Zukünftige Energie- und Industriesysteme
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This article reviews the literature on the past cost dynamics of various renewable, fossil fuel and nuclear electricity generation technologies. It identifies 10 different factors which have played key roles in influencing past cost developments according to the literature. These 10 factors are: deployment-induced learning, research, development and demonstration (RD&D)-induced learning, knowledge spillovers from other technologies, upsizing, economies of manufacturing scale, economies of project scale, changes in material and labour costs, changes in fuel costs, regulatory changes, and limits to the availability of suitable sites. The article summarises the relevant literature findings for each of these 10 factors and provides an overview indicating which factors have impacted on which generation technologies. The article also discusses the insights gained from the review for a better understanding of possible future cost developments of electricity generation technologies. Finally, future research needs, which may support a better understanding of past and future cost developments, are identified.
The Greens / European Free Alliance Group of the European Parliament contracted Wuppertal Institute in collaboration with Energiaklub to develop scientifically sound, comprehensive, alternative, and sustainable long term energy scenarios for Hungary, which cover potential development paths till 2030 and 2050. The scenarios developed deliver information about the costs and long-term effects of different energy choices for Hungary as well as credible information on potential benefits of greening the energy mix. As a result, the study aims to provide policy makers with better evidence for making informed, prudent and forward-thinking decisions in this field.
Als Beitrag zu einer fundierten Diskussion über adäquate Politikinstrumente in der Wärmewende hat der FVEE mit seinen Mitgliedsinstituten im September 2015 ein Positionspapier erstellt: "Erneuerbare Energien im Wärmesektor - Aufgaben, Empfehlungen und Perspektiven". Dieses gibt einen umfassenden Überblick über die Herausforderungen und Handlungsoptionen im Wärmesektor und bietet damit eine wichtige Orientierung bei der Gestaltung der Energiewende.
Um die Energiewende erfolgreich umzusetzen, plädiert der FVEE für eine deutliche Stärkung des Wärmesektors in der Energiepolitik und eine entschiedene und langfristig angelegte Politik der Wärmewende, die den besonderen Anforderungen des Wärmesektors gerecht wird. Im vorliegenden Beitrag werden ausgewählte Analyseergebnisse und Empfehlungen des Positionspapiers vorgestellt.
Die Energiewende stellt eine gesellschaftliche Herausforderung dar und bedarf neuer Arbeitskonzepte. Diese These vertreten Uta von Winterfeld und Adelheid Biesecker in ihrem Beitrag "Bitte zweimal wenden! - Die Transformation der Energie- und Arbeitswelt". Ausgehend davon, dass die Energiewende einer sozial-ökonomischen Revolution gleichkomme und die Geschichte der Energie eine Geschichte steigender Arbeitsproduktivität sei, weswegen regenerative Energiequellen wie Sonne und Wind die Entwicklung bedrohen und zu einer Rückkehr zu einer früheren zivilisatorischen Phase führen würden, zeigen die Autorinnen, dass man zu letzterer Einsicht nur dann gelangt, wenn man die Energiewende ohne die notwendige Arbeitswende betrachtet. Damit die Energiewende nicht nur gelingt, sondern auch wirtschaftlich und gesellschaftlich positiv verläuft, braucht es laut Autorinnen eine Neuorganisation von Energie und Arbeit.
Carbon markets in a <2 °C world : will there be room for international carbon trading in 2050?
(2016)
This JIKO Policy Paper analyses a series of very ambitious mitigation scenarios and complements this analysis with a review of several sectoral technology roadmaps. The results are quite clear: there is no reason to believe that international carbon trading will become obsolete any time soon. Whether or not international carbon trading is to play a role in international climate protection efforts is in the end not a physical or economic question, but a political one.
Will climate change stay below the 2 degree target in the 21st century on the basis of the COP 21 results? Looking into challenges and opportunities, this paper answers: To stay below the global 2dt is neither a real choice for the world society nor for businesses and civil societies in specific countries. It is a global guideline, scientifically developed for global negotiations, which should be broken down to national interests and actors. Key questions concerning the energy sector from the perspective of national interests are how to create and sustain a momentum for the inevitable energy transition, how to encourage disruptive innovations, avoid lock in effects, enable rapid deployment of energy efficiency and renewable energies etc. Or in other words: how to get to a competitive, economically benign, inclusive, low carbon and risk minimising energy system. With this background the paper argues that "burden sharing" is a misleading perception of strong climate mitigation strategies. It is more realistic to talk about "benefit sharing", using the monetary benefits and co-benefits of climate mitigation (e.g. energy cost savings, revenues from CO2-tax or emission trading systems) to help vulnerable national and international actors to adapt to the unavoidable climate risks. It has to be demonstrated on country level that the technologies and policy mix of strong climate mitigation and risk-minimising actions are indeed "benefit sharing" strategies which should be chosen anyhow, even if there was no climate change. For China and Germany this paper includes basic findings supporting this view.
