Renewable energies are clean and have almost unlimited resources provided by nature. Due to their indigenous nature, they help to reduce a country's dependence on external supplies, reduce the risk of a poorly diversified supply and promote the development of new technologies and job creation.
AEL-WPTC Применение ветроэнергии с постоянными магнитами синхронного генератора, с SCADA
ИННОВАЦИОННЫЕ СИСТЕМЫ
The Wind Power Application with Permanent Magnets Synchronous Generator, with SCADA, "AEL-WPTC", has been designed to study the conversion of wind energy into electricity by means of a permanent magnet synchronous generator.
Расширения
НОВОСТИ ПО ТЕМЕ
ОБЩЕЕ ОПИСАНИЕ
The Wind Power Application with Permanent Magnets Synchronous Generator, with SCADA, "AEL-WPTC", has been designed to study the conversion of wind energy into electricity by means of a permanent magnet synchronous generator. This application allows the user to understand the structure and working of the different control, regulation and storage devices used in real wind systems.
The "AEL-WPTC" application includes a three-phase permanent magnet synchronous generator together with a servomotor and its control module, with the goal of studying electrical energy generation through the simulation of a real wind turbine. For that purpose, the application also includes an inverter and a regulator, as control and regulating devices, a battery, as storage device, and a series of AC and DC loads, as consumption elements of the generated power.
In order to carry out advanced tests with the permanent magnet generator, it is recommended to acquire the Control and Data Acquisition System Software for Electrical Machines, "EM-SCADA", which allows monitoring the operation mechanical parameters (torque, rotational speed) and the electrical parameters (voltage, current, powers, power factor...) to obtain the characteristic curves and operation points of the electrical machine under study.
Lastly, it is offered the opportunity to acquire a real small-size permanent magnets wind turbine to gain more experience in the study of the wind turbines and its working.
УПРАЖНЕНИЯ И ПРИМЕРЫ С ИНСТРУКЦИЯМИ
РУКОВОДСТВО ПО ПРАКТИЧЕСКИМ УПРАЖНЕНИЯМ ВКЛЮЧЕНО В РУКОВОДСТВО ПОЛЬЗОВАТЕЛЯ
- Start-up and working of the permanent magnets synchronous generator.
- Structure and operation of a wind power plant.
- Study of the energy storage and system optimization.
- Operation and working characteristics with different wind speeds and load.
- Design and operation of a wind power plant in island mode for the generation of AC current.
БОЛЬШЕ ПРАКТИЧЕСКИХ УПРАЖНЕНИЙ ДЛЯ РАБОТЫ С УСТРОЙСТВОМ
Some possible practices with optional Data Acquisition Software, EMSCADA:
- Real time torque monitoring.
- Real time speed monitoring.
- Real time monitoring of current, voltage and power values.
- Real time monitoring of current and voltage waveforms.
- Electrodynamic study of the motor/generator.
- Obtaining characteristic curves (torque-velocity curve, torquecurrent curve, etc.) and working points for operating conditions.
- Real time monitoring of the results.
- Obtaining stored results.
Other possibilities to be done with this Unit:
- Many students view results simultaneously. To view all results in real time in the classroom by means of a projector or an electronic whiteboard.
- The Computer Control System with SCADA allows a real industrial simulation.
- This unit is totally safe as uses mechanical, electrical/electronic, and software safety devices.
- This unit can be used for doing applied research.
- This unit can be used for giving training courses to Industries even to other Technical Education Institutions.
- Several other exercises can be done and designed by the user.
АНАЛОГИ ОБОРУДОВАНИЯ В НАЛИЧИИ
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
EEE
The Wind Energy Unit, "EEE", contains an aerogenerator, in laboratory-scale, and is used to study the conversion of kinetic wind energy into electrical energy and to study the influence of some factors on this generation.The unit consists of a...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
EEEC
Управляемое компьютером устройство ветровой энергии
The Computer Controlled Wind Energy Unit, "EEEC", contains an aerogenerator, in laboratory-scale, and is used to study the conversion of kinetic wind energy into electrical energy and to study the influence of some factors on this generation.The...
