New SVG Compensation Technology Drives New Energy Revolution — Recon Power Delivers Reliable Solutio

As China’s “dual carbon” strategy advances, the installed capacity of new energy continues to rise. The large-scale integration of intermittent sources such as wind and solar power places higher demands on grid stability. Against this backdrop, Static Var Generators (SVG), as the representative of next-generation reactive power compensation technology, are entering a critical period of large-scale adoption. Shanghai Recon Power Electric Technology Co., Ltd., leveraging its deep expertise in reactor technology, has launched a high-performance SVG series, safeguarding stable new energy grid operation withexceptional reliability and innovative technology.

The New Energy Wave Drives SVG Demand

By 2025, China’s wind and solar installed capacity has exceeded 1.2 billion kW, accounting for over 30% of total capacity. However, the volatility and randomness of new energy generation have led to increasingly prominent issues such as grid voltage fluctuations and reactive power deficits. Traditional capacitor-reactor combinations suffer from slow response and low precision, struggling to meet the real-time control requirements of high-proportion renewable energy grids.

New SVG technology achieves millisecond-level fast reactive power compensation through fully-controlled power electronic devices, offering bidirectional continuous regulation capability. It effectively suppresses voltage flicker, improves power quality, and enhances transmission efficiency. Industry forecasts predict the SVG market will maintain annual growth exceeding 25% over the next three years.

Recon Power: Technology Excellence Drives Product Superiority

Shanghai Recon Power hasbeen deeply engaged in the power equipment manufacturing industry for years. From traditional reactors to intelligent SVG systems, the company consistently drives product upgrades through technological innovation. The SVG series products feature the following core advantages:

1. Fully Self-Controlled Power Chain: From IGBT modules and driver circuits to control systems, all components are independently developed and designed, ensuring product consistency and long-term reliability.

2. Adaptive Intelligent Algorithm: Deep learning-based voltage prediction and harmonic identification technology enables grid state prediction 50ms in advance, achievingadvance compensation with response time ≤5ms.

3. Efficient Cooling and Compact Design: Patented liquid-air hybrid cooling system reduces equipment volume by 30% while increasing power density by 40%, making it ideal for distributed new energy station deployment.

4. Multi-Scenario Platform: The same hardware platform adapts to wind, solar, EV charging, and industrial motor applications through software configuration, reducing spare parts inventory and maintenance costs.

Reliability Validation: Comprehensive Assurance from Lab to Field

All materials undergo 72 environmental stress screening tests including -40°C~150°C temperature cycling, humidity, and salt spray. Reactor units are tested under 2000-hour full-load temperature rise, lightning impulse, and short-circuit withstand conditions. The complete system passes 360-hour continuous full-power cycle tests in the laboratory, achieving MTBF exceeding 150,000 hours. Over 300 SVG units already deployed are monitored in real-time via the company’s IoT platform, with annual failure rates below 0.3%.

Case Study: Stable Operation in Harsh Environments

At a 200MW wind farm in Inner Mongolia, Recon SVG equipment has operated continuously for 28 months, enduring sandstorms, extreme low temperatures (-35°C), and grid faultride-through events, maintaining power factor above 0.99 and reducing annual wind curtailment losses by approximately 12 million kWh.

In an industrial park in Jiangsu, 12 SVG units operating in coordination reduced total harmonic distortion from 8.7% to 2.1%, saving the enterprise over 2 million RMB annually in power factor adjustment fees.

Future Outlook: Embracing the Smart Grid Era

Shanghai Recon Power is collaborating with universities and research institutes to develop next-generation “SVG+storage” integrated frequency and voltage regulation systems, while actively exploring AI applications in grid optimization control.