The need for deep decarbonisation in the energy intensive basic materials industry is increasingly recognised. In light of the vast future potential for renewable electricity the implications of electrifying the production of basic materials in the European Union is explored in a what-if thought-experiment. Production of steel, cement, glass, lime, petrochemicals, chlorine and ammonia required 125 TW-hours of electricity and 851 TW-hours of fossil fuels for energetic purposes and 671 TW-hours of fossil fuels as feedstock in 2010. The resulting carbon dioxide emissions were equivalent to 9% of total greenhouse gas emissions in EU28. A complete shift of the energy demand as well as the resource base of feedstocks to electricity would result in an electricity demand of 1713 TW-hours about 1200 TW-hours of which would be for producing hydrogen and hydrocarbons for feedstock and energy purposes. With increased material efficiency and some share of bio-based materials and biofuels the electricity demand can be much lower. Our analysis suggest that electrification of basic materials production is technically possible but could have major implications on how the industry and the electric systems interact. It also entails substantial changes in relative prices for electricity and hydrocarbon fuels.
On behalf of the Port of Rotterdam Authority, the Wuppertal Institute developed three possible pathways for a decarbonised port of Rotterdam until 2050. The port area is home to about 80 per cent of the Netherlands' petrochemical industry and significant power plant capacities. Consequently, the port of Rotterdam has the potential of being an international leader for the global energy transition, playing an important role when it comes to reducing CO2 emissions in order to deliver on the EU's long-term climate goals.
The three decarbonisation scenarios all built on the increasing use of renewables (wind and solar power) and the adoption of the best available technologies (efficiency). The analysis focuses on power plants, refineries and the chemical industry, which together are responsible for more than 90 per cent of the port area's current CO2 emissions.
The decarbonisation scenarios describe how CO2 emissions could be reduced by 75 to 98 per cent in 2050 (compared to 2015). Depending on the scenario, different mitigation strategies are relied upon, including electrification, closure of carbon cycles or carbon capture and storage (CCS). The study includes recommendations for local companies, the Port Authority as well as policy makers. In addition, the study includes a reference scenario, which makes it clear that a "business as usual" mentality will fall well short of contributing adequately to the EU's long-term climate goals.
Renewable energy plays a key role in the sustainable pathway towards a low carbon future and, despite new supply capacities, the transformation of the energy system also requires the adoption of a method which allows for the integration of increasing amounts of renewable energy. This requires a transition to more flexible processes at an industrial level and demand side management (DSM) is one possible way of achieving this transition. Currently, increased shares of variable renewable energy can cause the electricity supply to become more volatile and result in changes to the electricity market. In order to develop a new dynamic equilibrium to balance supply and demand, sufficient flexibility in demand is required. As adequate storage systems are not available in the short to medium term, the potential for large electricity consumers to operate flexibly is an attractive, pragmatic and feasible option. Recent studies in Germany suggest that there is significant potential for DSM in so-called "energy-intensive industries". However, the figures (which fall in the approximate range of 1,250-2,750 MW positive and 400-1,300 MW negative shiftable load) should be interpreted with caution. The range of industrial processes considered are diverse and vary from plant to plant, with the result that it is difficult to provide accurate calculations of the accumulated potential for Germany or the EU as a whole. Based on extensive surveys and panel discussions with representatives from energy-intensive industries (aluminum, cement, chemicals, iron & steel, pulp & paper), which together account for approximately one third of the industrial electricity demand in Germany, our paper provides an overview of both the opportunities and the barriers faced by DSM. One of the key findings is the possible loss in energy efficiency due to DSM: in order to decrease or increase production depending on the stability needs of the electricity system, plants and processes may no longer operate at their optimum levels. The effects on downstream production must also be taken into account in order to gain a more complete understanding of the overall effects of industrial DSM.
