An instrumentation and water circulating console is attached to the panel under test via flexible hoses and this displays all of the relevant measured parameters.
Flat Plate Solar Collector unit is designed for internal or external operation. A Flat Plate Solar Collector similar to those used for heating swimming pools or domestic hot water is mounted on an adjustable frame. For internal operation an artificial solar source is available on application as an optional extra.
Experimental Capabilities:
Measuring the efficiency of a Flat Plate Solar Collector
Study of the variation of incident energy on the collector and collector inclination.
Analysis of the efficiency and heat losses of the collector in use.
With the addition of optional computerised data acquisition the daily variation of incident energy and system performance.
With the optional focussing collector, comparison of the efficiency with a flat plate collector.
Composed:
Sub module with charge regulator, that can be connected to an external solar panel and to the battery.
Sub module with breadboard, for the realization of circuits with components such as photo diodes.
Sub module for comparing the efficiency of different light sources; it includes a light sensor, incandescent lamps and LED.
Sub module with photovoltaic solar cell, for exercises with cells in both series and parallel configuration.
Sub module with current regulator and relay circuit, to switch between battery and power supply when the battery is out of charge.
Sub module with multi function display, for the visualization of the measurements.
Sub module with battery controller to control the charge of the battery
Sub module with voltage regulators.
Small fan
Solar panel, 5W
Power supply.
Solar Thermal Energy Trainer
....
Solar Teaching Experiment Kit system is a solar photo voltaic power system that can provide a practical teaching, testing and demonstration platform for solar cells, sine wave inverter and controller. To help students understand the principles of solar photo voltaic and learn the engineering application of solar photo voltaic. The work flow will be:
The solar energy is converted to low voltage 12VDC by solar cell module.
Then convert 12VDC into 220VAC for all the load by sine wave inverter.
Then charge the battery through the controller.
Experiments:
Solar cell directly load test
Controller principle experiment
Controller over-discharge protection experiment
Controller overshoot protection experiment
Solar photo voltaic energy conversion experiment
Environmental impact on the photo voltaic conversion experiment.
Solar Training Set Power Case Electronic Engineering Lab
....
Solar Training Set Sun Tracking Electronic Engineering Lab
....
Solar Cell Trainer Modules
....
Composed of solar panels, small motor with wind leaves, buzzer, LED lights, plug line.
Size: 155*10*45mm.
Trainer for solar module measurements
Measuring unit with digital displays for current, voltage, illuminance and module temperature
Two pivoting solar modules on mobile frames
Two power resistors for expanding the measuring range
Reference cell as illuminance sensor
Series and parallel connection options
Slide resistor as variable load.
Lighting unit with adjustable illuminance
Backing for solar cells with peltier module for regulating temperature
Trainer for solar cell measurements
Four monocrystalline silicon solar cells
Function for automated measuring of characteristic curves
Reference cell as illuminance sensor
Patch panel with bypass diodes and adjustable load resistance for selectable types of connection with individual cells.
It is used to explain that converts solar energy into electrical energy. It consists of solar energy panel, miniature motor (with blower fan), buzzer and connecting plate.
....
It is used to demonstrate the experiment of conversion of solar energy into electrical energy.
....
