Dynamic Solar & Wind Hybrid Power Generation Trainer

Brand: CL

Model: GF21

Pictures are for reference only.

Features:

• The unit demonstrate the practical application of such a combined system for student to conduct the investigation of wind and photovoltaic generation it standard with a high-powered axial fan to generate realistic wind-speeds and an adjustable light source to allow investigation of system performance inside the laboratory irrespective of outside conditions.
• The solar module come with altitude emulator, that is, the angle of light source can be adjusted automatically by PLC and manually by HMI & pushbuttons, simulating the sun’s rising and falling Dual-axis tracking platform be installed with the PV panel to realize the automatic and manual sun tracking function.
• The wind module come with direction emulator, that is, the angle of wind source can be adjusted automatically by PLC and manually by HMI & pushbuttons, simulating the different wind directions.
• The wind speed to be controlled by VFD with push button for adjustment, anemometer for data collection and HMI for display
• Both the solar panel and wind generator be connected to a digital combined charge controller that allows the output from both the solar panel and the wind generator to be investigated.
• Dedicated instrumentation include, watt hour meter, AC/DC voltmeter and ampere meters for investigation of system efficiency and characteristics.

 

Training Contents:

• Solar panel open circuit voltage test
• Solar panel short circuit current test
• Solar panel iv characteristic test experiment
• Solar panel maximum power output characteristics experiment
• Solar panel transfer efficiency experiment
• Solar panel PV characteristics experiment
• Wind turbine start-up wind speed experiment
• Wind turbine voltage output characteristic curve measurement
• Automatic and manual two-axis solar tracking system experiment
• Automatic and manual sun path control system experiment
• Wind field control system experiment
• Wind and solar hybrid controller experiment (wind / solar / combined)
• DC resistive and inductive load experiment
• AC resistive, capacitive and inductive load experiment
• Wind and solar hybrid AC and DC integrated output application
• Electricity consumption measurement of wind and solar hybrid AC output load
• HMI monitoring and control experiment PLC programming experiment
• Complete system hardware assembly experiment
• Complete system software design experiment

 

Configuration:

 

Solar power generation system:

 

• Mon crystalline silicon PV panel 10W (Minimum 4 Pcs.), size of 705mm x 485mm (approx.) with pluggable safety lead for system connection
• Solar automatic tracking system:
• Automatic, manual & remote-control modes
• Transparent detection head with four-quadrant epoxy silicon wafer
• Controller box with build-in microcontroller
• Dual-axis tracking platform with horizontal 0˚…350˚ and vertical -10˚…70˚
• Simulated light source: Minimum 1000W halogen tungsten lamps (2 Pcs.)
• Worm gear reducer and right-angle gear motor for sun angle adjustment with proximity sensors for limit control
• Circular connectors be mounted on printed and engraved panel for fast connection
• Extruded aluminum profiles with 4 grooves for the frame construction
• Universal castors of two lockable for easy movement

 

Wind power generation system:

 

• Simulated wind source: Minimum 2200W axial flow fan motor (aluminum housing) of speed 1450r/min / higher and blast capacity 18,700m3/h, the motor and blade part be protected by wire mesh with aluminum profile frame structure.
• The height of the unit be adjustable with four specially designed casters for easy movement.
• Horizontal axis wind turbine: Minimum 300W 12V with six or higher number of blades, starting at 2.0m/s and rated 13m/s. Flange coupling be used for column connection and the base frame be made of iron board with four universal castors.
• Wind speed sensor: Measurement range of 0…70m/s, resolution ratio of 0.1m/s, starting speed < 0.5m/s, RS485 Modbus output signal, available for data collection to HMI
• Worm gear reducer and 220V AC motor for the power drive of wind direction control wheel disc.
• The wind turbine and fan be connected by aluminum profile and the distance be adjustable.
• Circular connectors be mounted on printed and engraved panel for fast connection

 

Mobile aluminum experiment stand:

 

• Extruded aluminum profiles with minimum 8 grooves
• 5 to 6 H-shaped profiles for panel organization
• 4 swiveling casters, minimum 2 of which should have brakes
• Cable holder must be attached to side column for at least 48 cable pcs
• Storage cabinet Programmable logic controller module:
• Programming languages STL/LAD/FBD
• Standard Siemens SIMATIC S7-200 SMART relay type
• Digital input/output: 18 inputs, 12 outputs
• Ethernet / RS485 communication with additional serial port
• For bit operations, typ. 150ns-instruction
• For word operations, typ. 1.2µs-instruction
• For floating point arithmetic, typ. 3.6µs-instruction
• DC24V output, power switch and input socket
• With all I/O leading to 4mm socket
• Size suitable for frame insertion
• power cord, programming software and cable