Um weltweit hochindustrialisierte, energieintensive Bundesländer und Regionen bei der Entwicklung und Umsetzung von innovativer Klimapolitik zu unterstützen, wurde die "Energy Transition Platform" ins Leben gerufen. Ziel ist der Austausch von Erfahrungen sowie eine Einflussnahme auf den internationalen Klimadialog. Für diesen Austausch- und Dialogprozess erarbeitete das Wuppertal Institut für die "Climate Group" die Fallstudie "Eine Industrieregion im Wandel - Energie- und klimapolitische Rahmenbedingungen, Strategien und Instrumente in NRW". In dem Bericht werden aktuelle energie- und klimapolitische Entwicklungen, Politikinstrumente und Modellprojekte dargestellt und diskutiert.
Die Fallstudie macht deutlich, dass Nordrhein-Westfalen bei der Umsetzung der Energiewende zwar vor besonderen Herausforderungen steht, die Modernisierung des Energiesystems und des Industriestandortes NRW jedoch mit Hilfe eines vielfältigen Instrumentariums systematisch und intensiv angeht. Eine solche proaktive und langfristig ausgelegte Herangehensweise ist zentrale Voraussetzung dafür, dass die bevorstehende Transformation letztlich nicht zu einem kaum steuerbaren Strukturbruch in NRW und seinen Regionen und Kommunen führt, sondern zu einem schrittweisen Strukturwandel, der von Politik, Wirtschaft und Gesellschaft gemeinsam gestaltet wird.
De-industrialization, climate and demographic changes are only a few key words that indicate the challenge of urban development in many industrialized countries for the coming decades. A fundamental transformation of infrastructure and the built environment is expected to adjust to future needs. Numerous concepts of integrating efficiency and renewable energy sources into urban planning were elaborated in recent years. Energy sufficiency in the meaning of voluntary demand reduction of energy intensive goods and services is the third and mostly forgotten pillar of sustainable development. However, organizational and spatial measures are needed to support behavior modification. This paper presents results of a transdisciplinary research design with local stakeholders and scientific experts to develop an understanding of what energy sufficiency might contribute to sustainable urban development. Based on the Multi-Level-Perspective of the transition research approach, it analyzes how stakeholders and experts define energy sufficiency structures for the shrinking district of Vohwinkel (Germany). The paper also shows a compilation and evaluation of measures which facilitate energy sufficient behavior in the fields of space heating and passenger transport on a local level. The methodological concept comprises expert interviews, thought experiments with stakeholders to develop a vision of an "energy sufficient Vohwinkel 2050" as well as a stakeholder workshop to discuss the results. A shrinking population is seen as a chance to actively adapt the built environment to foster energy sufficiency.
Eine nachhaltige Entwicklung der Städte, die sowohl den sozialen, ökologischen als auch den ökonomischen Ansprüche der Bewohner/-innen gerecht wird, ist offen für die Diskussion unterschiedlicher Konzepte und Strategien zur Bewältigung der großen Veränderungsprozesse in den nächsten Jahrzehnten. In Wuppertal treten Herausforderungen wie demographischer Wandel, wirtschaftliche und finanzielle Schwierigkeiten sowie Klimawandel schon heute gemeinsam auf. Der Handlungsdruck bietet die Chance, als "early adopter" neue Lösungswege zu gehen und bei erfolgreicher Umsetzung als Vorbild für andere Kommunen zu dienen.
Im vorliegenden Papier wird die Nachhaltigkeitsstrategie Energiesuffizienz unter Anwendung verschiedener Konzepte des Transition-Ansatzes analysiert und anhand der Befragung von Expert(inn)en sowie lokalen Stakeholdern in der schrumpfenden Stadt Wuppertal untersucht. Die Analyse in Wuppertal zeigt unter anderem, dass sich die kommunale Ebene als Ansatzpunkt für die Untersuchung von Suffizienz im Bereich Personenverkehr und Raumwärmenachfrage von Haushalten eignet.