5.3.1.- ФОТОЭЛЕКТРИЧЕСКАЯ СОЛНЕЧНАЯ ЭНЕРГИЯ
EESFC
Устройство фотогальванической солнечной энергии, управляемое ПК
The Computer Controlled Photovoltaic Solar Energy Unit, "EESFC", includes equipment that uses the photo-conversion law for the direct conversion of solar radiation into electricity. The absorbed energy is provided by simulated solar radiation,...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
MINI-EEEC
Базовое оборудование для ветровой энергетики, управляемое с компьютера (ПК)
The Computer Controlled Wind Energy Basic Unit, "MINI-EEEC", is a small-scale unit designed to study wind energy and the influence of some factors on its generation.This unit consists of a transparent tunnel, a wind turbine with rotor to place up...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
MINI-EEE
Базовое устройство Ветровой энергии
The Wind Energy Basic Unit, "MINI-EEE", is a small-scale unit designed to study wind energy and the influence of some factors on its generation.This unit consists of a transparent tunnel, a wind turbine with rotor to place up to six blades and a...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
AEL-WPT
Применение ветроэнергии с постоянными магнитами синхронного генератора
Considering the above, this application allows experimental investigation on the conversion of wind energy into electricity by means of a wind power generator. The system configuration is stand-alone (isolated from the grid). The equipment is...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
AEL-WPPI
Применение ветрогенераторов с индукционным генератором
The Wind Power Plants with Induction Generator Application, "AEL-WPPI", has been developed by EDIBON to study the wind turbines electrical performance with three-phase induction generators of squirrel cage that inject power in the network.Wind...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
AEL-SWT
Применение ветряных турбин в изолированных сетях
The Stand-Alone Wind Turbine Aplication, "AEL-SWT", has been designed by Edibon for the training at both the theoretical and practicallevels in the field of wind turbines.The "AEL-SWT" application provides several levels of training to give the...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
AEL-WPPIC
Применение ветряных электростанций с индукционным генератором, управляемых с компьютера (ПК)
The Computer Controlled Wind Power Plants Application with Induction Generator, "AEL-WPPIC", has been designed by EDIBON to study of the main characteristics and behavior of the induction generators used in wind turbines which inject the generated...
ДОПОЛНИТЕЛЬНОЕ ОБОРУДОВАНИЕ
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
AEL-WPP
Применение ветровых электростанций с двойной индукцией питания асинхронного генератора
The Wind Power Plants with Double Feed Induction Generator Application, "AEL-WPP", is used to investigate the design and operation of modern wind power stations. The "AEL-WPP" consists of a prime motor that moves a double-feed induction generator...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
AEL-WPT
Применение ветроэнергии с постоянными магнитами синхронного генератора
Considering the above, this application allows experimental investigation on the conversion of wind energy into electricity by means of a wind power generator. The system configuration is stand-alone (isolated from the grid). The equipment is...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
AEL-WPPIC
Применение ветряных электростанций с индукционным генератором, управляемых с компьютера (ПК)
The Computer Controlled Wind Power Plants Application with Induction Generator, "AEL-WPPIC", has been designed by EDIBON to study of the main characteristics and behavior of the induction generators used in wind turbines which inject the generated...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
AEL-WPPI
Применение ветрогенераторов с индукционным генератором
The Wind Power Plants with Induction Generator Application, "AEL-WPPI", has been developed by EDIBON to study the wind turbines electrical performance with three-phase induction generators of squirrel cage that inject power in the network.Wind...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
AEL-SWT
Применение ветряных турбин в изолированных сетях
The Stand-Alone Wind Turbine Aplication, "AEL-SWT", has been designed by Edibon for the training at both the theoretical and practicallevels in the field of wind turbines.The "AEL-SWT" application provides several levels of training to give the...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
SWPC
Приложение для Насосов в Отдельных Сетях, Управляемое компьютером (ПК)
The Computer Controlled Single Water Pumping Application, "SWPC", has been designed by Edibon to show the user the basic principles of operation of pumping equipment in isolated networks, exposing in a didactic way the elements involved in the...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
SWP
Stand-alone Water Pumping Application
The Water Pumping Application, "SWP", has been designed by Edibon to show the user the basic principles of operation of pumping equipment in isolated networks, exposing in a didactic way the elements involved in the process of generation and...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
EEEC
Управляемое компьютером устройство ветровой энергии
The Computer Controlled Wind Energy Unit, "EEEC", contains an aerogenerator, in laboratory-scale, and is used to study the conversion of kinetic wind energy into electrical energy and to study the influence of some factors on this generation.The...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
EEE
Устройство ветровой энергии
The Wind Energy Unit, "EEE", contains an aerogenerator, in laboratory-scale, and is used to study the conversion of kinetic wind energy into electrical energy and to study the influence of some factors on this generation.The unit consists of a...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
MINI-EEEC
Базовое оборудование для ветровой энергетики, управляемое с компьютера (ПК)
The Computer Controlled Wind Energy Basic Unit, "MINI-EEEC", is a small-scale unit designed to study wind energy and the influence of some factors on its generation.This unit consists of a transparent tunnel, a wind turbine with rotor to place up...
5.3.3.- ВЕТРЯНАЯ ЭНЕРГИЯ
MINI-EEE
Базовое устройство Ветровой энергии
The Wind Energy Basic Unit, "MINI-EEE", is a small-scale unit designed to study wind energy and the influence of some factors on its generation.This unit consists of a transparent tunnel, a wind turbine with rotor to place up to six blades and a...