TB220505S27 Photovoltaic Power Generator Trainer Vocational Training Equipment Photovoltaic Generator Training System
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. 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. Capacity (1)Wind power generation (2) Solar energy generation set (3)Training workbench: aluminum structure (4) Single solar energy cell plate: (5) Fan technical: (6) Battery (7)Work condition: Temperature-10~+40℃Temperature≤80℃ Environment air: no corrosivityair, no fuel air, no large quantity of conductive dust (8)Power:
3 System introduction This system can be divided to four part: wind generating electricity system, photovoltaic power generation system, control system, inverter system . Wind generating electricity system consistof fan, generator, battery. Photovoltaic power generation systemconsist of light source, photovoltaic cell plate, battery. Control system consist of wind and solarcomplementary controller. Inverter system is made of frequency inverterand load unit. 1.Simulate wind generating electricity set: this system select horizontal axis magnet synchronousgenerator, use fan to simulate wind, through adjust fan position to change wind strength and direction, to test generator effect in the same condition. 2.Simulator photovoltaic power generation system:this system use 4 pieces of 30Wsolar energy board, You can connect in series or in parallel according to different system pressure. Simulate solar light set consist of two metal halide, it can adjust the relative position with photovoltaic plate, to simulatesolar light position, and demonstration. 3.Battery group: it consist of 4 pieces 12V/40AHseal battery group, you can parallel connect use as 12V200AHsystem, you can also connect in series as 24V/100AHsystem, and deep understand battery. 4.Controller hanging box:this hanging box use industrial type charger controller, it cancontrol wind generator and photovoltaicgenerator to charge on battery. With LCD display board, you can check system technical parameter and can set by yourselves. It is with prevent overcharge, over current 5.Inverter hanging box:adopt 12V/24Vvoltage intelligent recognize frequency inverter, output voltageis AC220V, continuously work power is 600W, peak work power is 1000W. Rotary efficiency>90%, low voltage automatic alarm. 6.Meter box: it display generator voltage, generator current, charge voltage, charge current, inverter voltage, inverter current in real time. 3.2Training workbench Training workbench use aluminum column structure hold, with universal wheels at bottom, two wheels are with brake, you can move and fix as your like. Desktop thickness is 25mmhigh density board, surface with anti high temperature treatment, equip with three door, with two drawers, the structure is beautiful. 3.3Power 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.
4.Specific characteristics: •Battery: 12 volts and 100 amps/hour •Frequency: 60 Hertz. •Includes: Horizontal axis wind generator, microprocessor regulator, wind protection, electronic torque control, mounting kit and photovoltaic module. •Power: 600 Watt. •Inverter input voltage: 12 volts in direct current. •Inverter output voltage: 230 Volt Additional features. •The body of the generator must be made of aluminum and have at least three blades. •The alternator must be of the Brushless type with permanent magnets. •It must have an output voltage of 12 Vdc in solar panel and wind turbine. •The mast of the support must be in stainless steel. •Energy produced should be approximately 30 kWh/month with 5.8 mls (13 mph) wind speed. •Minimum wind speed for activation must be 3.6 mls (8 mph). •Maximum wind speed must be 49.2 mls (110 mph). •The peak power corresponding to the maximum radiation must be 115 W. •It must have a support mounted on wheels and with adjustable inclination. •It must include a charge regulator for photovoltaic panels, with a maximum current of 20 A. •An ammeter clamp must be supplied with a voltage range (AC/DC): 0 to 600 V and a current range (AC/DC) : 0 to 200 A. • An inverter must be supplied that has a modified sinusoidal output waveform, as well as low battery shutdown and protection against overloads, short circuits and over temperatures. •Must include induction with a certified instructor for its operation and maintenance. 5Experiment list (1)Battery feature test:1)electricity technical parameter 2)Battery connect in series and parallel (2)Charge controller experiment:1)connectinversedprotection experiment 2)Controller protection on battery overcharge 3)Controller protection on battery over discharging experiment 4)Anti reverse chargeexperiment (3)Simulate wind generating electricity system experiment (4) Wind energy charging control experiment (5)Generator work power test experiment (6)Photovoltaicbattery open circuit voltage test experiment (7)Photovoltaicbattery short circuit current test experiment (8)Photovoltaicbattery work power test experiment (9)To test photovoltaicbattery different maximum test experiment under different illumination (10)Photovoltaicbattery output feature experiment (11)Photovoltaicbattery charging control principle experiment (12)Photovoltaicbattery anti reverse charging experiment (13)Photovoltaicbattery connect in series and parallel experiment (14)Inverter basic principle experiment (15)Simple inverter output waveform test experiment (16)Photovoltaicbattery 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