, where it is coupled with the energy storage battery system on the DC side, before being converted back to AC power by a centralized hybrid inverter for load use.
It employs square lithium iron phosphate 314Ah cells with a long cycle life and a flexible DC coupling solution featuring a hybrid inverter with redundancy capabilities. The photovoltaic array feeds DC power directly into the DC bus via an MPPT controller, where it is coupled with the energy storage battery system on the DC side, before being converted back to AC power by a centralized hybrid inverter for load use.
It employs square lithium iron phosphate 314Ah cells with a long cycle life and a flexible DC coupling solution featuring a hybrid inverter with redundancy capabilities. The photovoltaic array feeds DC power directly into the DC bus via an MPPT controller, where it is coupled with the energy storage battery system on the DC side, before being converted back to AC power by a centralized hybrid inverter for load use.
Modular container design allows for flexible system capacity configurations, while the distributed top-mounted liquid cooling system is compact, low‑noise, and well suited to a wide range of application scenarios.
Official Video Account
WeChat Official Account
