TB-230313-V-3.6 Mobile Didactic Bench On Wind-Solar Hybrid Educational Equipment Wind Turbine Training Equipment
TB-230313-V-3.6 Mobile Didactic Bench On Wind-Solar Hybrid Educational Equipment Wind Turbine Training Equipment
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TB-230313-V-3.6 Mobile Didactic Bench On Wind-Solar Hybrid Educational Equipment Wind Turbine Training Equipment
1. Equipment introduction
1.1 Overview
Mobile teaching platform specially designed for studying photovoltaic systems and batteries. This teaching bench combines modern mobile equipment with efficient teaching functions to provide students and researchers with a flexible, practical and easy-to-operate platform to conduct experiments and research on photovoltaic systems and cells.
1.2 Features
(1) Portability: The mobile teaching platform is designed to be lightweight and compact, and can be easily moved between different locations. This allows students and researchers to conduct experiments in different environments such as laboratories, classrooms, and in the field.
(2) Versatility: Mobile teaching platforms are usually equipped with a variety of experimental equipment, such as programmable DC power supplies, batteries, multimeters, etc., which can be used to conduct experiments on various photovoltaic systems and batteries.
(3) Ease of use: Mobile teaching benches usually have user-friendly interfaces and operating guides, allowing students and researchers to conduct experiments conveniently even without professional knowledge.
(4) Data recording and analysis: Mobile teaching platforms are usually equipped with data recording and analysis functions, which can record and analyze experimental data in real time, helping students and researchers better understand the working principles of photovoltaic systems and batteries.
(5) Safety: Mobile teaching platforms usually have safety functions such as overload protection and short-circuit protection to ensure the safe conduct of experiments.
2.Technical parameters
Input power: three-phase five-wire 380V, 50Hz
Size: 1310mm*730mm*2050mm
Weight: 200KG
Ambient temperature: -10℃~+40℃
Relative humidity: <85% (25℃)
3. Components list and detailed introduction
3.1 Main part
No | Name |
1 | Aluminum frame |
2 | Three-phase multi-function meter module |
3 | Power multimeter module |
4 | Power switch module |
5 | Small wind turbine switching power supply module |
6 | Three-phase power switch module |
7 | communication panel |
8 | Light panel 230V module |
9 | Hybrid inverter module |
10 | computer module |
11 | Small wind turbine charge controller 12V |
12 | Three-phase variable ohmic load 1000w module |
13 | Programmable DC power supply |
14 | Protected power distribution module for workstations |
15 | battery module |
16 | Dynamic servo machine testing system for 0.3KW machines |
17 | Small wind turbine 370W with demo mast |
3.2 Accessories
No | Name | Qty |
1 | digital multimeter | 2 |
2 | 4mm safety connection cable double color 0.25 meters 2.5 mm² | 4 |
3 | 4mm safety connection cable red 0.25 meters 2.5 mm² | 2 |
4 | 4mm safety connection cable green 0.25 meters 2.5 mm² | 2 |
5 | 4mm safety connection cable yellow 0.25 meters 2.5 mm² | 2 |
6 | 4mm safety connection cable blue 0.25 meters 2.5 mm² | 2 |
7 | 4mm safety connection cable double color 1 meter 2.5 mm² | 1 |
8 | 4mm safety connection cable red 1 meter 2.5 mm² | 2 |
9 | 4mm safety connection cable green 1 meter 2.5 mm² | 2 |
10 | 4mm safety connection cable blue 1 meter 2.5 mm² | 2 |
11 | 4mm safety connection cable black 1.5 meters 2.5 mm² | 5 |
12 | 4mm safety connection cable red 1.5 meters 2.5 mm² | 5 |
13 | 4mm safety connection cable green 1.5 meters 2.5 mm² | 4 |
14 | 4mm safety connection cable yellow 1.5 meters 2.5 mm² | 4 |
15 | 4mm safety connection cable blue 1.5 meters 2.5 mm² | 3 |
16 | Network cable 1 meter Category 5 yellow | 1 |
17 | Network cable 2 meters Category 5 yellow | 2 |
18 | USB 2.0 Ethernet adapter | 1 |
19 | 5-port Ethernet switch | 1 |
20 | European style plug strip 6 positions with switch | 1 |
21 | U-shaped connector 4mm safety connection cable black | 10 |
22 | U-shaped connector 4mm safety connection cable red | 5 |
23 | RJ12 line 6P4C 1.5 meters | 4 |
24 | European plug | 1 |
25 | USB cable | 1 |
26 | U disk | 1 |
27 | pc | 1 |
4. Experiment list
Experiment 1 Installation of photovoltaic hybrid system with small wind turbine experiment
Experiment 2 Parameter experiment of charge controller
Experiment 3 Experiment 3 Load current test experiment
Experiment 4: Energy flow experiment through solar path simulation and wind profile simulation
Experiment 5 Matlab software testing experiment
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I.Product overview
This system can simulate solar energy generation process, enable students to understand on photovoltaic generation system directly, and be familiar with grid connection training equipment composition and run principle.
