SPECIFICATIONS:

Panel-1

• 500W, 12V PV modules are fitted on Aluminum profile rack/MS frame with tiltable,
• Lockable frame can be moved from 0-90 in steps.
• 2 nos of 500W halogen lamps to provide variable intensity (sun simulator)
• PT100 Sensor for temperature sensing.

Panel-2

• 500W Wind 3 phase Alternator with 6 blades mounted in MS Sturdy structure.
• Alternator Output Voltage of 12V, 10A at 500rpm.
• RPM Sensor provided for speed sensing.
• High speed fan for Wind Simulator.

Panel-3 

• Workbench with modular Control panel having Aluminum profile rack with ms enclosure panels with mimic.
• Diagram are mounted on the Aluminum rack.

Single Phase Energy meter panel

LCD/LED display, Aux supply 230v, 45-65 Hz, 5W RS485 modbus protocol (Optional)

Temperature/ RPM meter panel:

PT100 Temperature meter to measure temperature RPM measurement upto 1500, LED Display

DC Circuit Breaker Panel (6nos):

• 2 Pole MCB, 16A with LED Indicator
• 9A Contactor with 24V DC Coil

Load Socket Panel:

• 2 No’s of E27 Lamp Socket.
• 2 No’s Single phase AC Electrical Socket.

Accessories Supplied :

• 12V , 40AH Battery
• Lux Power Meter
• Anemometer
• 4mm Shrouded Patch Chords

Digital Dc meter panel :

• 4 Channel DC Meter 0-300V DC Voltmeter range 0-10A DC Ammeter range RS485 modbus protocol (Optional)

Analog DC meter panel (2nos):

• 0-300V DC Voltmeter range
• 0-10A DC Ammeter range

Single Phase Multifunction Meter Panel:

• LCD/LED display, Aux supply 230V, 45-65 Hz, 5W
• V, A, Hz, Pf, KW
• RS485 modbus protocol (Optional)

Training Objectives :

Solar PV cell

• Measuring solar radiation: Changing the inclination and azimuth of the solar panel.
• Investigating the PV module response to shadow formation.
• Recording the Characteristics of the Solar modules: Solar Panel Voltage-Irradiation Curve, Solar Panel Current- Irradiation Curve (calculating the inner resistance of the solar panel). Obtaining the solar panel current voltage curve, Obtaining the solar panel current- power curve, Measurement of the voltage and current of the photovoltaic module with overload.
• Off grid system: Measuring the generated power of a PV system and battery charging.
• Off grid system: Using Solar Panel and Battery to supply a DC Load.
• Off grid system: Design and testing of a standalone PV system in direct storage operation and 230v AC.
• On grid system: Measuring the electricity delivered to the mains grid.
• On grid system: Measuring the electricity produced by the solar panel, delivered/taken from the mains grid, and the loading of AC lamps .
• On grid system: Determining the efficiency of the grid connected inverter.
• On grid system: Investigating the response of a PV system to a mains failure.

Wind Turbine

• Understanding Wind Energy Basics: Explain the principles of wind energy, including how wind is converted to mechanical and then electrical energy.
• Wind Turbine Components: Identify and Describe the main components of a wind turbine, such as the rotor, nacelle, generator , gearbox, and tower.
• Types of Wind Turbines: Differentiate between various wind turbine designs (horizontal-axis and vertical-axis ) and their respective applications.
• Power Generation Calculations: Learn the formulas and factors for calculating power output based on wind speed, air density, and rotor size.