german

Operation

The grid loading can be reduced by means of intelligent operation. If power flows are optimally controlled, existing lines can be used optimally.

Isolated grid tested

03.05.2016 – A municipality disconnected from the interconnected network.

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Simulated grid voltage stabilisation

22.02.2016 – More power leads to a higher voltage. Green Access investigates control schemes to comply with the voltage range during good weather conditions.

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Project reports

All projects
SERVING

Service Platform Distribution Grid for Integrated Load Management

The rapidly growing input of electricity from renewable sources into the electricity grid poses huge challenges for energy supply throughout Germany.

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Grid Integration

Integrating the market into the smart grid

In the German electricity grid, which has evolved organically over time, the power flow in the medium and low voltage grids used to be typically characterised by centralised energy distribution.

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The proactive distribution grid

Traffic light concept for more efficient distribution grids

The project combines energy markets and networks based on the BDEW traffic light. Through a new platform, grid operators can access (load and generation) flexibility, prevent local network congestion and optimise network planning.

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NeToVe

Improved topology helps integrate more energy in the medium-voltage level

The goal is ensuring the familiar and high reliability of supply but with increased horizontal feed-in from decentralised power generation systems.

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NETZ:KRAFT

Grid restoration with future power plant structures

In the project NETZ:KRAFT, researchers are developing new grid restoration concepts for future power plant structures. The aim is to integrate renewable energies when restoring supply after a power outage.

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Kickstarter

Power outage without consequences: Starting the grid with decentralised plants

In the event of a major fault, or even a complete power outage in the interconnected network, grid operators and operators of generation units have to coordinate the restoration of power supply within their own various grids.

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grid-control

Smart distribution network: The grid of the future

Which smart solutions could help adapt the grids to the new circumstances, allowing them to continue working reliably around the clock even in critical situations? This is the question that researchers are exploring in the “grid-control” project.

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Symbiosis of photovoltaics and wind

How photovoltaic power stations and wind turbines can complement each other

If nuclear and coal-fired power plants are turned off temporarily or permanently, then decentralised systems such as wind turbines and photovoltaic systems will have to accomplish the task of providing reactive power for the transmission systems in their stead.

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ESOSEG

Open communications platform for distribution network operators

Given the current transformation of the grid into a smart grid, there is the risk of creating an unsustainable and economically disadvantageous scenario. ESOSEG is a building block that can help avoid such an undesirable development.

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U-Control

Economic and technical comparison of static voltage stability

Up until a few years ago, voltage problems were often resolved through expensive conventional grid expansion measures. In the meantime, individual innovative concepts for static voltage stability are often employed.

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CheapFlex

Cheap smart grids with ripple control technology

So far, smart grids have failed due to the high costs of smart meters. The grid can still be operated as a smart grid using other technologies, however. Applying these alternative technologies is a declared goal of CheapFlex.

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LINDA

Grid restoration with renewable energy

The aim of the research and development project LINDA is to develop strategies to restore a critical infrastructure in the event of a major failure.

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EnvirA-Management4Grid

Making power consumption meet supply

A solution for the fluctuating power supply: adapting demand to generation. For example, with controllable loads in industrial enterprises.

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AutoGrid

Opportunities and risks of grid-independence in Germany

In the course of the energy transition, there are rural efforts to meet energy needs through self-generated renewable electricity.

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Grid Commander

Coordinated control of decentralised grids

With an increasing electricity supply from renewable, decentralised energy sources feeding into the existing grid, new responsibilities arise for the distribution grids in particular.

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RegEnKibo

Regional power consumption helps avoid grid expansion

The research project RegEnKibo models and validates the power and gas network of Kirchheimbolanden on a showcase basis using real-time data, and then combines the data in a final step.

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KoRiSim

Cooperative information and risk management

Both the structures, as well as the control of the grid will change radically with the energy transition. The roles of consumers and producers will alternate.

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NetzHarmonie

Detecting harmonics in the grid

Feed-in via power electronics leads to grid harmonics. The NetzHarmonie project aims to identify these harmonics, and then remove them in a second step.

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Transstabil-EE

Controlling wind and solar farms for reliable grids

New solutions for a high level of feed-in of renewable electricity. The control methods used in the research project Transstabil-EE allow for control without reliance on conventional power plants.

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SyNErgie

New reactive power management for distribution grids

In order to compensate for reactive power flows effectively, researchers are developing control strategies that jointly consider distributed generation plants and LICs.

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KOSYNET

Compensation system stabilises grids

An interconnected compensation system to improve the transmission behaviour and the voltage quality of grids can ensure security of supply.

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OpSimEval

Effective grid planning and smart grids lower demand for grid expansion

In the research project “OpSimEval”, the project partners Fraunhofer IWES and the University of Kassel add two important functions to the successful predecessor project OpSim.

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REGEES - Scenario 2030

100 per cent integration of renewable energies

With the planned REGEES project, scientists are investigating how the electricity grid can also integrate renewable energy in the future while continuing to work safely. REGEES stands for optimum operating and control strategies for a reliable electrical energy supply system in Germany with a fully integrated infeed of renewable energy sources in a timeframe to 2030. To this end they are developing new operational management and control strategies, whereby if possible they want to fully integrate intermittently generated energy.

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Green Access

Intelligent distribution grids ensure improved integration of renewable energy sources

The Green Access project is focussing on creating an intelligent distribution grid. The researchers are primarily working on improving the adaptive monitoring and control algorithms, intelligent control systems and a grid-friendly infrastructure. The scientists are aiming to design the grid so that it can independently adapt itself to future load and infeed changes and varying grid topologies.