II.Technical data
Solar energy generation set: consist of whole aluminum structure, photovoltaic adjustable panel(can adjust angle), with universal wheels under the bottom of aluminum frame, so it’s movable, and
with lockers to fix the position. External dimension: 1500×800×1000mm(Length× Width× Height)
III. System introduction
This system consist of three independent photovoltaic generation system connect in parallel, each generation system parallel value can be monitored by PC, to real time display electricity generation
value, generation time, max peak value etc.
1.Solar panel use aluminum holder to fix, with universal wheels under the holder, it’s flexible and can be locked by locker, solar panel angle can be adjusted.
2. Grid connection inverter is fixed on solar panel holder, through cable to connect, convert solar panel electricity to work frequency 220V AC electricity, and connect to market electricity.
3.Through communication module, can monitor electricity data in each inverter, and display in PC in real time, it’s easy for management, and support Ethernet monitor.4.With educational software for photovoltaic training panel
SR2102 Photovoltaic Trainer Solar Trainer Solar Training Equipment
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1 Product overview
1.1 Overview
This system can simulate the process of solar power generation, so that the students have a preliminary understanding of photovoltaic power generation systems, be familiar with the composition of photovoltaic power generation off-grid system, connection and operating principle. Training the student to the corresponding knowledge and skills, it is suitable for the engineering university, higher vocational colleges, secondary vocational schools and vocational school related professional teaching and skills training examination.
1.2 Feature
(1) Training workbench uses aluminum column frame structure, measuring instrument and load module use hanging box installation, training power supply built-in integrated installation, with a universal wheel at the bottom of workbench, the various units are flexible, it’s easy to use, not easy to damage.
(2) Solar panels using aluminum frame fix, can adjust the angle of the solar panels according to the angle of the sun’s rays, the bottom is equipped with universal wheel, it is flexible to move, and convenient to use.
(3) Experimental circuit and device configuration is complete, can be combined, to complete a variety of subjects of training content.
(4) Training bench has a good safety protection system.
1.3 Capacity
(1) Solar power systems: the aluminum alloy structure, photovoltaic panels angle is adjustable, with wheels at the bottom of workbench, it can be mobile and lockable, dimension: 1200 * 1200 * 1760 mm (L*W*H).
(2) Off-grid training workbench: fully aluminum alloy structure, with a universal wheel at the bottom, can be mobile and lockable, dimension 1000 * 800 * 1400 mm (L*W*H).
(3) Power box unit: aluminum panel structure, power supply components embedded installation, instrument and load module uses the aluminum alloy hanging box unit, the connection is convenient.
(4) Solar panels parameters are as follows:
The maximum rated power (Pmax) : 250 w
The high power voltage (Vmp) : 48.0 V
The most powerful current (Imp) : 5.2 A
The open circuit voltage (Voc) : 54.0 V
Short circuit current (Isc) : 5.5 A
The biggest system voltage: 1000 v DC
The output power of tolerance: ±3%
Working environment temperature: – 40 ℃, + 85 ℃
(5) the S – 3000-36 off-grid inverter
1.4 System introduction
The whole system can be divided into hardware and software two parts. Photovoltaic off-grid system consist of photovoltaic components, controller/inverter, mains supply (city electricity network). Photovoltaic off-grid system structure is as follows:
Hardware part contains three independent photovoltaic power generation system, off-grid inverter, power box, meter box, hanging load box, etc., three photovoltaic panels connect in parallel, connect to off-grid inverter via hotovoltaic (pv) interface,measure system parameters.
