

- #Power plant simulation software with grid generator#
- #Power plant simulation software with grid code#
The control unit of this trainer allows controlling and operating a speed‐variable double‐feed asynchronous generator.
#Power plant simulation software with grid code#
Critical power system simulation and optimization tasks include: Simulating performance against grid code and ensuring production goals are met.
#Power plant simulation software with grid generator#
The trainer has a modular structure that will grant teachers and students extreme flexibility during the study of the related topics and the performance of the experiments.Īn interactive multimedia software is also available to allow performing the experiments set‐up as well as the visualization and management of the collected data through PC. Power system simulation involves modeling power generation equipment, planning the integration of power plants onto the electric grid, and performing generator control system parameter estimation. This system operates through a brushless machine and the simulation software and the double‐feed asynchronous machine allows a practical and effective approach to this trainer. This trainer allows the students to study the functions and operations of a modern wind power plant simulating the effects of the wind force and their effects on the plant. This latter level is also supplied complete with software for data acquisition and processing.They are dedicated to schools, high schools and first years of university according to the level. Power system simulation involves modeling power generation equipment, planning the integration of power plants onto the electric grid, and performing generator control system parameter estimation. For the high level, different configurations are proposed such as off-grid and on-grid with drive motor (DC or stepper) for indoor use and a trainer tunnel where it is possible to change the flow of the air that reaches the wind turbine performing experiments with or without load. Assess performance and identify parameter settings using power system simulation and optimization. For the medium level, a hybrid trainer can satisfy both the technicians and the installers (a kit based on sub-modules for solar and wind at the same time). For the basic level, a case containing the necessary modules has been designed to learn the first steps of this technology. Here also De Lorenzo has developed many trainers of different levels and one in particular is aimed to a very high level that takes into account the operations of doubly fed induction generator (DFIG) and the fault ride through complete with SCADA software.

The turbine blades are normally designed to capture the kinetic energy in wind and when start moving, they spin a shaft that leads from the hub of the rotor to a generator that turns the rotational energy into electricity. Wind energy captures the natural wind and converts the air’s motion into mechanical energy usually for electricity production and this mechanism is referred to a wind-electric turbine.
