Backup power supply concept with renewable energy sources and MTU Onsite Energy CHP successfully tested

  • 185 photovoltaic systems, 2 hydroelectric power plants and a biogas plant form an autonomous power supply network for 3 local communities and 1,100 households
  • Gas-powered gensets prove ideal as leading power plants in the islanded grid

In November 2018, LEW Verteilnetz GmbH, MTU Onsite Energy and additional project partners from industry and science received the Bavarian Energy Award for the LINDA project. LINDA stands for local island power supply and accelerated grid restoration with distributed generation systems in the event of large-scale outages. In a number of field trials in an isolated network, a backup power supply concept based on renewable energy sources and MTU Onsite Energy CHP plants was successfully tested. The brand MTU Onsite Energy is part of Rolls-Royce Power Systems.

Securing the supply of backup power with renewables
The project background: a long-term, large-scale power outage can have serious consequences for nearly all areas of society like healthcare, IT, transport and traffic. Those involved in the project demonstrated that distributed generation units, such as photovoltaic systems, hydroelectric power plants and biogas plants, can be used to supply emergency backup power in the event of an outage. To this end, the project partners developed a concept and have now tested it successfully in what have been the most extensive field trials in an isolated grid in Germany to date: in three Bavarian communities, 1,100 households, 185 photovoltaic systems, two hydroelectric power plants and a biogas plant were interconnected in an autonomous islanded grid for a period of six hours. "In the course of carrying out the field trials, stable stand-alone mode operation was possible at all times," said Dr. Georg Kerber, project manager at LEW Verteilnetz GmbH.

The LINDA concept focuses primarily on the supply of emergency backup power for critical infrastructures, such as hospitals or drinking water supply systems. In the event of a power outage, they can be supplied with power from an islanded grid (microgrid) that is not connected to the national grid. Photovoltaic systems have not been used to provide a backup power supply to date, as these systems are dependent on an existing grid supplying a stable voltage and frequency. As a result of LINDA, such distributed generation units can now be made available to supply emergency backup power: a power plant with black start capability, in other words one that can start up on its own without the need for electric power, acts as the leading power plant and ensures that the frequency remains stable at 50 Hz. Due to the given power ratio this was performed by a hydroelectric power plant. The biogas plant based on MTU Onsite Energy gas generator sets was tested on its frequency stability. Photovoltaic systems thus recognise that a grid is in place and begin to supply the grid with electric power as if they were operating in a typical interconnected network. With the exception of modifications to the leading power plant, no retrofits to the systems are necessary. The concept can be applied quite well to other systems. LINDA is thus a key element in bringing about the energy transition and improving power supply reliability.

Gas-powered generator sets prove ideal as leading power plants in the islanded grid
In order to employ the backup power supply concept on a wide scale, the possibility of applying the concept to gas-powered generator sets as leading power plants in an islanded grid was also investigated on test benches using MTU engines. "Due to the widespread use of gas-fired power plants, their black start capability and their high availability levels, this type of power plant is extremely interesting for its use as a leading power plant," says Marcus Mücke, Head of Automation Systems Development at MTU Onsite Energy. "The results show that gas engines and biogas plants can be used as leading power plants." Rolls-Royce Power Systems will incorporate the new insights of this project into its further developed product portfolio of turnkey microgrids.

Project participants from industry and science
The project LINDA was developed and implemented under the leadership of LEW Verteilnetz GmbH, with partners from industry, such as MTU Onsite Energy GmbH, Bayerische Elektrizitätswerke GmbH, Stellba Hydro GmbH & Co KG, Marquis Automatisierungstechnik GmbH, PSI Software AG, and science, such as Augsburg University of Applied Sciences and the Technical University of Munich.

Press photos are available for download from www.rrpowersystems.com/press

About Rolls-Royce Holdings plc

  1. Rolls-Royce pioneers cutting-edge technologies that deliver the cleanest, safest and most competitive solutions to our planet’s vital power needs.
  2. Rolls-Royce Power Systems is headquartered in Friedrichshafen in southern Germany and employs around 10,000 people. The product portfolio includes MTU-brand high-speed engines and propulsion systems for ships, power generation, heavy land, rail and defence vehicles and for the oil and gas industry. Under the MTU Onsite Energy brand, the company markets diesel gensets for emergency, base load and peak load applications as well as cogeneration plants using gas engines for the combined generation of heat and power. Bergen medium-speed engines power ships and power generation applications.
  3. Rolls-Royce has customers in more than 150 countries, comprising more than 400 airlines and leasing customers, 160 armed forces, 4,000 marine customers including 70 navies, and more than 5,000 power and nuclear customers.
  4. Annual underlying revenue was £15 billion in 2017, around half of which came from the provision of aftermarket services. The firm and announced order book stood at £78.5 billion at the end of December 2017.
  5. In 2017, Rolls-Royce invested £1.4 billion on research and development. We also support a global network of 31 University Technology Centres, which position Rolls-Royce engineers at the forefront of scientific research.
  6. Rolls-Royce employs almost 50,000 people in 50 countries. More than 18,200 of these are engineers.
  7. The Group has a strong commitment to apprentice and graduate recruitment and to further developing employee skills. In 2017 we recruited 313 graduates and 339 apprentices through our worldwide training programmes.

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