1. Solar panel with aluminum bracket, the bottom is equipped with universal wheel, is flexible mobile and can be locked, solar elevation angle is adjustable.
2. Off-grid inverter is fixed in the training workbench desktop, through the cable connection and convert electricity from solar panels to power frequency 220 v alternating current (AC), for the use of the load.
Software part is composed of PC software and data communication cable, PC monitoring software can real-time monitor the working state of the photovoltaic off-grid inverter system, the input voltage, output voltage, battery voltage, load rate, battery capacity, the output work power, such as real-time data.Solar Energy Teaching Equipment for Network Operation Renewable Training Equipment
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I. Equipment Overview
1 Introduction
1.1 Overview
This training system simulate solar generate electricity process, enable students to learn
wind and solar generate electricity. This trainer cultivate students hand on ability, it’s
suitable for engineering university, training institute, technical schools.
1.2 Feature
(1)Solar energy generate electricity set: use aluminum column structure, photovoltaic panel can track and be adjusted, simulate light source can be adjusted for 120 degree in horizontal direction.
(2) It can do many experiment circuit and components, students can combine them to different circuit, do different experiments and training content.
(3) Training workbench with safety protection system.
Training table size: aluminum frame, aluminum alloy hanging box unit form,the bottom is with universal wheels, dimensions 1400mm × 700mm × 1500mm (L×W×H)
Single solar panel parameters are as follows:
Rated peak power: 30 W
Short circuit current: 1.9 A
Peak current: 1.7 A
The open circuit voltage: 18.5 V
Accumulator technology parameters:
Voltage: 12 V
Capacity: 12 Ah
Battery lost electricity: 10V±1V
Execution standard: GB/T 9535
Relative Humidity: 35 ~ 85% RH (non-condensing)
Working environment: temperature -10 ~ +40 ℃ temperature≤80 ℃
Ambient air: non-corrosive, flammable gases, without a lot of conductive dust
Power consumption: ≤5000W,
Working power supply: AC220 ± 5%, DC24V /
Power supply: single-phase three-wire AC220 ± 5%, 50HZ
Work mode: continuous
Ⅱ. System Introduction
The system is divided into photovoltaic power generation system, control system and inverter system three parts, photovoltaic power generation system consists of analog light source devices, photovoltaic solar panels and storage batteries. The control system consists of photovoltaic controller. Inverter system consists of frequency inverter and the load unit.
1. Simulation photovoltaic power generation system: The system uses two 30W solar panels, they can be connected in series or in parallel depending on different system voltage, simulation sunlight device consists of two high-power metal halides, the relative position to photovoltaic panels can be adjusted to simulate sunlight location, it is convenient to simulate demonstration of various sunshine conditions.
2. Storage batteries: consists of four piece of 12V / 12AH maintenance-free sealed accumulators, they not only can be connected in parallel to 12V48AH system to use, but also can be connected in series to 24V / 24AH system to use, which can deepen understanding of the accumulators connected in series and parallel.
3. Controller hanging box: the box uses industrial charge controller, you can control the power of wind generators and photovoltaic panels to charge the battery, LCD display panel, and you can view the system operating parameters and can set user parameters yourselves, with perfect anti-overcharge, over-current protection function.
4. Inverter hanging box: uses 12V / 24V voltage intelligent recognition frequency inverter, output voltage AC220V, continuous power 600W, peak power 1000W. Conversion efficiency is greater than 90%, the low pressure automatic alarm.
5. Meter hanging box: can display generating voltage, generating current, charging voltage, charging current, inverter voltage, inverter current in real-time.
