Understanding Harmonic Loss and Its Impact on Power Quality Power quality is crucial for determining the efficiency of any motor. Several key parameters of power quality include harmonics, voltage unbalance, and voltage fluctuations. In an alternating current (AC) system, voltage potential and the current through the load circuit are described in terms of frequency and amplitude. The...
How to calculate THD and PF? Total Harmonic Distortion (THD) Analysis and Power Factor Evaluation Within this discussion, we'll explore methodologies for gauging total harmonic distortion alongside computations for power factor. Total Harmonic Distortion (THD) is a metric reflecting the amalgamation of harmonic frequencies juxtaposed against the primary frequency—such as 60Hz—on...
Introduction This blog compares harmonic mitigation techniques across various applications in real time. It examines different aspects of active and passive series and shunt filters, focusing on reducing harmonic loading in drive systems. It discusses the pros and cons of parallel and series approaches, as well as active and passive solutions, supplemented by practical results from several case st...
Electricity penalty and poor power quality Penalties from Electricity Companies for Poor Power Quality Electricity companies may impose penalties on consumers for various reasons related to poor power quality events. These penalties are typically intended to encourage better power usage practices and to ensure the stability and reliability of the electrical system. Here are some common problems fo...
Overview As regulatory authorities impose ever-stricter requirements for power quality, utilities increasingly want to know which customer is imposing harmonics and flicker on the utility power system. As a result, we are often asked if we can determine the “direction” of harmonic power flow, and what can be done about flicker. Harmonic Power Flow Harmonics, like fundamental frequencie...
How does power quality affect motors? Understanding the significance of power quality in the context of motor and electrical equipment efficiency is crucial. Power quality is evaluated through several key parameters, including harmonics, voltage unbalance, and voltage fluctuations. In an alternating current (AC) system, the interaction between voltage potential and current through th...
Harmonic Resonance Evaluation for Capacitor Banks Abstract: A utility operates feeder and substation capacitor banks on a 25.56kV distribution feeder. The utility uses frequency scan simulations to determine the effect of distribution feeder and substation capacitor banks on harmonic resonance and frequency response characteristics. It is assumed that the simulations will show that the f...
Introduction The best distribution system is one that will, cost-effectively and safely, supply adequate electric service to both present and future probable loads. The function of the electric power distribution system in a building or an installation site is to receive power at one or more supply points and to deliver it to the individual lamps, motors and all other electrically operated devices...