Model #TK-SMART-r2g-1605

Smart Grid Ready2Go Training System

Toolkit’s SmartGrid Ready2Go Training System allows students to get an understanding of the entire process behind renewable energy’s conversion from source into usable energy in the power grid. Students will address power grid stability in relation to renewable energy and begin to address the issues that relate to the use of renewable energy sources.

Pricing upon request

Product Documents

SmartGrid-Ready2Go Datasheet

Description

Experiments

1. Basic experiments on photovoltaic
1.1 The I-V-characteristic of a solar module
1.2 The I-V-characteristic of a solar module depending on the illuminance
1.3 The I-V-characteristic of a solar module depending on the temperature
2. Basic experiments on wind power
2.1 The dependence of the power on the pitch angle and the blade design
2.2 The dependence of the power on the number of blades
2.3 The dependence of the power on the wind direction
3. Basic experiments on energy storage technologies
3.1 The I-V-characteristic of an electrolyzer
3.2 Behavior of the voltage and the current during charging of an electrolyzer
3.3 The I-V-characteristic of a fuel cell
3.4 Behavior of the voltage and the current during discharging a fuel cell
3.5 The t-V- and t-I-characteristic of a capacitor during charging
3.6 The t-V- and t-I-characteristic of a capacitor during discharging
3.7 The use of the electric car with capacitor and fuel cell
4.1 The power fluctuations of a photovoltaic station
4.2 The power fluctuations of a wind turbine
4.3 Energy supply of a building by a power plant
4.4 Energy supply of a building by a power plant and a photovoltaic station
4.5 Energy supply of a building by a power plant, a photovoltaic station and an energy storage
4.6 The behavior of the voltage in a conventional line grid
4.7 The behavior of the voltage in a line grid with photovoltaic station
4.8 The behavior of the voltage in a line grid with photovoltaic station depending on the consumption
4.9 The behavior of the voltage in a line grid with photovoltaic station depending on the distance to the transformer
4.10 The behavior of the voltage in a line grid with photovoltaic station and an intelligent transformer station
4.11 The behavior of the voltage in a line grid with photovoltaic station and an energy storage (fuel cell / E-Mobility)
4.12 The behavior of the voltage in a line grid with photovoltaic station and load management
4.13 Power line monitoring
4.14 Scenario experiment: Smart Grid

Components:

1x 1100-53 SM 5.22V, 380mA, 4mm plug
1x 1100-19 leXsolar-Base unit Large
1x 1100-21 Diode module
2x 1100-26 Light bulb module
1x 1100-27 Motor Module without Gear
1x 1118-17 Base for solar panel
1x 1400-12 leXsolar-Wind rotor set
1x 1400-19 Wind machine
1x 1400-22 Wind turbine module
2x 1600-01 power grid module
1x 1600-02 Capacitor module 5.0F/5.4V
1x 1801-02 Electric model car
1x 9100-03 AV-Module
2x 9100-04 SmartMeter
2x 9100-05 PowerModule
1x 1100-61 Potentiometer module 110 Ohm
12x L2-02-016 Bumpon transparent 5,0 mm height X 11,1mm diameter
1x L2-02-017 Propeller
1x L2-04-080 Lamp housing
1x L2-04-116 Illuminant 120W, 12°
4x L2-06-012 Test lead black 25 cm
7x L2-06-013 Test lead red 25 cm
3x L2-06-014 Test lead black 50 cm
1x L2-06-067 Reversible Fuel cell
1x L3-01-139 Insert SmartGrid RtG 1605
1x L3-01-140 Aluminium case SmartGrid RtG 1605
1x L3-03-169 Layout diagram 1605 SmartGrid Ready-to-go
1x L3-03-176 Azimuth angle scale
3x L2-06-015 Test lead red 50 cm
1x L3-03-258 Info sheet initial startup

Learning Topics

  • Renewable Energy

Grade/Skill Level

Designed for:

  • High School
  • Industry
  • K-8
  • Technical College
  • University

Additional information

Manufacturer