6. Terminal load hanging box: includes incandescent lamps, energy saving lamps and axial flow fans, and does different types of load tests for 220V AC converted by the inverter.
Ⅲ.Experiment content
1. Experiment list
(1) Battery feature test:1) electricity technical parameter 2) Battery connect in series and parallel
(2) Charge controller experiment:1) connect inversed protection experiment 2) Controller protection on battery overcharge 3) Controller protection on battery over discharging experiment 4) Anti reverse charge experiment
(3) Photovoltaic battery open circuit voltage test experiment
(4) Photovoltaic battery short circuit current test experiment
(5) Photovoltaic battery work power test experiment
(6) Photovoltaic battery output feature experiment
(7) Photovoltaic battery charging control principle experiment
(8)Photovoltaic battery anti reverse charging experiment
(9) Photovoltaic battery connect in series and parallel experiment
(10) Inverter basic principle experiment
(11) Simple inverter output waveform test experiment
(12) Inverter drive AC load experiment
(13) Through changing light source direct to measure solar energy cell current output
(14) Different illumination deserve Silicon cell experiment assembly voltage and current curve
(15) Through a Silicon cell used for different illumination insulation value to evaluate maximum output power
(16) Calculate photovoltaic cell efficiency
(17) Photovoltaic battery connect in series and in parallel experiment
(18) Calculate Silicon cell panel average powerSR2103 Solar Thermal Training Vocational Training Equipment Teaching Equipment
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I. Equipment Overview
1 Introduction
1.1 Overview
This training system simulate demo wind generate electricity process, it enable
students to learn wind generate electricity. Wind driven generator is driven by fan. This
trainer cultivate students hand on ability, it’s suitable for engineering university, training
institute, technical schools.
1.2 Feature
(1)This trainer use aluminum column structure, with inner integrated measurement meters, there is universal wheels at the bottom, it’s easy to move.
(2) It can do many experiment circuit and components, students can combine them to
different circuit, do different experiments and training content.
(3) Training workbench with safety protection system.
2. Performance parameter
(1) Wind power generation set: wind power generation is consisted of fan unit and air-blower unit, it adopts aluminum profile structure, the bottom of equipment is with universal wheels, the boundary dimension of fan unit is 800mm*800mm*1500mm(length× width× height), the boundary dimension of air-blower is 800mm*800mm*1500mm(length× width× height).
(2) Power box unit: aluminum profile structure, aluminum hanging box , boundary dimension 1080mm×300mm×740mm(length× width× height).
(3) Fan:
(4) Battery technical specification:
(5) Work condition:
Temperature-10~+40℃
Temperature≤80℃
Environment air: no corrosivity air, no fuel air, no large quantity of conductive dust3. System introduction
This system is consisted of four parts: wind power system, control system and inverter system. The wind power system is consisted of air-blower, generator and battery. Control system is made up of wind power generation controller. Inverter system is made up of frequency inverter and load unit.
Simulative wind power generator, this system adopts horizontal shaft permanent magnet synchronous generator, it adopts air-blower to simulate natural wind, air-blower can select three wind speed, this system can simulate the change of wind direction and wind power through changing the speed and location of air-blower, then it can detect the generation effect under the corresponding condition. Simulation wind power generator is as shown below.Simulation wind power generator
As shown above, the left picture is wind power generator, the wind power generator output is three phases AC 12V, output terminal connect to the connection box which located in the underneath of equipment. Right picture is air-blower unit, its power supply is single phase AC 220V,50Hz, when it working, connect the pedestal of two portion together through profile connecting rod. As shown below.
Connecting mode of simulation wind power generator
Controller panel picture
Indicator light condition explanation3.2 Power control panel
(1) Voltage, current output indicator
(2) Equip with power indicator, safety power output terminal.
