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"Smart Grid" - Intelligent power mains
"Smart Grid" - Intelligent power mains
In the future, new technology will better equip the power grid for the demands of tomorrow. More flexible grid management should make the increasing proportion of renewable energy sources compatible with conventional infrastructures associated with power stations. The variety and number of these decentralised power plants require a revision in how we manage power grids – the so-called intelligent or "Smart Grid":
Improving coordination of energy requirements and generation
Using modern IT technology, like the Internet, sensors, control systems and wireless transmission devices
"Smart metering" – digital current meters measure current consumption at end points of the grid
Shifting household consumption away from peak load periods
Starting flexible applications such as washing machines outside peak load periods, at the initiation of a utility provider
The Lucas-Nülle training systems have been designed in anticipation of these developments:
Smart measuring instruments which avail of various communication interfaces (e.g. LAN, RS485, USB) and control elements
SCADA Power Engineering Lab software for the intelligent control and evaluation of the "Smart Grid" with soft plc
Didactically designed SCADA software
Permits investigation of dynamically alternating loads and power generation inside the laboratory
Intelligent energy management
Modular integration of renewable energies into the smart grid using protective engineering
Wind power plant with doubly-fed asynchronous generator (DFIG) with mains sychronisation
Interactive multimedia training course
Training system on the generation, transmission, distribution, protection and management of electrical energy:
Energy management, smart grid training system
Energy generation, regenerative energy generation
High-voltage transmission lines, protective systems
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Description of the training panel system with photorealistic colour printing
The training panels consist of 5 mm thick panels of compressed laminated sheets coated on both sides with highly resistant melamine resin. The base colour of the panel is RAL7035 (light grey). Panel dimensions are standard DIN A4 in height (297mm). There are three different width variations available: 114 mm, 228 mm or 456 mm. To reduce the potential for injury, the front panel corners have rounded edges with a radius of 3 mm. The component symbols or circuit diagrams are screen printed in black in accordance with the latest DIN guidelines on the front panels, and where necessary enhanced with contrast-rich UV colour. When possible and expedient the front panel has been supplemented by colour graphics or photos. The UV colour print is also fade-resistant even when exposed to the sun’s rays. A special process using an additional protective lacquer coating protects the robust nature of the surface and makes it scratch resistant while it in no way compromising the front panel’s print transparency and clarity. The electrical connections are terminated at 4-mm safety sockets. The rear side is protected against physical contact with a removable cover.
For didactic reasons facilitating design and clarity the power supply bus is located at the upper and lower panel edges and features colours in accordance with DIN72551.
The training panels can be inserted into special experiment panel frames without having to use a tool. Alternatively, there is always the option of setting up any experiment panel with desktop case directly on the table or inside a carrying case.