 

Inverter drive module (2.2KW):

 

• SINAMICS V20, 2.2KW with 150% overload for 60sec, unfiltered
• Line voltage: 200… 240V, -15 % +10 %
• Line frequency: 47… 63 Hz
• Pulse frequency: 8.0 kHz
• Output frequency: 0 … 550Hz
• Input 1AC, output 3AC
• IO interface: 4DI, 2DO, 2AI, 1AO

Fieldbus: USS/MODBUS RTU with inbuilt BOP With all terminal led to colorized 4mm safety socket. Size suitable for frame insertion

 

Human machine interface (HMI) module:

• SIMATIC HMI SMART 700 IE V3
• 7″ widescreen TFT display, 65536 colors
• RS422/485 interface, Ethernet (RJ45) interface
• Configurable from Win CC flexible SMART
• Supply voltage DC 24V, range 19.2V to 28.8V
• Processor type ARM, 600MHZ
• 8 Byte memory available for user data
• Real-time data monitoring for hybrid controller
• Touch control for wind/solar system adjustment/start/stop
• Size suitable for frame insertion

 

Solar & Wind hybrid controller (12V):

• Intelligent max power point tracking with Modbus communication
• Battery: 12V, reverse connect, overvoltage & under voltage protection
• Wind turbine: Minimum 300W/12V, over speed, rated 25ADC, over current, indirect lightning strike protection, PWM unloading
• Solar: 250W/12V, rated input 15A, reverse connect protection, open circuit unloading
• 2 Output channels: 12A, over current (15A/30s, 18A/0.4s), short circuit (>150A) protection, light/time control, available for maintained output, inverted output and PWM output (250Hz only for second channel)

LCD display:

• Wind input voltage / current / power / generating capacity / speed / unloading current
• Solar input voltage / current / power / generating capacity
• Battery voltage / charging current / power / total charging capacity / battery state information
• Two-way outputs current / power / error information
• With all terminal led to colorized 4mm safety socket
• Size suitable for frame insertion

 

Photovoltaic tracking control module:

• Input control buttons for PV panel & light source position control
• Indicators for system state indication
• Selective switch for system operating mode control
• 4mm safety sockets for control interface PLC connection
• Circular connectors for control interface external hardware connection
• Size suitable for frame insertion

 

Wind turbine control module:

• Input control buttons for wind speed & direction control
• Indicators for system state indication
• 4mm safety sockets for control interface PLC connection
• Circular connectors for control interface external hardware connection
• Size suitable for frame insertion

 

Power supply control module:

• Input mains circuit breaker: 20A with indicator
• Output: AC220V 3KW/1KW/0.5KW with socket & circuit breaker
• Output: AC220V 2KW/0.5KW with circular connector & circuit breaker
• Output: AC220V 0.5KW two-way with socket & RCCB
• Power start button, key switch and emergency stop button
• 4mm safety socket output DC24V & AC220V
• Size suitable for frame insertion

 

AC & DC voltmeter & ammeter:

• Voltmeter digital AC0…450V x1
• Voltmeter digital DC0…450V x2
• Ammeter digital AC0…3A x1
• Ammeter digital DC0…5A x2
• With all terminal led to colorized 4mm safety socket
• Size suitable for frame insertion

Off-grid inverter 300W:

• Pure sine wave inverter: 300W or higher
• Peak power: 600VA (minimum)
• Reverse battery + – protection
• DC12V to AC220V, with indication
• With all terminal led to colorized 4mm safety socket Size suitable for frame insertion

Storage battery group (12V):

• 12V 12AH maintenance free sealed lead acid battery x 2
• Stand-by use: 13.5…13.8V
• Cyclic use: 14.5…14.9V
• Initial current: 3.6A max.
• With all terminal led to colorized 4mm safety socket
• Size suitable for frame insertion

Energy meter:

• Single phase electronic type
• Voltage 220V, rated current 5(80A), 800imp/kWh
• Display type: segment code LCD
• With all terminal led to colorized 4mm safety socket
• Size suitable for frame insertion

