Effective management of reactive power is essential for optimizing electrical installations, reducing energy consumption, and improving system performance.
We help industrial clients improve the reliability and efficiency of their electrical networks:
- We conduct comprehensive power system analysis.
- We install equipment for reactive power compensation and optimization — reducing reactive power charges by up to 97%.
- We provide solutions to eliminate harmonic distortion and network imbalance.
- We offer solutions that help prevent voltage flicker, which can damage equipment and cause significant losses.
Solutions:
SVG
(Static Var Generator)
100 – 400 kVar
– Ultra-fast response: <10 ms.
– Power factor maintained above 0.98 even under fluctuating loads.
– Individual phase compensation.
– Compensation for both inductive and capacitive loads.
– Dynamic real-time reactive power control.
– Lower maintenance costs — fewer failures and overheating mean less downtime and lower repair expenses.
– Power factor maintained above 0.98 even under fluctuating loads.
– Individual phase compensation.
– Compensation for both inductive and capacitive loads.
– Dynamic real-time reactive power control.
– Lower maintenance costs — fewer failures and overheating mean less downtime and lower repair expenses.
APF 
(Active Harmonic Filter) 
150 – 600 A
– Universal solution for harmonic filtering and reactive power compensation.
– Reduced risk of equipment overheating and extended service life (transformers, motors, converters, capacitors).
– RMS current reduction.– Individual phase compensation.
– High adaptability to rapidly changing loads.
– Lower failure risk and frequency caused by harmonic-induced vibrations, measurement inaccuracies, or controller malfunctions.
– Improved power factor and reduced unnecessary current.
– Reduced risk of equipment overheating and extended service life (transformers, motors, converters, capacitors).
– RMS current reduction.– Individual phase compensation.
– High adaptability to rapidly changing loads.
– Lower failure risk and frequency caused by harmonic-induced vibrations, measurement inaccuracies, or controller malfunctions.
– Improved power factor and reduced unnecessary current.
HRGKS 
(Engineer Hybrid Reactive Power Compensator)
200–400 kVAr
– Hybrid reactive power compensation.
– Combines a capacitor bank with an SVG unit.
– Optimized capacitor bank control.
– Efficient reactive power management.
– No harmonic distortion risk.
– Real-time compensation for both capacitive and inductive power.
– No need for different step sizes.
– Compact and easily expandable solution.
– Combines a capacitor bank with an SVG unit.
– Optimized capacitor bank control.
– Efficient reactive power management.
– No harmonic distortion risk.
– Real-time compensation for both capacitive and inductive power.
– No need for different step sizes.
– Compact and easily expandable solution.
Upgrade of the existing system to a hybrid system
– Upgrading the client’s existing system by integrating additional equipment.
– A customized solution tailored to the client’s specific needs, existing system performance, and reliability.
– A customized solution tailored to the client’s specific needs, existing system performance, and reliability.
AVC 
(Active Voltage Conditioner)
– Real-time voltage stabilization ensuring steady voltage even during sudden grid fluctuations.
– Protection against overvoltage and voltage sags.
– Precise voltage control with ±1% accuracy, ensuring high-quality power for sensitive electronics.
– Reduced equipment failure risk and extended service life of transformers, converters, motors, and other components.
– Easy integration with existing power distribution systems.
– Protection against overvoltage and voltage sags.
– Precise voltage control with ±1% accuracy, ensuring high-quality power for sensitive electronics.
– Reduced equipment failure risk and extended service life of transformers, converters, motors, and other components.
– Easy integration with existing power distribution systems.





