In this paper, the Unified Power Flow Controller (UPFC) is enhanced with a Chaotic Particle Swarm Optimization (CPSO) Damping Controller in order to mitigate the Low Frequency Oscillations (LFO) in a Single Machine Infinite Bus (SMIB) power system. The designed damping controller is an optimized lead-lag controller, which extracts the speed deviation of the generator rotor and generates the out...

The ongoing decarbonization, and the rapid increase in renewable penetration electric grid, will demand enhanced flexible operational schemes of conventional hydropower plants. This paper explores a grid-connected plant’s best-efficiency operating conditions when meeting energy transition. Power loss models combined with various voltage control methods are investigated for achieving optimal ope...

Numerical methods are proposed for an advanced Poisson-Nernst-Planck-Fermi (PNPF) model for studying ion transport through biological ion channels. PNPF contains many more correlations than most models and simulations of channels, because it includes water and calculates dielectric properties consistently as outputs. This model accounts for the steric effect of ions and water molecules with dif...

–Low frequency electromechanical oscillations are inevitable characteristics of power systems and they greatly affect the transmission line transfer capability and power system stability. Traditionally, power system stabilizers (PSS) are being used to damp these oscillations. Unified Power Flow Controller (UPFC) is a well-known FACTS device that can control power flow in transmission lines. It ...

Power systems are subjected to low frequency disturbances that might cause loss of synchronism and an eventual breakdown of entire system. The oscillations, which are typically in the frequency range of 0.2 to 3.0 Hz, might be excited by the disturbances in the system or, in some cases, might even build up spontaneously. These oscillations limit the power transmission capability of a network an...

Secure power system operation relies extensively on the analysis of transient stability and control. The dynamics involved in control are often complex nonlinear. Most currently existing works approach these frequent problems with nonlinear techniques, leading to a requirement for specific controller parameter adjustments. In veins, this paper proposes new method stabilizing electric systems, u...