Closed-Loop Synthetic Inertia Control for Wind Turbine Generators in
Abstract: Following a frequency event in a power system, synthetic inertia control (SIC) of a wind turbine generator (WTG) can improve the frequency nadir by instantly releasing the stored kinetic energy in
Closed-loop systems optimize site-wide wind plant performance
It is now possible to employ a closed-loop system to optimize site-wide performance instead of risking overall AEP by optimizing individual assets alone, says Ed.
Schaeffler Optimizes Wind Turbines Using Closed Loop Engineering
Working in close partnership with turbine and gearbox manufacturers, the company supports wind turbine development through state-of-the art system simulation, realistic test-bench
Closed-loop engineering for wind turbines
Schaeffler relies on the so-called closed-loop engineering approach, which consists of three components, in the design and further development of wind turbines.
More reliable and cost-effective: Schaeffler optimizes wind turbines
Schaeffler uses the closed loop approach in which it drives the development of wind turbines by conducting simulations, realistic test-bench testing and field measurement campaigns in
Wind turbine with closed-loop power transmission
A multi-body dynamical model of a wind turbine power generation system (WTPGS) based on hydromechanical hybrid power transmission (HMHPT) technology is developed and simulated to
Dynamic modelling of wind farms for closed-loop control
Several use cases for the dynamic wind farm simulation methodology are presented, including both open and closed-loop controller design and implementation, with a focus on accumulated fatigue
The Design of Closed Loop Controllers for Wind Turbines
This article reviews the design of algorithms for wind turbine pitch control and also for generator torque control in the case of variable speed turbines. Some recent and possible future developments are
Closed-loop model-based wind farm control using FLORIS under time
This paper presents a novel, closed-loop WF controller that continuously estimates the inflow and maximizes the energy yield of the farm through yaw-based wake steering. The controller
Closed-loop model-predictive wind farm flow control under time
This paper introduces a closed-loop model-predictive wind farm controller using the dynamic engineering model FLORIDyn to maximize the energy generated by a ten-turbine wind farm.
PDF version includes complete article with source references. Suitable for printing and offline reading.