(3) Inner with AC power source, with short circuit protection function. And students can observe inner power box structure through transparent window.4 Experiment list
(1) Battery feature test:1) electricity technical parameter 2) Battery connect in series and parallel
(2) Charge controller experiment:1) connect inversed protection experiment 2) Controller protection on battery overcharge 3) Controller protection on battery over discharging experiment 4) Anti reverse charge experiment
(3) Simulate wind generating electricity system experiment
(4) Wind energy charging control experiment
(5) Generator work power test experiment
(6) Inverter basic principle experiment
(7) Simple inverter output waveform test experiment
(8) Inverter basic principle experiment
(9) Simple inverter output waveform test experiment
(10) Inverter power drive AC load experimentZM2121 Solar And Wind Trainer Renewable Training System Educational Equipment
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I. Equipment Overview
1 Introduction
1.1 Overview
This training system simulate demo wind and solar generate electricity process, enable students to learn
wind and solar generate electricity. Wind driven generator is driven by fan, solar energy panel is driven
by high work power metal halide. This trainer cultivate students hand on ability, it’s suitable for
engineering university, training institute, technical schools.
1.2 Feature
(1)This trainer use aluminum column structure, with inner integrated measurement meters, there is universal wheels at the bottom, it’s easy to move.
(2) It can do many experiment circuit and components, students can combine them to different circuit, do
different experiments and training content.
(3) Training workbench with safety protection system.
2. Performance parameter
(1) Wind power generation set: wind power generation is consisted of fan unit and air-blower unit, it adopts aluminum profile structure, the bottom of equipment is with universal wheels, the boundary dimension of fan unit is 800mm*800mm*1500mm(length× width× height), the boundary dimension of air-blower is 800mm*800mm*1500mm(length× width× height).
(2) Solar power generation device: full aluminum structure, adjustable photovoltaic panel, boundary dimension is 800mm*800mm*1200mm(length× width× height).
(3) Power box unit: aluminum profile structure, aluminum hanging box , boundary dimension 1080mm
×300mm×740mm(length× width× height).
(4) Single solar energy cell plate:
Rated peak value work power: 20Wp
Short circuit current:1.9A
Peak value current:1.7A
Open circuit voltage:18.5V
(5) Fan technical specifications:
Fan type: horizontal direction toward
Start speed: 2.5 meters/second
Rated fan speed:10 meters/second
Maximum anti wind speed:40meter/second
Rated work power: 200-500W
Wind direction adjust: auto adjust
(6) Battery technical specification:
Voltage:12V
Volume:12Ah
Battery lost electricity:10V±1V
Executive standard: GB/T 9535
Relative humidity: 35~85%RH(Non-condensate)
(7) Work condition:
Temperature-10~+40℃
Temperature≤80℃
Environment air: no corrosivity air, no fuel air, no large quantity of conductive dust
(8) Power:
Consumption: ≤5000W,
Work power: AC220±5%, DC12V/24V
Work mode: continuous
Power supply: connect in series or in parallel
Work mode: continuously
3. System introduction
This system is consisted of four parts: wind power system, photovoltaic power generation system, control system and inverter system. The wind power system is consisted of air-blower, generator and battery. Photovoltaic power system is consisted of photovoltaic cell panel and battery. Control system is made up of wind and solar power generation controller. Inverter system is made up of frequency inverter and load unit.
Simulative wind power generator, this system adopts horizontal shaft permanent magnet synchronous generator, it adopts air-blower to simulate natural wind, air-blower can select three wind speed, this system can simulate the change of wind direction and wind power through changing the speed and location of air-blower, then it can detect the generation effect under the corresponding condition. Simulation wind power generator is as shown below.Simulation wind power generator
As shown above, the left picture is wind power generator, the wind power generator output is three phases AC 12V, output terminal connect to the connection box which located in the underneath of equipment. Right picture is air-blower unit, its power supply is single phase AC 220V,50Hz, when it working, connect the pedestal of two portion together through profile connecting rod. As shown below.Connecting mode of simulation wind power generator
2. Simulative photovoltaic power generation system: this system adopts three pieces of 18V,20W solar panel, it can carry out series and parallel connection according to different system voltage, it can simulate the sunlight location through adjusting the relative location with photovoltaic panel, then it’s easy to simulate demonstration of various sunlight condition. Simulation photovoltaic power generator as shown below.
