AEL-SAPV Stand-Alone Photovoltaic Application

5.3.1.- PHOTOVOLTAIC SOLAR ENERGY
STAND-ALONE PHOTOVOLTAIC APPLICATION - AEL-SAPV

INNOVATIVE SYSTEMS

The Stand-Alone Photovoltaic Application, "AEL-SAPV", has been designed by EDIBON to study the energy production obtained with photovoltaic panels.

See general description

Expansions

ICAI

Interactive Computer Aided Instruction Software

RELATED NEWS

Laboratory supported by Official College of Technical Industrial Engineers (Spain)
Laboratory supported by Official College of Technical Industrial Engineers (Spain)
At EDIBON, we reaffirm our commitment to the advancement of clean and renewable energy, with a special focus on green hydrogen as a key driver for a more sustainable future. We are proud to have been selected to equip the first Green Hydrogen Laboratory in the Region of Murcia, a pioneering space...
Read more
Recycling and energy storage systems
Recycling and energy storage systems
The shift towards electric vehicles (EVs) has gained considerable momentum worldwide, promising a reduction in greenhouse gas emissions and a path to a more sustainable future. However, as the demand for EVs accelerates, so too does the need for large quantities of essential minerals, such as...
Read more
EDIBON and its commitment to European Skills
EDIBON and its commitment to European Skills
At EDIBON, we are committed to strengthening skills as a strategic pillar for the competitiveness and social well-being of the European Union. Proper training not only boosts the economy but also enables individuals to fully participate in society and democracy.
Read more
What is the Green Hydrogen?
What is the Green Hydrogen?
Green hydrogen, also called renewable hydrogen, is hydrogen obtained by using renewable energies in its production. Hydrogen is not a primary energy source but an energy carrier, it requires a chemical process for its production. Green hydrogen is...
Read more

General Description

The Stand-Alone Photovoltaic Application, "AEL-SAPV", has been designed by EDIBON to study the energy production obtained with photovoltaic panels.

This application will provide the user with the knowledge and the essential skills about the photovoltaic panel operation and the components that take part in the production of electrical energy from solar energy. For this purpose, the unit includes a specific manual explaining, at a theoretical level, the relative aspects to the components of this system such as the charge controller and the current inverter. Furthermore, a series of included and recommended modules are provided for the implementation of these theoretical concepts such as the powering of DC and AC loads from solar energy.

The mobile and orientable panel allows the study of different generation conditions by changing the solar angle of incidence. In addition, the equipment includes lamps that allow studying variations in the intensity of radiation and obtaining different characteristic curves of the solar panel. In this way, the practical exercises can also be carried out independently of the weather conditions.

Exercises and guided practices

GUIDED PRACTICAL EXERCISES INCLUDED IN THE MANUAL

  1. Wiring of the photovoltaic installation.
  2. Measurement of solar irradiation.
  3. Measurement of the open-circuit voltage.
  4. Measurement of the short-circuit current.
  5. Obtaining the I-V characteristic curve of the photovoltaic panel.
  6. Finding the MPP for the panel under the previously established conditions.
  7. Study of the influence of the solar irradiation on energy production.
  8. Study of the inclination angle of the panel in the production of energy.
  9. DC isolated photovoltaic installation and study of the consumption of electrical loads.
  10. AC stand-alone photovoltaic installation and study of the consumption of electrical loads.
  11. Study of the battery charge/discharge operation.
  12. Study of inverter losses.
  13. Several other exercises can be done and designed by the user.

SIMILAR UNITS AVAILABLE

PHOTOVOLTAIC SOLAR ENERGY UNIT - EESFB
  • EESFB
Available
5.3.1.- PHOTOVOLTAIC SOLAR ENERGY
EESFB
Photovoltaic Solar Energy Unit
The sun provides a wide spectrum of solar power. With the exception of the light we see around us every day, the rest of the solar power is invisible. Other parts of the spectrum consist of cosmic beams, gamma rays, x-rays, ultraviolet light,...
View Unit
COMPUTER CONTROLLED PHOTOVOLTAIC SOLAR ENERGY UNIT - EESFC
  • EESFC
Available
5.3.1.- PHOTOVOLTAIC SOLAR ENERGY
EESFC
Computer Controlled Photovoltaic Solar Energy Unit
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,...
View Unit
PHOTOVOLTAIC SOLAR ENERGY MODULAR UNIT (COMPLETE VERSION) - MINI-EESF
  • MINI-EESF
Available
5.3.1.- PHOTOVOLTAIC SOLAR ENERGY
MINI-EESF
Photovoltaic Solar Energy Modular Unit (Complete Version)
Photovoltaic Solar Energy Modular Unit (Complete Version), "MINI-EESF", is a laboratory scaled unit designed to study all the parameters involved in the solar radiation direct conversion into electricity. The unit is based on some application...
View Unit
PHOTOVOLTAIC SOLAR ENERGY MODULAR UNIT (INTERMEDIATE VERSION) - MINI-EESF/M
  • MINI-EESF/M
Available
5.3.1.- PHOTOVOLTAIC SOLAR ENERGY
MINI-EESF/M
Photovoltaic Solar Energy Modular Unit (Intermediate Version)
Photovoltaic Solar Energy Modular Unit (Intermediate Version), "MINI-EESF/M", is a laboratory scaled unit designed to study all the parameters involved in the solar radiation direct conversion into electricity.The unit is based on some application...
View Unit
PHOTOVOLTAIC SOLAR ENERGY MODULAR UNIT (BASIC VERSION) - MINI-EESF/B
  • MINI-EESF/B
Available
5.3.1.- PHOTOVOLTAIC SOLAR ENERGY
MINI-EESF/B
Photovoltaic Solar Energy Modular Unit (Basic Version)
The Photovoltaic Solar Energy Modular Unit (Basic Version), "MINI-EESF/B", is a laboratory scaled unit designed to study all the parameters involved in the solar radiation direct conversion into electricity.The unit is based on some application...
View Unit
PHOTOVOLTAIC APPLICATION WITH CONNECTION TO GRID - AEL-PHVG
  • AEL-PHVG
Available
5.3.1.- PHOTOVOLTAIC SOLAR ENERGY
AEL-PHVG
Photovoltaic Application with Connection to Grid
The Photovoltaic Application with Connection to Grid, "AEL-PHVG", has been designed by EDIBON to study the energy production by photovoltaic panels and how this energy is injected to the grid.In order to learn about solar energy production, the...
View Unit
COMPUTER CONTROLLED PHOTOVOLTAIC POWER PLANTS APPLICATION - AEL-PHVGC
  • AEL-PHVGC
Available
5.3.1.- PHOTOVOLTAIC SOLAR ENERGY
AEL-PHVGC
Computer Controlled Photovoltaic Power Plants Application
The Photovoltaic Power Plants Application, with SCADA, ''AEL-PHVGC'', has been designed to study the operations carried out in photovoltaic power systems connected to the energy national grid. This application allows to study the procedure of...
View Unit
PHOTOVOTAIC SYSTEMS APPLICATION IN ISOLATED AND PARALLEL GRIDS - AEL-PHIP
  • AEL-PHIP
Available
5.3.1.- PHOTOVOLTAIC SOLAR ENERGY
AEL-PHIP
Photovotaic Systems Application in Isolated and Parallel Grids
The Photovoltaic Systems Application in Isolated and Parallel Grids, ''AEL-PHIP'', has been designed to study the operations carried out in photovoltaic power systems which operate isolated from the national energy grid (island operation) or...
View Unit

Quality

AFTER-SALES SERVICE

Ask for information