• High-Quality Steam Production: Jet-type steam evaporation ensures steam dryness of over 99.5%.
• Integrated Design: The system is simple, compact, and easy to install.
• High Efficiency and Low Operating Costs: This design offers efficient operation with minimal costs.
• Wide Applicability: Suitable for a range of applications and can operate with standard industrial water.
• Eco-Friendly: The system has zero emissions and is low-carbon, supporting environmental sustainability.
• Multiple Safety Features: The design incorporates several safety mechanisms to ensure reliable and safe operation.

Working Principle:

The boiler uses an internal circulation pump to draw water from the bottom of the boiler body to the nozzle head. Under the influence of gravity, the water is sprayed onto the electrode, creating an electrical circuit. As the unevaporated water flows from the electrode to the secondary electrode, a second electrical circuit is formed. Under maximum rated conductivity, about 3% of the water is converted to steam through these two electrical circuits.

The boiler output is regulated by adjusting the speed of the circulation pump. By altering the pump speed, the amount of water reaching the nozzle can be controlled, allowing the steam pressure to be set at a constant level or maintained within an adjustable power range. This control is managed via a touch screen VFD (Variable Frequency Drive), which adjusts the boiler pressure and load system by modulating the pump speed.

The output can be adjusted flexibly between no-load and full-load conditions, allowing the boiler output to vary according to demand. The transition from no-load to full-load can be achieved within just 5 seconds, though it typically takes 20-30 seconds to stabilize. For hot water generation, the system can be equipped with a heat exchanger connected directly to the boiler, converting steam to hot water. The advantage of this system is that the condensate from the heat exchanger returns to the boiler by gravity, reducing the need for condensate return to a deaeration system, thus improving overall system efficiency.