By Application
Cement Plant
Cement plants operate with heavy electrical equipment such as crushers, ball mills, conveyors, and large induction motors, which results in a low power factor and high reactive power demand. The extensive use of VFDs on fans and conveyors generates harmonics, leading to transformer overheating and frequent capacitor bank failures. Power quality solutions such as Static VAR Generators (SVG) provide fast and dynamic power factor correction, while Active Harmonic Filters (AHF) eliminate harmonics, improving system stability, efficiency, and equipment life.
We identify these challenges and provide practical, results-driven solutions tailored to your needs.
Steel Plant
In a steel plant, power quality issues commonly arise due to heavy and fluctuating electrical loads such as induction furnaces, arc furnaces, rolling mills, welding machines, and VFD-driven motors. These non-linear and rapidly changing loads generate high current harmonics, poor and unstable power factor, voltage fluctuations, flicker, transformer overheating, capacitor bank failures, and frequent breaker tripping. As a result, the plant faces higher electricity bills, power factor penalties, reduced transformer capacity utilization, and increased maintenance costs. To address these challenges, an Active Harmonic Filter (AHF) is used to dynamically eliminate harmonic currents and maintain THD within permissible limits, while an IGBT-based Static VAR Generator (SVG) provides instant and continuous reactive power compensation to maintain near-unity power factor even under sudden load variations. Together, AHF and SVG ensure a stable, efficient, and reliable electrical system for uninterrupted steel production.
We identify these challenges and provide practical, results-driven solutions tailored to your needs.
Plastic & Injection Moulding Industry
We identify these challenges and provide practical, results-driven solutions tailored to your needs.
Hospitals
We identify these challenges and provide practical, results-driven solutions tailored to your needs.
Data Centers
Data centres operate with a large number of servers, UPS systems, and SMPS-based loads that generate very high current harmonics and total harmonic distortion (THD). These harmonics cause overheating of transformers, cables, and panels, leading to energy losses and reduced system reliability. Active Harmonic Filters control harmonic distortion, improve power quality, and ensure high efficiency and maximum uptime for data centre operations.
We identify these challenges and provide practical, results-driven solutions tailored to your needs.
Shopping Malls
Shopping malls use HVAC systems, escalators, elevators, lighting, and IT loads, many of which are driven by VFDs. These systems result in low power factor, harmonic distortion, and power factor penalties imposed by utilities. Static VAR Generators dynamically improve power factor, while Active Harmonic Filters reduce harmonics, helping malls lower electricity bills and maintain a reliable electrical system.
We identify these challenges and provide practical, results-driven solutions tailored to your needs.
Solar Power Plants
Solar power plants use inverter-based generation systems that introduce harmonics and cause reactive power fluctuations. Without proper power quality control, these issues can lead to grid code non-compliance and voltage instability. SVGs provide dynamic reactive power and voltage regulation, while Active Harmonic Filters suppress inverter-generated harmonics, ensuring grid stability and compliance.
We identify these challenges and provide practical, results-driven solutions tailored to your needs.
Metro / Railway Systems
Metro and railway systems involve traction loads, converters, and power electronics that cause sudden load variations and generate harmonics. These issues lead to voltage fluctuations and poor power factor, affecting system reliability. SVGs provide fast reactive power compensation, and Active Harmonic Filters mitigate harmonics, ensuring stable and reliable operation of rail infrastructure.
We identify these challenges and provide practical, results-driven solutions tailored to your needs.
DG Sets
When DG sets supply power to non-linear loads such as UPS systems, VFDs, and rectifiers, harmonics and voltage instability are introduced. These issues cause generator overheating, poor fuel efficiency, and frequent tripping. Active Harmonic Filters reduce harmonic distortion, while SVGs stabilize voltage and power factor, improving DG set performance and extending equipment life.
We identify these challenges and provide practical, results-driven solutions tailored to your needs.
