The reactive power consumed by the transformer is generally about 10% to 15% of its rated capacity, and its no-load reactive power is about 1/3 of the full load. Therefore, in order to improve power factor (PF) of the power system, the transformer should not operate at no-load or in a long-term low-load operation state. Vigorously improving the power factor of transformers, reducing line losses, a...
Hybrid power factor correction Hybrid Active power factor correction systems utilise power electronics and digital control to achieve active reactive current compensation for specific and high performance solutions. YTPQC hybrid power factor correction system is comprised from both capacitor based and Static Var Generator(SVG,Active Power Factor correction). Static Var Generator is use...
The correct compensation capacity is very important for projects, where need to install reactive power compensation device, such as capacitor banks, or Static Var Generator SVG, or Hybrid reactive power compensation device. For new projects: New Projects which are at the design stage: The required compensation capacity (kVAr) can be calculated using Power Factor Calculatation tools. Our YT'...
What are the advantages of YT Static VAR Generator? YTPQC-SVG Static Var Generator is an electronic reactive power compensation system, for both capacitive and inductive power. Our SVG operates by sensing the load current and then injecting or absorbing the reactive power as needed. When the system is capacitive, meaning it produces excess reactive power, YT SVG absorbs reactive power to main...
Hybrid power factor correction refers to a combination of capacitor banks and power electronic converters (such as Active Power Harmonic Filter or Static Var Generator) used to improve power factor and mitigate harmonics in electrical power systems. The advantages of hybrid power factor correction over capacitor banks alone include: Power Factor Correction: Hybrid solutions offer dynamic and preci...
Power quality management in distributed photovoltaic (PV) refers to the measures and strategies employed to ensure the reliable and efficient operation of PV systems while maintaining the quality of electrical power supplied to the grid. Here are some key aspects of power quality management in distributed photovoltaic: Voltage Regulation: PV systems can introduce voltage fluctuations due to the in...
The development of Energy Storage Systems is necessary for a variety of reasons: Integration of Renewable Energy Sources: Energy storage plays a crucial role in the integration of intermittent renewable energy sources like solar and wind power into the electricity grid. These sources produce variable power output based on weather conditions, and energy storage helps mitigate the mismatch between g...
The challenges and countermeasures faced by new power grid? The power grid is a complex and critical infrastructure that delivers electricity to homes, businesses, and industries. The advent of new technologies and changing energy landscape present both challenges and opportunities for the power grid. Here are some of the challenges faced by new power grids, along with potential countermeasures: I...