Overview of Solar Energy Training Equipment

Designed for educational environments such as universities, vocational schools, and technical institutes, this renewable energy training system facilitates both theoretical learning and practical maintenance training for solar energy products.

The apparatus utilizes a 15W monocrystalline silicon solar cell panel (measuring 35cm x 30cm) as its primary energy collector. To ensure consistent experimentation regardless of weather, a 220V, 80W solar simulation lamp is included to mimic a natural light source.

Crucial for student experimentation, the device features a robust dual-system charge and discharge controller. This controller offers multiple operational modes and comprehensive protection mechanisms to ensure safe and effective learning.

Technical Specifications

Input Voltage Requirements: AC220V (±10%), 50Hz

Total Power Consumption: ≤500W

Operating Temperature Range: -10°C to +40°C

Unit Dimensions (L x W x H): 620mm x 425mm x 180mm

Data Interface: RS232 to USB connection

System Components The complete product package includes:

Voltmeter and Ammeter

Data Acquisition Card

Solar Charge Controller

Dot Matrix Display Module

Storage Battery

Single-Phase Off-Grid Inverter

Load Unit

Curriculum Applications This system supports various training exercises, including:

Analyzing solar cell panel characteristics.

Testing the functionality of solar controllers.

Evaluating off-grid inverter performance.

Conducting comprehensive experiments on solar energy applications.

Overview of Solar Photovoltaic Training Equipment

This solar photovoltaic power training system is a didactic device engineered to fulfill the experimental teaching needs for new energy majors in higher and vocational education. It focuses on solar cell performance testing and photovoltaic applications. The equipment is suitable for students in higher vocational colleges, secondary vocational colleges, technical schools, and vocational education centers to learn the fundamentals of electrical machines and gain related skills. It is also appropriate for use in vocational qualification appraisal stations for skill training and assessment.

Technical Specifications

Dimensions (L x W x H): 1300mm x 700mm x 1700mm.

Operating Conditions: -10°C to 40°C temperature range, with relative humidity below 85% at 25°C.

Power Requirement: Single-phase AC220V, 50Hz.

Weight: Approximately 100kg.

Product Description The training device is specifically designed to satisfy experimental teaching requirements for solar cell performance testing and photovoltaic applications within new energy-related majors in higher and vocational education institutions.

System Components The product includes the following key components:

A 10W Monocrystalline silicon component.

Control module.

Inversion and load module.

Solar energy test module.

Storage battery pack.

Solar light source controller.

Single-phase off-grid inverter.

Experimental Curriculum The equipment supports a range of experiments, including:

Understanding the principle of solar cell power generation.

Studying energy conversion in solar photovoltaic panels.

Analyzing how environmental factors influence photovoltaic conversion.

Examining the direct load characteristics of solar cell photovoltaic systems.

Conducting tests on solar controller functions and reverse protection.

Demonstrating storage battery protection provided by the solar controller.

Performing solar cell I-V (current-voltage) curve tests.

This vocational training equipment photovoltaic and wind energy trainiing device adopts 4 sets 100W monocrystalline silicon solar cell panel(67cm*84cm) and 220V, 1000W solar simulation light to simulate lighsource, and

2.2kw blower and 400we wind power generator for the training baasis. The vocational training equipment photovoltaic and wind energy training device adopts dual system charge and discharge controller with multiple

working modes and perfect protection functions, which is ideal trainingdevice for solar and wind power generating training.The vocational trainang equipment photovoltaic and wind energy training device is suitablefor the

teaching needs of the theory and maintenance training of electricvehicle power steering system and front suspension system in voocational and technical schools, colleges and universities, traininginstitutions.

Technical parameter

Power supply: Three phase, AC380V+10%, 50HZ;

Dimensions (l x w x h): Training bench: 1500* 700 x1800mm;

Weight: About 350kg

Solar and wind generator stand: 2780*1740*2230mm

Product description

This device adopts 4 set 100W monocrystalline silicon solar cell ppanel (67cm*84cm) and 220V, 1000W solar simulation light to simulate light source, and 2.2kw blower and 400w wind power generaator for the training

basis. It Adopts dual system charge and discharge controller withmultiple working modes and perfect protection functions, which isideal training device for solar and wind power generating training( ) .

Product composition

Training bench 1500*700*1800mm

Solar panel 4 sets: DC18V Power:100w, Size:670*840mm

Simulated light source: Power: 1000w, 220VAC

Controller : 12V/24V, 10A

Blower: 380VAC, 2.2kw

Wind power generator: 400w, 12V

Inverter: 220VAC, 1kw

Battery: 12V/65AH

Measuring device: Ammeter, Voltmeter, Wattmeter;

Equipped with USB interface and PC data processing software.

Training courses:

Part 1: Solar energy

1. Energy conversion experiment of solar photovoltaic panels

2. The influence of environment on PV transformation

3. Direct load characteristic test of solar cell photovoltaic system

4. Working principle experiment and protection measures of solarcontroller

5. Experiment on overcharging protection of solar cells

6. Experiment on battery discharge protection of solar controller

Part 2: Wind energy

1. The principle of wind power generator

2. The influence of environment on wind power generator

3. Simulation experiment of wind power generation

4. Wind power related measurement technology experiment

5. Wind power generation control technology experiment

6. Direct load test of wind power generation system

7. Wind speed change influence experiment of wind power generation systtem

Part 3: Comprehensive experiment

1. Operation principle experiment and protection measures of off rnet Inverters

2. The application of AC load and DC load