 

Concentrator:

• RS485 interface of circular connectors x6
• Equal potential terminal strip of 4mm sockets
• For communication connection of each control unit
• Size suitable for frame insertion

Capacitive load module:

• Lithium battery group of DC12V, 2500MAH
• Battery voltage display meter
• LED lattice displayer
• Microcomputer driver board with USB download
• With all terminal led to colorized 4mm safety socket
• Size suitable for frame insertion

Resistive load module:

• DC12V LED lamp
• AC220V illuminating lamp
• Variable resistance 10…110Ω
• Rotary knob for rheostat adjustment
• With all terminal led to colorized 4mm safety socket
• Size suitable for frame insertion

Inductive load module:

• DC12V fan motor with mesh cover
• AC220V fan motor with mesh cover
• With all terminal led to colorized 4mm safety socket
• Size suitable for frame insertion

Accessory:

• Safety whole sealing cable: Conductor cross section: 16AWG tinned copper wire, 3kV,20A, with axial socket
• Tools: Cross screwdriver, socket head wrench, monkey wrench, etc.
• Experiment guide book with below

 

H2 Fuel Cell Kit as standard for demonstration in Renewable Energy range.

 

Features:

• Understanding the physical basics of electrolysis and fuel cell
• Together with PEM-fuel cell and the components of a complete solar-hydrogen cycle (electrolyze, PEM fuel cell and solar module), this product represent the most comprehensive fuel cell experimentation system
• The electrical consumer (motor) should allow for realistic and demonstrative experiments

Subjects of Learning:

• Set up of an electrolyze and fuel cell
• Characteristics and Operation of an electrolyze
• Characteristics and Operation of a PEM-Fuel cell
• Faraday and energy efficiency of the electrolyze and PEM-fuel cell

Technical Specifications:

• PEM-Fuel Cell Module: High performance PEM fuel cell to convert hydrogen and oxygen into electricity and water
• Electrolyze module and Kit box

Potentiometer module:

• Plug-in module with adjustable resistance
• Resistance continuously adjustable: 0 – 1.1kΩ
• Maximum current: 200mA
• Module contain two potentiometers connected in series (1 x 100Ω and 1 x 1kΩ)
• allow an exact adjustment of the resistance while having a large resistance range
• Layout: Plug-in module with 4mm jacks
• Grid-dimension of the jacks: 70mm
• Module size: 85mm x 85mm

Motor Module without Gear:

• Plug-in module with DC-motor
• Initial current: 20 mA
• Initial voltage: 0.35 V
• equipped with automatic fuse protecting from overvoltage
• Layout: Plug-in module with 4 mm jacks
• Grid-dimension of the jacks: 70mm
• Module size: 85mm x 85mm

Solar module:

• Solar module with minimum 5 high efficiency polycrystalline solar cells
• 5 V or higher open circuit voltage
• 420 mA or higher short circuit current
• 1 Wp peak power
• Optimized low light behavior
• Solar cell size 5 pcs. 26 mm x 52 mm
• Contacting via 4mm jacks
• With connecting 4mm banana plugs the module can be set up with an angle of ca.80°
• Grid-dimension of the jacks: 70 mm
• Module size: 85 mm x 151 mm
• Gas storage module and Propeller

Base unit Large:

• Main board for the plug-in system with 3 slots
• Grid-dimension of the plugs: 70 mm
• enable series and parallel connection of the modules
• Changing between series and parallel connection by turning the modules
• equipped with 4 additional 4 mm jacks for connecting measuring lines
• Lamp with table clamp: Optimal for providing lighting for the solar panels during indoor experiments

Power module:

• The Power Module a compact, robust and easy-to-use power supply for experiments
• The voltage to be varied incrementally in 0.5V steps from 0 to 12V
• It supply up to 24W output power
• Output voltage: 0 – 12V DC
• Maximum current: 2A
• Maximum output power: 24W
• Automatic overcurrent detection
• Voltage variation in 0.5V steps (manually)
• Accuracy: ±0.15V
• Contacts: 4mm standard connectors and compatible to main board
• Input voltage: 110 – 230V AC, 50Hz
• Adaptors for all common sockets be included
• Lid for tray and Insert
• Info sheet initial startup and Layout diagram
• 25 cm Test leads (black and Red) x 2 of Each color
• Printed Instructions Manual supply