The output of photovoltaic cell panel connect to connecting box which located in the rear of device, output it through safety terminal. The rated output voltage of single block photovoltaic cell panel is 18V, three pieces of cell panel can operate individual, and it also can operate in parallel.Simulation photovoltaic power generator
3. Battery set: it is consist of two pieces of 12V/12AH maintenance-free no-service battery, it also can connect in parallel as 12V200AH system, it also can connect in series as 24V/100AH system, it can enhance the understanding of battery series and parallel connection. Battery integrated in the internal of power box, battery output terminal connect to power box panel. In the picture, 1 and 2 are the battery output portion, it output through red and black terminal.Power box battery
4. Controller hanging box: this hanging box adopts industrial charge controller, it can control the electric power of wind power generator photovoltaic panel to charge for the battery, panel indicator light display the controller working condition, it can check the system operation parameter, and operator can set the parameter by himself, and it has thorough overcharge protection, overcurrent protection function. Controller hanging box as shown below.
In the picture, terminal 1 and 2 are battery incoming end, battery can be series and parallel connected in it, input voltage is 12V or 24V.
Terminal 3 and 6 are fuse. Terminal 4 and 5 are controller output terminal, ( attention: controller output terminal is unable to connect to high-power electrical machine).
Terminal 7 is photovoltaic cell panel input terminal, terminal 8 is wind power generator input terminal.Controller hanging box
(1) Controller operation matters and attention
a. Strictly prohibit inversely connect the photovoltaic module and battery
b. Strictly prohibit photovltaic module and battery direct short circuit
c. Strictly prohibit electromotor drive the generator, DC motor, switch power supply and other mode to simulate the wind power generator to carry out charging effect detection, if it cause the damage of controller because of it, manufacture don’t responsible for it.
d. Before connect to battery, please measure the battery voltage using multimeter, in order to make sure the voltage exceed the 80% of rated voltage. If the voltage under the 80% of rated voltage, it may damage the controller.
e. If it is 12 V system, battery voltage should not lower than 9V.
f. If it is 24V system, battery voltage should not lower than 18V.
g. The open-circuit voltage of photovoltaic module is not higher than the double times of battery set voltage.
h. The working voltage of photovoltaic module not lower than the 1.5 times of battery voltage.
(2) Controller panel buttons instruction
Controller panel as shown below:
A. Battery charging indicator light: indicate the charging condition.
B. Battery voltage indicator light: indicate the battery voltage condition and system fault
C. Power supply output indicator light: indicate the output power supply condition3.2 Power control panel
(1) Voltage, current output indicator
(3) Equip with power indicator, safety power output terminal.
(4) Inner with AC power source, with short circuit protection function. And students can observe inner power box structure through transparent window.
3.4 Equip components
(1) Controller hanging box 1 piece
(2) Inverter hanging box 1 piece
(3) Meter box hanging box 2 pieces
(4) Terminal load hanging box 2 pieces
(5)4mm safety electrical connection cable 40 eas
4 Experiment list
(1) Battery feature test:1) electricity technical parameter 2) Battery connect in series and parallel
(2) Charge controller experiment:1) connect inversed protection experiment 2) Controller protection on
battery overcharge 3) Controller protection on battery over discharging experiment 4) Anti reverse
charge experiment
(3) Simulate wind generating electricity system experiment
(4) Wind energy charging control experiment
(5) Generator work power test experiment
(6) Photovoltaic battery open circuit voltage test experiment
(7) Photovoltaic battery short circuit current test experiment
(8) Photovoltaic battery work power test experiment
(9) To test photovoltaic battery different maximum test experiment under different illumination
(10) Photovoltaic battery output feature experiment
(11) Photovoltaic battery charging control principle experiment
(12)Photovoltaic battery anti reverse charging experiment
(13) Photovoltaic battery connect in series and parallel experiment
(14) Inverter basic principle experiment
(15) Simple inverter output waveform test experiment
(16) Photovoltaic battery connect in series and in parallel experiment
(17) Inverter basic principle experiment
(18) Simple inverter output waveform test experiment
(19) Inverter power drive AC load experiment
(20) Wind and solar generator complementary experiment