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DeF-Neg

Ancillary services from the low- and medium-voltage level

In the event of major faults it must be ensured that no photovoltaic systems and wind turbines are shut down because they can contribute to supporting the system by feeding in their power. Within the joint DeF-Neg project, researchers are therefore investigating how measures for stabilising the frequency can be shifted to the distribution grids.

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ReduMa

Impact of reduced rotating mass on the grid operation

The electrical power supply in Germany is being increasingly dominated by renewable energy generation systems. This is causing conventional power plants to be displaced. But how is this impacting on the grids?

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SysDL 2.0

Ancillary services from area distribution grids

Ancillary services keep the electricity grid stable. With the increased construction of renewable, volatile generation plants, the market for ancillary services is changing. This is because, in comparison with conventional power plants, renewables have some considerable differences.

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NEMAR

Identifying and serving new electricity grid markets

The NEMAR project (network management as a new market role) has resulted from the increasing demands made on decentralised power generators and loads to contribute to ancillary services, system stability and supply security. By jointly coordinating the electricity market participants in the distribution grid, the researchers are aiming to create a new market role.

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Verteilnetz 2020

Optimum interaction in the distribution grid

With the increasing expansion of renewable energies, the medium- and low-voltage distribution grids are reaching their intake limits, particularly in rural areas. This is leading to problems with maintaining the voltage stability and with equipment overloads.

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CoNDyNet

Principles and concepts for efficient, decentralised electricity grids

Theoretical and applied scientists and industrial partners are working closely together on developing basic criteria for the stability, reliability, risks and market access of future-proof electricity grids, whereby the focus in on the entire European region and a comprehensive supply with renewable energy sources.

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LISA

Dynamic voltage stability thanks to new control concepts

In particular, the ability of rural low-voltage grids to absorb decentralised electricity generation is currently largely limited by the need to maintain the permissible voltages according to DIN EN 50160. The thermal load limits for operating equipment can only be solved by the use of storage systems, down-regulation or by expanding the grid. In contrast, further technical options are available for voltage limit violations.

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PolyEnergyNet

Resistant medium and low voltage grids

In the PolyEnergyNet project, developers led by project coordinator Dr Ralf Levacher are focussing on constructing a resilient grid at the medium- and low-voltage level.

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LeKI

Predicting operating times, minimising downtimes

After which operating time should insulators be replaced? Is it possible to replace them together with other components in order to keep the shutdown periods and costs to a minimum and yet nevertheless use the components in an efficient and safe manner? Are there ways to conduct inspections or special tests that increase the guaranteed service life of the insulators?

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MONA 2030

Optimising grids economically

The MONA 2030 project is aimed at providing a system-wide comparison of grid-optimising measures. This comparison is intended to make a significant contribution to predictive grid planning that correspondingly takes into account the different facets of the energy generation.

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iNET-FA²

Smart distribution grids for more flexibility

The overarching project outcome is a generalised description method and automation architecture for electrical energy supply grids. The special feature about it is that it meets the required flexibility, adaptability and sustainability in terms of an evolutionary development process for smart grids.

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ReWP

Balancing energy from wind and photovoltaic farms

In the joint ReWP project, the researchers are investigating the extent to which wind and solar energy can be used to provide balancing power. This is an essential step in ensuring a high proportion of renewable energies in the overall system.

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PV-Regel

Balancing power with PV systems for stable grid operation

The use of renewable energy for providing balancing power represents a major challenge on route to increasing the use of renewables in the grid. This is important, however, in order to achieve a stable grid operation. The developers at PV-Regel are therefore researching solutions for photovoltaic systems.

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IMOWEN

Securely integrating wind farm clusters in the grid

High-sea wind farms offer significant advantages for the electricity production: the wind conditions remote from the coasts are much more uniform and there is much more space than inland. But how can the wind farms be sensibly integrated into the existing electricity grid?

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ZEM

Future-proof congestion management in the transmission grid

The aim of the project is to make better use of the existing transmission capacities and so reduce the need to expand the transmission grid. The engineers want to achieve this using new algorithms and so-called agent-based methods for monitoring the network.

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TransHK

Transferring more power with direct and alternating current

The increasingly decentralised and temporally fluctuating production of electricity from renewable sources makes it necessary to create additional transport capacity for electrical energy. With critical components for the energy transmission, thermal and electrical phenomena depend heavily on each other and determine the current-carrying capacity.

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FLOW-R

Flexible local network voltage and active power controller

In rural areas, overloading can cause grid voltages that exceed the specified tolerances. The grid voltage can be optimally regulated using the kind of controller being developed in the FLOW-R project.

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ENERGIE

Detecting network state variables in real time

Determining the network state in low-voltage grids as close to real time as possible requires new instruments and measurement methods. Paired with data transmission, these can enable the network state at local network stations to be independently evaluated.

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IREN2

Future-viable grids for the integration of renewable energy systems

The aim of the IREN2 research project is to develop control systems for microgrids. This is necessary in order to integrate the constantly growing share of renewably generated electricity within the requirements made on the network operations management. One focus of the project is on controlling and scheduling microgrids. Using simulations, the researchers are investigating the limits for ancillary services that topological power plants can bring to the network operations management.

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Allfred

Renewable energy for providing grid support

How well can renewable energy generation systems support the electricity grid? With the results of the Allfred project, it should be possible to check various aspects with just one system.

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Basic information

The energy generated in a grid must always be equal to the energy consumed. The ancillary services are tasked with ensuring this.

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Virtual power plants, active distribution grids, smart meters and adaptive protection systems – here you can find information about the most important aspects of smart grids.

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What do direct and alternating current mean? How do they differ and what are the advantages and disadvantages?

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How is our power grid structured? What sort of networks are there? What do security and quality of supply mean?

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