Customizing Your Water Cooled Reactor
The water-cooled reactors are a technical solution particularly suitable for applications involving high currents or where space is limited. The conductor may be cooled internally with a liquid refrigerant (direct cooling) or simply pass through cooling plates in contact with the conductor (indirect cooling), where the liquid is made to circulate (indirect cooling).
This type of cooling system allows heat to be dissipated away from the points of installation and has the advantage of providing compact solutions in protected enclosures, despite the high concentration of power involved. SHINENERGY can manufacture water-cooled transformers and inductors handling up to 50kA.
Why choose Shinenergy's Water-Cooled Reactor?
Shinenergy Water-Cooled Reactor utilizes advanced water-cooling technology to ensure excellent heat dissipation, effectively reduce temperature rise, and enhance equipment life and reliability.
Compared with traditional air-cooled solutions, Shinenergy water-cooled reactors offer a more compact design, lower noise and higher power density for high current and high load environments. With excellent performance and stability, Shinenergy is committed to providing customers with efficient and reliable power solutions.
Rated Capacity
Shinenergy provides isolation transformers with a rated capacity of up to 3000kVA, offering powerful, customized solutions for your needs. Trust us for maximum efficiency and reliability in all your operations.
From 110V to 10kV, multiple power levels can be freely switched to help you manage various power needs.
Flexible single-phase/three-phase options to easily meet a variety of power system configurations.
Up to 5000A strong load carrying, easy to cope with the challenge of high load.
Supports high-frequency operation up to 25 kHz, responding precisely to high-speed signal requirements.
The use of high-quality materials and advanced technology guarantees long-lasting durability and ensures stable operation of the system for many years.
Shinenergy's Certifications and Professional Services
Wind Energy | Maximizing Efficiency, Minimizing Downtime
Shinenergy’s water-cooled reactor is built for wind power systems, offering superior cooling, low energy loss, and extreme weather resistance. With high current capacity and long lifespan, it enhances energy conversion, reduces maintenance, and ensures stable wind farm operations.
Industrial Power | Unmatched Performance for Heavy-Duty Applications
From high-power inverters to motor drives and smart manufacturing, Shinenergy’s water-cooled reactor delivers exceptional heat resistance, ultra-low noise, and strong overload capacity. Designed for high-frequency, high-load operations, it optimizes energy efficiency while reducing operational costs.
Marine Excellence | Reliable Power in Extreme Environments
Engineered for offshore wind, electric propulsion, and shore power, Shinenergy’s reactor withstands corrosive marine conditions, high humidity, and intense vibrations. Its compact, high-power-density design ensures reliable, energy-efficient performance on the high seas.
Rail Transit | Smarter, Safer, and More Efficient Transport
Designed for metros, high-speed rail, and light rail systems, Shinenergy’s reactor offers high power density, precision energy regulation, and ultra-quiet performance. By optimizing power flow and enhancing system reliability, it ensures seamless, energy-efficient transport solutions.
Data Centers | High-Efficiency Cooling for Maximum Uptime
In mission-critical data centers, Shinenergy’s reactor utilizes intelligent thermal management, low-loss core materials, and high-efficiency design. With low noise, extended lifespan, and modular adaptability, it ensures stable, high-performance power supply for today’s digital world.
Releted Products
Shinenergy’s big current AC reactor is one type of AC reactor with a rated current of 1400A, rated current means it could handle the relative load, mainly applied for the commercial PV inverters of the power station.
Shinenergy’s AC reactor or line reactor is one kind of traditional product, its main function is to prevent harmonic interference of the power grid.
Shinenergy’s input reactor is connected between the power supply and the inverter. It can limit the current impact caused by the sudden change of the grid voltage and the operating overvoltage, effectively protect the inverter and improve the power factor of the inverter, and suppress the harmonics of the inverter input grid. electric current.
Data Sheet
- Data Sheet
- Shinenergy Product Catalog
| Feature | Specifications |
| Power Ratings | from 110V-10kV |
| Phase Options | Single-phase or three-phase |
| Current Capacity | Up to 5000A |
| High-Frequency Applications | up to 25 kHz |
| Enclosure Types | Any type of enclosure |
Water-cooled reactors offer superior heat dissipation, higher power density, and lower noise levels, making them ideal for high-power applications and confined spaces.
They are widely used in wind energy, industrial automation, marine systems, rail transit, and data centers, where efficient cooling and high reliability are critical.
By effectively reducing thermal stress and preventing overheating, the water-cooling system extends the reactor’s service life and enhances long-term operational stability.
No, they are designed with durable materials and optimized cooling circuits that minimize maintenance needs, ensuring long-term reliability with proper water quality management.
Proper cooling water circulation, compatible voltage and frequency settings, and secure mounting are essential to ensure optimal performance and safety.
Why Choose a Water-Cooled Transformer? The Key Advantages
In high-power electrical systems, efficient heat dissipation is crucial to maintaining stable performance and prolonging equipment lifespan. Water-cooled transformers have become a preferred choice for demanding applications due to their exceptional cooling efficiency, compact design, and superior reliability. Here’s why they stand out:
1. Superior Heat Dissipation
Unlike traditional air-cooled transformers, water-cooled transformers utilize circulating water to efficiently remove excess heat, preventing overheating and ensuring optimal performance even under high-load conditions. This enhanced cooling capability allows for continuous operation in environments where temperature control is critical.
2. Higher Power Density & Compact Design
Water-cooled transformers support higher power levels in a smaller footprint, making them ideal for space-constrained installations such as offshore platforms, data centers, and industrial plants. Their compact design allows for more flexible integration into modern power systems.
3. Reduced Noise & Improved Environmental Adaptability
Thanks to the elimination of cooling fans, water-cooled transformers operate at significantly lower noise levels compared to air-cooled alternatives. This makes them particularly suitable for urban environments, marine applications, and data centers, where noise reduction is a priority.
4. Enhanced Energy Efficiency & Lower Operating Costs
With reduced thermal losses and optimized cooling, water-cooled transformers improve energy efficiency, leading to lower energy consumption and reduced operational costs over time. Their ability to maintain stable temperatures ensures consistent performance with minimal energy waste.
5. Longer Service Life & Reliable Performance
By effectively managing heat dissipation, water-cooled transformers minimize thermal stress on internal components, significantly extending their operational lifespan. This makes them a more reliable and cost-effective solution for long-term energy applications.