Refine
Year of Publication
Document Type
- Report (22)
- Peer-Reviewed Article (10)
- Conference Object (5)
- Contribution to Periodical (4)
- Working Paper (3)
- Part of a Book (1)
Das Ziel der Klimaneutralität bis zum Jahr 2045 stellt nicht zuletzt den Industriesektor vor erhebliche Herausforderungen. Für diesen Sektor werden teilweise sehr unterschiedliche Entwicklungspfade in Richtung Klimaneutralität beschrieben, wie ein Blick in verschiedene aktuelle Szenariostudien zeigt. Dennoch gibt es auch im Industriesektor bestimmte Emissionsminderungsstrategien, die in allen vorliegenden Szenarien als unverzichtbar angesehen werden.
In der vorliegenden Studie steht die Forschungsfrage im Mittelpunkt, ob ein vollständig auf erneuerbaren Energien beruhendes Stromsystem mit hohen Importanteilen von rund 10 bis 20 % nach heutigem Stand des Wissens als technisch-ökologisch realisierbar angesehen werden kann. Als Grundlage für die Untersuchung wird in erster Linie auf eine Reihe von Szenariostudien zurückgegriffen, die ein weitgehend treibhausgasemissionsfreies, zu 90 bis 100 % auf regenerativer Erzeugung basierendes und von hohen Stromimportanteilen gekennzeichnetes Stromsystem mit dem Zeithorizont 2050 modellieren und beschreiben. Dabei werden analog zu Szenarien für Deutschland auch vorliegende Szenarien für Europa in den Blick genommen, die für den europäischen Kontinent wesentliche Nettostromimporte aus Nordafrika vorsehen.
Die sog. Klimapfadestudie und ihre Szenarien haben in der Öffentlichkeit ein breites Echo gefunden, nicht zuletzt weil der BDI damit erstmals eine eigene detaillierte Untersuchung der Machbarkeit der deutschen Klimaschutzziele vorlegt und offensiv in die Diskussionen um die langfristige Transformation des Energiesystems einsteigt. Während der BDI in der Mai-Ausgabe der "et" bereits wesentliche Ergebnisse vorgestellt hat, werden die Szenarien der Studie in diesem Artikel mit anderen vorliegenden Klimaschutzszenarien verglichen.
Treibhausgasneutralität in Deutschland bis 2045 : ein Szenario aus dem Projekt SCI4climate.NRW
(2023)
Die klimapolitischen Ziele Deutschlands und der EU machen eine sehr schnelle und tiefgreifende Transformation sowohl der Energieversorgung als auch der energieverbrauchenden Sektoren notwendig. Diese Transformationsherausforderung betrifft nicht zuletzt die energieintensive Industrie in Deutschland, die vor grundlegenden technologischen Veränderungen wichtiger Produktionsprozesse steht. Die Herausforderungen für die Industrie werden durch die aktuelle Energiekrise weiter verschärft.
Vor diesem Hintergrund stellt das hier vorgestellte Klimaschutzszenario "SCI4climate.NRW-Klimaneutralität" (S4C-KN), das im Rahmen des vom Land NRW finanzierten Forschungsprojekts "SCI4climate.NRW" entwickelt wurde, die möglichen künftigen Entwicklungen in der energieintensiven Industrie in den Mittelpunkt der Analyse. Das Szenario analysiert diese Entwicklungen im Kontext eines gesamtwirtschaftlichen Transformationspfads hin zu einem klimaneutralen Deutschland im Jahr 2045.
To combat climate change, it is anticipated that in the coming years countries around the world will adopt more stringent policies to reduce greenhouse gas emissions and increase the use of clean energy sources. These policies will also affect the industry sector, which means that industrial production is likely to progressively shift from CO2-emitting fossil fuel sources to renewable energy sources. As a result, a region's renewable energy resources could become an increasingly important factor in determining where energy-intensive industries locate their production. We refer to this pull factor as the "renewables pull" effect. Renewables pull could lead to the relocation of some industrial production as a consequence of regional differences in the marginal cost of renewable energy sources. In this paper, we introduce the concept of renewables pull and explain why its importance is likely to increase in the future. Using the examples of direct reduced iron (DRI) and ammonia production, we find that the future costs of climate-neutral production of certain products is likely to vary considerably between regions with different renewable energy resources. However, we also identify the fact that many other factors in addition to energy costs determine the decisions that companies make in term of location, leaving room for further research to better understand the future relevance of renewables pull.
International consensus is growing that a transition towards a low carbon society (LCS) is needed over the next 40 years. The G8, the Major Economies Forum on Energy and Climate, as well as the Ad Hoc Working Group on Long-term Cooperative Action under the United Nations Framework Convention on Climate Change, have concluded that states should prepare their own Low-emission Plans or Low-emission Development Plans and such plans are in development in an increasing number of countries.
An analysis of recent long-term low emission scenarios for Germany shows that all scenarios rely heavily on a massive scale up of energy efficiency improvements based on past trends. However, in spite of the high potential that scenario developers assign to this strategy, huge uncertainty still exists in respect of where the efficiency potentials really lie, how and if they can be achieved and how much their successful implementation depends on more fundamental changes towards a more sustainable society (e.g. behavioural changes).
In order to come to a better understanding of this issue we specifically examine the potential for energy efficiency in relation to particular demand sectors. Our comparative analysis shows that despite general agreement about the high importance of energy efficiency (EE), the perception on where and how to achieve it differ between the analysed scenarios. It also shows that the close nexus between energy efficiency and non-technical behavioural aspects is still little understood. This leads us to the conclusion that in order to support energy policy decisions more research should be done on energy efficiency potential. A better understanding of its potential would help energy efficiency to fulfil its role in the transition towards a LCS.
Several low-carbon energy roadmaps and scenarios have recently been published by the European Commission and the International Energy Agency (IEA) as well as by various stakeholders such as Eurelectric, ECF and Greenpeace. Discussions of these studies mainly focus on technology options available on the electricity supply side and mostly omit the significant challenges that all of the scenarios impose on the energy demand side.
A comparison of 5 decarbonisation scenarios from 4 of the most relevant recent scenario studies for the EU shows that all of them imply significant efficiency improvements in traditional appliances, usually well above levels historically observed over longer periods of time. At the same time they assume substantial electrification of transportation and heating. The scenarios suggest that both of these challenges need to be tackled successfully for decarbonising the energy system.
With shares of renewable electricity reaching at least 60 % of supply in 2050 in almost all of the decarbonisation scenarios, the adaptation of demand to variable supply becomes increasingly important. This aspect of demand side management should therefore be part of any policy mix aiming for a low-carbon power system.
Based on a quantitative analysis of 5 decarbonisation scenarios and a comparison with historical evidence we derive the (implicit) new challenges posed by the current low-carbon roadmaps and develop recommendations for energy policy on the electricity demand side.
The EU has set itself ambitious targets with regards to a significant reduction of its greenhouse gas emissions and has presented roadmaps depicting an overall decarbonisation of its economy by the middle of the century. In this context European policymakers and stakeholders are currently discussing the targets and the level of ambition of the 2030 climate and energy policy framework. The Commission is expected to present its own vision for the further development of the energy and climate policy framework in its White Paper "For a 2030 climate and energy policy framework". At this decisive point in the political debate the Wuppertal Institute presents a brief working paper that analyses some of the analytical work - particularly the underlying energy and GHG emission scenarios - behind the Commission's proposals to be presented in the forthcoming White Paper.