DYFG-01 Wind-solar Hybrid Power Generation Training Platform
Release time:2024-07-05 08:30viewed:times
M*n features of the product
The wind-solar hybrid power generation system is m*nly composed of wind turbines , solar photovolt*c cell modules, controllers, batteries, inverters, AC and DC loads, etc. The system is a composite renewable energy power generation system that integrates multiple energy generation technologies such as wind energy, solar energy and batteries and system intelligent control technology.
The m*n configurations include: solar panels, two-dimensional rotating brackets, adjustable simulated light sources, wind turbines , tr*ning operation tables (including DC/DC modules, charging management modules, off-grid inverter modules, battery modules, load modules, two-dimensional rotation control modules, voltage and current detection modules, DC voltage regulators, simulated light source control modules, Delta plc , KingView human-machine monitoring).
1. Wind vane, wind turbine and support system
400W, starting wind speed 3.14m/s; rated wind speed 13 m/s; yaw wind speed 5m/s; maximum design wind speed 15 m/s; transmission mode: wind wheel directly drives the generator
; temperature range: -40~60℃.
2. Solar panels, simulated light sources and control systems
Solar panels are assembled in arrays, m*nly using 4 (or more) small solar panels, which can realize the parallel connection and series connection of solar panels
, and then provide two solar panel networking methods with high current or high voltage.
Maximum output power: 4*10W
simulated sun: 300W, adjustment distance: 0~80cm3
. Wind source simulation and control
Wind source simulation; wind power generation prime mover: industrial axial flow fan: power 1500W, axial flow fan, using adjustable speed controller, wind speed adjustment range: 0~13m/s; wind speed control accuracy:
0.1m/s; wind direction control accuracy: 0.1 degrees.
4. Wind-solar hybrid controller
Power electronic module: voltage stabilizing module, control module, inverter module; control panel: wind speed, wind direction control panel, data display panel, control system.
Power supply: three-phase (220V per phase to neutral) four-wire
Maximum power: 4*1000w (1kw per lamp)
AC contactor maximum current: 20A
24V DC voltage regulator maximum output power: 350wAC
load: 25w*1 40w*
1Battery: 12V, 17A·h *2Inverter
Supply
voltage: single-phase 220VOutput
voltage: three-phase 220VPower
: 1.5kwWind
generator
Output voltage: three-phase 24V (50Hz measured as 24.85V)
Power: dual-axis 200WShort
-circuit current: (maximum current 8A during the experiment)
Two-dimensional motor
Rated voltage: DC24VRated
current: 1.2ARated
power: 15WRated
speed: 1700r/min 1:575V
. Load part, battery expansion function1
. Five groups of DC24V DC loads (3 groups of inductive loads, 2 groups of resistive loads)
1) Inductive loads include: 24V DC fan, 24V DC motor, 24V buzzer
2) Resistive loads include: 24V traffic light, 3W LED light
2. Four groups of AC220V AC loads (1 group of inductive loads, 3 groups of resistive loads)
1) Inductive loads include: 220V DC fan
2) Resistive loads include: 220V traffic light, 220V 3W LED light, 220V 28W LED light 3. 0-30V
, 0-5A adjustable constant voltage and constant current regulated power supply
4. The technical parameters of the adjustable resistance box are as follows:
1) Resistance range: 10 ohms-99.99K
2) Error range: ±1%
3) Current range: ≤500ma
5. USB interface voltage output: can provide 5V DC regulated power supply for electronic equipment
6. Electronic load (optional)
6. Battery capacity of at least 10Ah, voltage 24V
7. 8-inch touch LCD screen data acquisition and display module m*nly includes
1. It can monitor and display the parameters (current, voltage, temperature, humidity, illuminance, wind speed, wind direction, wind power
generation, etc.) in solar cell module, controller module and inverter module in real time, with alarm prompt function
2. Solar controller (with alarm function): input voltage, current, power data display and dynamic curve display
3. Output voltage, current, power data display and dynamic curve display
4. Single inverter: output voltage, current, power, power consumption data display and dynamic curve display; Output frequency display
5. Battery: voltage data display and dynamic curve display
6. Environmental monitoring: temperature, humidity, illumination display
7. Thermometer interface display, hygrometer interface display
8. Dynamic curve display of light intensity, automatic switching range: 225Lx, 2250Lx, 22500Lx and 225KLx (225000Lx)
8. Can be equipped with host computer monitoring system, real-time monitoring, large-capacity data storage, printable.
9. The whole set of overall structure adopts industrial aluminum profile and double-sided white high-density board design.
