Pathways toward a Decarbonized Future—Impact on Security of Supply and System Stability in a Sustainable German Energy System

Pathways toward a Decarbonized Future—Impact on Security of Supply and System Stability in a Sustainable German Energy System

Pathways leading to a carbon neutral future for the German energy system have to deal with the expected phase-out of coal-fired power generation, in addition to the shutdown of nuclear power plants and the rapid ramp-up of photovoltaics and wind power generation. An analysis of the expected impact o...

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Main Authors: Michael Metzger, Mathias Duckheim, Marco Franken, Hans Joerg Heger, Matthias Huber, Markus Knittel, Till Kolster, Martin Kueppers, Carola Meier, Dieter Most, Simon Paulus, Lothar Wyrwoll, Albert Moser, Stefan Niessen
Format: Article
Language:English
Published: MDPI AG 2021-01-01
Series:Energies
Subjects:
multi-energy systems
energy system planning
market simulation
transmission grid analysis
congestion management
system stability
Online Access:https://www.mdpi.com/1996-1073/14/3/560
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spelling doaj-b0c1232ae839421d99c3ff00371803362021-01-23T00:02:10ZengMDPI AGEnergies1996-10732021-01-011456056010.3390/en14030560Pathways toward a Decarbonized Future—Impact on Security of Supply and System Stability in a Sustainable German Energy SystemMichael Metzger0Mathias Duckheim1Marco Franken2Hans Joerg Heger3Matthias Huber4Markus Knittel5Till Kolster6Martin Kueppers7Carola Meier8Dieter Most9Simon Paulus10Lothar Wyrwoll11Albert Moser12Stefan Niessen13Technology, Research in Energy and Electronics, Siemens AG, Otto-Hahn Ring 6, 81739 Munich, GermanyTechnology, Research in Energy and Electronics, Siemens AG, Otto-Hahn Ring 6, 81739 Munich, GermanyInstitute of High Voltage Equipment and Grids, Digitalization and Energy Economics, RWTH Aachen University, Schinkelstraße 6, 52062 Aachen, GermanyTechnology, Research in Energy and Electronics, Siemens AG, Otto-Hahn Ring 6, 81739 Munich, GermanyTechnology, Research in Energy and Electronics, Siemens AG, Otto-Hahn Ring 6, 81739 Munich, GermanyInstitute of High Voltage Equipment and Grids, Digitalization and Energy Economics, RWTH Aachen University, Schinkelstraße 6, 52062 Aachen, GermanyTechnology, Research in Energy and Electronics, Siemens AG, Otto-Hahn Ring 6, 81739 Munich, GermanyTechnology, Research in Energy and Electronics, Siemens AG, Otto-Hahn Ring 6, 81739 Munich, GermanyInstitute of High Voltage Equipment and Grids, Digitalization and Energy Economics, RWTH Aachen University, Schinkelstraße 6, 52062 Aachen, GermanyTechnology, Research in Energy and Electronics, Siemens AG, Otto-Hahn Ring 6, 81739 Munich, GermanyTechnology, Research in Energy and Electronics, Siemens AG, Otto-Hahn Ring 6, 81739 Munich, GermanyInstitute of High Voltage Equipment and Grids, Digitalization and Energy Economics, RWTH Aachen University, Schinkelstraße 6, 52062 Aachen, GermanyInstitute of High Voltage Equipment and Grids, Digitalization and Energy Economics, RWTH Aachen University, Schinkelstraße 6, 52062 Aachen, GermanyTechnology, Research in Energy and Electronics, Siemens AG, Otto-Hahn Ring 6, 81739 Munich, GermanyPathways leading to a carbon neutral future for the German energy system have to deal with the expected phase-out of coal-fired power generation, in addition to the shutdown of nuclear power plants and the rapid ramp-up of photovoltaics and wind power generation. An analysis of the expected impact on electricity market, security of supply, and system stability must consider the European context because of the strong coupling—both from an economic and a system operation point of view—through the cross-border power exchange of Germany with its neighbors. This analysis, complemented by options to improve the existing development plans, is the purpose of this paper. We propose a multilevel energy system modeling, including electricity market, network congestion management, and system stability, to identify challenges for the years 2023 and 2035. Out of the results, we would like to highlight the positive role of innovative combined heat and power (CHP) solutions securing power and heat supply, the importance of a network congestion management utilizing flexibility from sector coupling, and the essential network extension plans. Network congestion and reduced security margins will become the new normal. We conclude that future energy systems require expanded flexibilities in combination with forward planning of operation.https://www.mdpi.com/1996-1073/14/3/560multi-energy systemsenergy system planningmarket simulationtransmission grid analysiscongestion managementsystem stability
collection DOAJ
language English
format Article
sources DOAJ
author Michael Metzger
Mathias Duckheim
Marco Franken
Hans Joerg Heger
Matthias Huber
Markus Knittel
Till Kolster
Martin Kueppers
Carola Meier
Dieter Most
Simon Paulus
Lothar Wyrwoll
Albert Moser
Stefan Niessen
spellingShingle Michael Metzger
Mathias Duckheim
Marco Franken
Hans Joerg Heger
Matthias Huber
Markus Knittel
Till Kolster
Martin Kueppers
Carola Meier
Dieter Most
Simon Paulus
Lothar Wyrwoll
Albert Moser
Stefan Niessen
Pathways toward a Decarbonized Future—Impact on Security of Supply and System Stability in a Sustainable German Energy System
Energies
multi-energy systems
energy system planning
market simulation
transmission grid analysis
congestion management
system stability
author_facet Michael Metzger
Mathias Duckheim
Marco Franken
Hans Joerg Heger
Matthias Huber
Markus Knittel
Till Kolster
Martin Kueppers
Carola Meier
Dieter Most
Simon Paulus
Lothar Wyrwoll
Albert Moser
Stefan Niessen
author_sort Michael Metzger
title Pathways toward a Decarbonized Future—Impact on Security of Supply and System Stability in a Sustainable German Energy System
title_short Pathways toward a Decarbonized Future—Impact on Security of Supply and System Stability in a Sustainable German Energy System
title_full Pathways toward a Decarbonized Future—Impact on Security of Supply and System Stability in a Sustainable German Energy System
title_fullStr Pathways toward a Decarbonized Future—Impact on Security of Supply and System Stability in a Sustainable German Energy System
title_full_unstemmed Pathways toward a Decarbonized Future—Impact on Security of Supply and System Stability in a Sustainable German Energy System
title_sort pathways toward a decarbonized future—impact on security of supply and system stability in a sustainable german energy system
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2021-01-01
description Pathways leading to a carbon neutral future for the German energy system have to deal with the expected phase-out of coal-fired power generation, in addition to the shutdown of nuclear power plants and the rapid ramp-up of photovoltaics and wind power generation. An analysis of the expected impact on electricity market, security of supply, and system stability must consider the European context because of the strong coupling—both from an economic and a system operation point of view—through the cross-border power exchange of Germany with its neighbors. This analysis, complemented by options to improve the existing development plans, is the purpose of this paper. We propose a multilevel energy system modeling, including electricity market, network congestion management, and system stability, to identify challenges for the years 2023 and 2035. Out of the results, we would like to highlight the positive role of innovative combined heat and power (CHP) solutions securing power and heat supply, the importance of a network congestion management utilizing flexibility from sector coupling, and the essential network extension plans. Network congestion and reduced security margins will become the new normal. We conclude that future energy systems require expanded flexibilities in combination with forward planning of operation.
topic multi-energy systems
energy system planning
market simulation
transmission grid analysis
congestion management
system stability
url https://www.mdpi.com/1996-1073/14/3/560
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