Product
News
- Excavator steering system anatomy training desk
- Hydraulic front hanging mechanical experimental device
- Water pump performance experimental device
- Contact oxidation pool training desk
- Drinking water treatment process training desk
- Reverse osmosis membrane training
- Softness and salt removal experimental device
- Salvation tank experimental device
- Aerobic biological treatment training device
- Bio -turntable principle experimental device
- Lucky ratio blocking test device
- Socci condiment training desk
- Industrial wastewater treatment training desk
- Industrial wastewater treatment process simulation experimental device
- CNC milling machine installation and maintenance training table
- CNC Machining Center Maintenance and Processing Technical Experimental Desk
- AC Voltage Merragatory System Electrical Experiment Device
- Solar power generation experimental device
- Electrical experimental device of ship anchor machine
- Worker Electrical Engineering Technology Training Device
Contact us
WeChat:18058325687
Phone:18058325687
WhatsApp:18058325687
Address:Shanghai Industrial Park, Jiading District, Shanghai
uncategorized
ZOPFG-HB wind-solar hybrid power generation experimental device
The wind-solar hybrid power generation training platform and the wind-solar hybrid power generation off-grid experimental device can complete the relevant experiments and teaching demonstrations of wind power generation, solar power generation, base station power supply and grid-connected inverter power system integration. It can help students further understand the concept of wind power generation and solar photovoltaic power generation system.
iagrams (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: Displays the working principle of the wet alarm system, 3D animation demonstrations, and semi-transparent 3D models , so you can see the internal water flow. 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 (3 multiple-choice questions built-in, with prompts for correct and incorrect choices)
4. Design layout: There are 6 multiple-choice questions, each with a score. The correct answer and score will be displayed after submission.
C. Escape drill: Teaching is carried out in the form of fun games. Escape from the burning room within a limited time. Wrong choices will directly enter the score interface.
IV. Teaching and research tr*ning projects
2.1. Demonstration and experiment of wind energy conversion during the operation of permanent magnet synchronous wind turbine system
Experiment 1. Principle experiment of basic theory of wind power generation
Experiment 2. Wind power generation system design experiment
Experiment 3. Wind power generation control technology experiment
Experiment 4. Wind power generation related measurement technology experiment
Experiment 5. Simulation experiment of basic theory and application technology of wind power generation Experiment
6. Experiment on the relationship between generator speed and output voltage
Experiment 7. Experiment on the relationship between generator speed and output current Experiment
8. Experiment on the relationship between generator speed and output frequency Experiment
9. Experiment on the relationship between wind speed, i.e. speed and output power
2.2. Demonstration and
experiment Experiment 1: The volt-ampere characteristics of photovolt*c cells;
Experiment 2: The load characteristics test of photovolt*c power generation;
Experiment 3: The relationship between the output power of photovolt*c cells and the incident angle;
Experiment 4: The relationship between the output power and the light intensity;
Experiment 5: The maximum power point tracking experiment test;
Experiment 6: The controller principle experiment;
Experiment 7: The battery charge and discharge control experiment;
Experiment 8: The battery protection experiment;
Experiment 9: The photovolt*c array design experiment;
Experiment 10: The solar lighting system design;
Experiment 11: The solar system electrical load experiment;
Experiment 12: Comprehensive experiment;
3. Principle display: Displays the working principle of the wet alarm system, 3D animation demonstrations, and semi-transparent 3D models , so you can see the internal water flow. 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 (3 multiple-choice questions built-in, with prompts for correct and incorrect choices)
4. Design layout: There are 6 multiple-choice questions, each with a score. The correct answer and score will be displayed after submission.
C. Escape drill: Teaching is carried out in the form of fun games. Escape from the burning room within a limited time. Wrong choices will directly enter the score interface.
IV. Teaching and research tr*ning projects
2.1. Demonstration and experiment of wind energy conversion during the operation of permanent magnet synchronous wind turbine system
Experiment 1. Principle experiment of basic theory of wind power generation
Experiment 2. Wind power generation system design experiment
Experiment 3. Wind power generation control technology experiment
Experiment 4. Wind power generation related measurement technology experiment
Experiment 5. Simulation experiment of basic theory and application technology of wind power generation Experiment
6. Experiment on the relationship between generator speed and output voltage
Experiment 7. Experiment on the relationship between generator speed and output current Experiment
8. Experiment on the relationship between generator speed and output frequency Experiment
9. Experiment on the relationship between wind speed, i.e. speed and output power
2.2. Demonstration and
experiment Experiment 1: The volt-ampere characteristics of photovolt*c cells;
Experiment 2: The load characteristics test of photovolt*c power generation;
Experiment 3: The relationship between the output power of photovolt*c cells and the incident angle;
Experiment 4: The relationship between the output power and the light intensity;
Experiment 5: The maximum power point tracking experiment test;
Experiment 6: The controller principle experiment;
Experiment 7: The battery charge and discharge control experiment;
Experiment 8: The battery protection experiment;
Experiment 9: The photovolt*c array design experiment;
Experiment 10: The solar lighting system design;
Experiment 11: The solar system electrical load experiment;
Experiment 12: Comprehensive experiment;
- Previous:ZOPFG-PV03 wind-solar hybrid power generation training system experimental device
- Next:ZOPFG-01 wind-solar hybrid power generation experimental device
Recommended Products