10. The product panel is made of epoxy resin panel to prevent long-term deformation.
11. Virtual simulation software for electrical installation of building and intelligent building Based on unity3d design, users can choose different sizes of interactive interface according to computer configuration, and can choose six levels of image quality. The model in the software can be rotated 360°, enlarged, reduced, and translated. There are assistant prompts during the use of the software, the contents are as follows: A. Wet alarm system 1. System overview: Overview of wet alarm system 2. Equipment recognition: It is equipped with the best viewing angle, equipment det*ls (displaying the introduction or parameters of the equipment), exercises (built-in 6 multiple-choice questions, with prompts for correct and wrong choices), and schematic diagrams (you can enter the equipment from the schematic diagram). The equipment includes: sprinklers, water flow indicators, signal butterfly valves, exhaust valves, fire alarm controls, high-pressure gauges, high-level water tanks, Wia control cabinets, pressure-stabilizing tanks, flow switches, terminal water testing devices, dr*nage facilities, water pump connectors, hydraulic alarms, time delays, wet alarms, butterfly valves, check valves, fire pumps, safety pressure-stabilizing valves, and fire water tanks. 3. Principle display: Display the working principle of the wet alarm system, 3D animation demonstration, and semi-transparent 3D models , so that the internal water flow can be seen. Equipped with practice module (built-in 4 multiple-choice questions, with prompts for correct and wrong choices) 4. Design layout: There are multiple-choice questions and calculation questions, each of which is scored, and the correct answer and score will be displayed after submission B. Gas fire extinguishing system 1. System overview: Overview of gas fire extinguishing system 2. Equipment cognition: It is equipped with the best viewing angle, equipment det*ls (displaying the introduction or parameters of the equipment), practice (built-in 8 multiple-choice questions, with prompts for correct and wrong choices), schematic diagram (you can enter the equipment from the schematic diagram). The equipment includes: nozzle, HFC-227 storage bottle, bottle head valve, heptafluoropropane check valve, high-pressure hose, gas check valve, safety valve, weighing alarm, electromagnetic starter, selection valve, smoke alarm, fire alarm controller. 3. Principle display: Display the working principle of the gas fire extinguishing system, 3D animation demonstration, 3D model is semi-transparent, and the internal gas can be seen. Equipped with practice module (built-in 3 multiple-choice questions, with prompts for correct and wrong choices) 4. Design and layout: There are 6 multiple-choice questions, each with scores, and the correct answer and score will be displayed after submission . C. Escape drill: Teaching in the form of fun games, escape from the burning room within a limited time, and wrong choices will directly enter the score interface. (II) Experimental projects that can be completed: Experiment 1, wind power generation basic theory principle experiment Experiment 2, wind power generation system design experiment Experiment 3, wind power generation basic theory and application technology simulation experiment Experiment 4, wind power generation related measurement technology experiment Experiment 5, wind power generation control technology experiment Experiment 6, solar energy basic theory experiment Experiment 7, solar power generation basic theory and application technology experiment Experiment 8, solar wind power generation measurement technology experiment Experiment 9, solar power generation control technology experiment Experiment 10, wind-solar hybrid power generation experiment Experiment 11, solar cell photovolt*c energy conversion experiment Experiment 12, environmental impact on photovolt*c conversion experiment Experiment 13, solar cell direct load experiment Experiment 14, wind-solar hybrid controller working principle experiment Experiment 15, wind-solar hybrid controller overcharge protection experiment Experiment 16, wind-solar hybrid controller over-discharge protection experiment Experiment 17, wind-solar hybrid controller three output mode experiments Experiment 18, inverter low voltage protection experiment Experiment 19, inverter overvoltage protection experiment Experiment 20: Inverter output experiment
Wechat scan code follow us