A key factor to energy-efficiency of heating in buildings is the behavior of households, in particular how they ventilate rooms. Energy demand can be reduced by behavioral change; devices can support this by giving feedback to consumers on their behavior. One such feedback device, called the "CO2 meter", shows indoor air-quality in the colors of a traffic light to motivate so called "shock ventilation", which is energy-efficient ventilation behavior. The following effects of the "CO2 meter" are analyzed: (1) the effect of the device on ventilation behavior within households, (2) the diffusion of "CO2 meter" to other households, and (3) the diffusion of changed behavior to households that do not adopt a "CO2 meter". An agent-based model of these processes for the city of Bottrop (Germany) was developed using a variety of data sources. The model shows that the "CO2 meter" would increase adoption of energy-efficient ventilation by c. 12% and reduce heating demand by c. 1% within 15 years. Technology diffusion was found to explain at least c. 54% of the estimated energy savings; behavior diffusion explains up to 46%. These findings indicate that the "CO2 meter" is an interesting low-cost solution to increase the energy-efficiency in residential heating.
Das übergeordnete Ziel des Forschungs-Projektes RESTORE 2050 (Regenerative Stromversorgung & Speicherbedarf in 2050; Förderkennzeichen 03SF0439) war es, wissenschaftlich belastbare Handlungsempfehlungen für die Transformation des deutschen Stromsystems im europäischen Kontext zu geben. Dafür wurden auf Basis der zukünftig prognostizierten Entwicklung von Stromangebot und -nachfrage innerhalb des ENTSO-E Netzverbundes für den Zeithorizont des Jahres 2050 sowie mittels örtlich und zeitlich hoch aufgelöster meteorologischer Zeitreihen die Themenkomplexe (1) Nationale Ausbaustrategien für erneuerbare Energien, (2) Übertragungsnetzausbau und (3) Alternativmaßnahmen wie Lastmanagement, (4) Bedeutung des EE-Stromaustauschs mit Drittstaaten und (5) die Rolle von Stromspeichern auf Übertragungsnetzebene analysiert. Die aus den Untersuchungsergebnissen abgeleitenden Handlungsempfehlungen stellen wichtige Beiträge für die weitere Integration von erneuerbaren Energien dar und geben Hinweise für den Aufbau einer leistungsfähigen europäischen Infrastruktur.
Facing the uncertainty of CO2 storage capacity in China by developing different storage scenarios
(2016)
China is very active in the research and development of CO2 capture and storage technologies (CCS). However, existing estimates for CO2 storage capacity are very uncertain. This uncertainty is due to limited geological knowledge, a lack of large-scale research on CO2 injection, and different assessment approaches and parameter settings. Hence storage scenarios represent a method that can be used by policy makers to demonstrate the range of possible storage capacity developments, to help interpret uncertain results and to identify the limitations of existing assessments. In this paper, three storage scenarios are developed for China by evaluating China-wide studies supplemented with more detailed site- and basin-specific assessments. It is estimated that the greatest storage potential can be found in deep saline aquifers. Oil and gas fields may also be used. Coal seams are only included in the highest storage scenario. In total, the scenarios presented demonstrate that China has an effective storage capacity of between 65 and 1551 Gt of CO2. Furthermore, the authors emphasise a need for action to harmonise storage capacity assessment approaches due to the uncertainties involved in the capacity assessments analysed in this study.
The increasing rate of renewable energies poses new challenges for industries: the amount of wind and solar energy is by far more subject to fluctuations than that of fossil based energy. Large production facilities from the aluminium, cement, steel or paper industry, however, depend on a highly secure energy supply. To which amount is a limitation of fluctuations possible? This was the key question of the project "Flexibilisation of Industries Enables Sustainable Energy systems", which was realised by the Wuppertal Institute in cooperation with the polymers company Covestro last year. In the final report, authors around project co-ordinator Karin Arnold not only show which technological and economic parameters have been considered, but also present possible business models to promote "flexibility products".
In Germany, doubling today's insulation rate of about 1% is an important element for reaching the government's target of reducing the demand for energy in the housing sector by 80% by 2050. A survey among 275 private homeowners was conducted to better understand their insulation activity. The results were incorporated into an agent-based model, which was applied to evaluate new policy options. The results of the survey show that policies should focus on homeowners' wall insulation activity. Homeowners' decision-making processes regarding insulation are largely unaffected by their financial resources, which raises the question of the usefulness of financial incentives. In contrast, non-economic factors were found to have a statistically significant influence: in the year following a house ownership change, a comparatively large number of insulation projects are carried out. The probability of insulating walls can be predicted from knowing the homeowner's age, attitude towards insulation, and the structural condition of the walls. The simulations indicate that information instruments lead to a comparatively small increase in the wall insulation rate, while obligating new homeowners to insulate the walls within the first year after moving in has the potential to increase the total insulation rate by up to 40%.