Refine
Year of Publication
- 2019 (214) (remove)
Document Type
- Peer-Reviewed Article (48)
- Contribution to Periodical (47)
- Report (39)
- Part of a Book (32)
- Working Paper (18)
- Conference Object (12)
- Doctoral Thesis (10)
- Book (5)
- Master Thesis (3)
Division
Environment
(2019)
One world
(2019)
Energy sufficiency has recently gained increasing attention as a way to limit and reduce total energy consumption of households and overall. This paper presents both the partly new methods and the results of a comprehensive analysis of a micro- and meso-level energy sufficiency policy package to make electricity use in the home more sufficient and reduce at least the growth in per-capita dwelling size. The objective is to find out how policy can support households and their members, as individuals or as caregivers, but also manufacturers and local authorities in practicing energy sufficiency. This analysis needed an adapted and partly new set of methods we developed. Energy sufficiency does not only face barriers like energy efficiency, but also potential restrictions for certain household members or characteristics, and sometimes, preconditions have to be met to make more energy-sufficient routines and practices possible. All of this was analysed in detail to derive recommendations for which policy instruments need to be combined to an effective policy package for energy sufficiency. Energy efficiency and energy sufficiency should not be seen as opposed to each other but work in the same direction - saving energy. Therefore, some energy sufficiency policy instruments may be the same as for energy efficiency, such as energy pricing policies. Some may simply adapt technology-specific energy efficiency policy instruments. Examples include progressive appliance efficiency standards, standards based on absolute consumption, or providing energy advice. However, sufficiency may also require new policy approaches. They may range from promotion of completely different services for food and clothes cleaning, to instruments for limiting average dwelling floor area per person, or to a cap-and-trade system for the total electricity sales of a supplier to its customers, instead of an energy efficiency obligation.
Ahead of the Conference of Parties (COP) 24 where countries will first take stock of climate action post Paris, this paper assesses India's progress on its nationally determined contribution (NDC) targets and future energy plans. We find that, although India is well on track to meet its NDC pledges, these targets were extremely modest given previous context. Furthermore, there is considerable uncertainty around India's energy policy post 2030 and if current plans for energy futures materialise, the Paris Agreement's 2 degrees goal will be almost certainly unachievable. India's role in international climate politics has shifted from obstructionism to leadership particularly following the announcement of withdrawal by the United States from the Paris Agreement, but analysis reveals that India's "hard" actions on the domestic front are inconsistent with its "soft" actions in the international climate policy arena. Going forward, India is likely to face increasing calls for stronger mitigation action and we suggest that this gap can be bridged by strengthening the links between India's foreign policy ambitions, international climate commitments, and domestic energy realities.
Digital platforms may yield a host of advantages in putting circular economy into effect. This paper analyses the related chances and discusses requirements of digital platforms for the realization of a circular economy. It specifically points to potential solutions offered by digital platforms for existing barriers. From there it identifies issues that need specific attendance to create economically and ecologically functional platforms. Three economically relevant perspectives are discussed for this: a management perspective, a legislative perspective and a social/systems perspective.
India's present development trajectory is at a crucial juncture with a requirement to meet the demands of a population of over 1.2 billion while ensuring environmental sustainability. The resulting economic growth over the past two decades has over-exploited finite natural resources and led to tremendous environmental degradation. Therefore, decoupling economic growth from resource consumption is crucial in the transformation towards a green economy. Building construction is one of the most resource-intensive sectors, as well as creating a high impact on the environment. This study analyzes existing mechanisms in India's building construction sector that attempt to decouple economic growth from resource use and environmental impacts. The key contributors for decoupling are analyzed. Recommendations for regulations, market incentives, transparency, data monitoring and capacity-building are provided for an array of policy initiatives targeted at political and financial decision-makers at the national, state and local levels for different buildings.
The potential of mixed-mode office buildings with varying design and control parameters is examined by using an uncertainty analysis in the three climate zones of India. The analysis is in terms of cooling energy consumption, thermal comfort conditions, and natural ventilation hours. Furthermore, influential parameters are identified using sensitivity analysis. In this study, opening the windows enables natural ventilation. Night-time ventilation through the windows is not enabled because these are mostly closed at night. A maximum natural ventilation of 10% of the total building occupancy hours are observed in warm and humid, and hot and dry climates; however, they are slightly higher in the composite climate. A further increase in the number of natural ventilation hours leads to an increase in the occupancy hours outside the Indian Model for Adaptive Comfort model for mixed-mode buildings with at least 90% of occupants are satisfied. There are no occupancy hours outside of 80% of occupants are satisfied. The choice of thermal comfort band is crucial for determining the potential of mixed-mode buildings. The cooling setpoint temperature, building size, window solar heat gain coefficient, and surface properties of exterior surfaces are identified as the more influential parameters than the thermophysical properties of building envelope constructions. Although the building envelope which is in compliance with the Energy Efficient Building Code of India increases energy efficiency during air-conditioning periods, whether it reduces natural ventilation hours, because of overheating during such period remains to be determined.
A policy mix for resource efficiency in the EU : key instruments, challenges and research needs
(2019)
Against the background of an often wasteful use of natural resources, the European Union has made resource efficiency a top policy priority. Policy formulation is, however, at a very early stage in many Member States, with often vague notions of what resource efficiency means, characterised by fragmented instruments and overlapping competencies. This paper develops a conceptual framework for defining, assessing and developing resource efficiency policy mixes. It argues that a mix of policies and instruments is best suited to overcoming the complex challenges of the 21st Century. Such a mix addresses multiple resource domains at a strategic, high level and contains interacting instruments targeting multiple actors, levels of governance and sectors and life-cycle stages of resource use. This paper looks at criteria for effective resource efficiency policy instruments, presents both an indicative policy mix across 9 policy domains and case studies (on environmental harmful subsidies, supply chain efficiency in food systems and product-service systems) and identifies key challenges to overcome trade-offs in instrument design, maximise synergies, reduce conflicts, promote coherence, coordinate activities and move from theory to practice. Research needs are discussed regarding who shall devise, implement, and coordinate such a policy mix, considering negotiating power, timing and complexity.
With the introduction of the Roadmap to a Resource Efficient Europe (2011) and the more recent commitment of The Action Plan towards the Circular Economy (2015), the European Commission (EC) has expressed its fundamental interest to substantially improve the resource efficiency of the European economy and enable the transition towards the Circular Economy (CE). This policy push has meanwhile been complemented by some quite ambitious national programmes for RE and CE and institutional advances but it is not yet bound to targets or mandatory reporting.
Against this background, the objective of this paper is to give a comprehensive overview of the current policy frameworks at EU and a selection of MSs and provide insights into the elements shaping policy processes. The analytical framework relies on three essential interconnected components: the policy framework, the economic incentive system and economic side policies which are relevant in the context of RE and CE and actor constellations. The paper does this looking at the interface between EU-MSs. The analysis is based on different empirical surveys in which the policy development is observed and discussed (EEA 2011, 2016a, 2016b, EIO 2013, 2014, 2016) and a comprehensive review of legislative and policy frameworks at the EU and selected MSs, undertaken as part of the project POLFREE (Policy option for a Resource-Efficient Economy) (Domenech et al., 2014, Bahn-Walkowiak et al., 2014). The analysis reveals that policy frameworks for RE/CE are complex and fragmented as competing goals and visions reduce effectiveness of measures. The paper makes recommendations as to how EU and MS policies could improve RE in a coordinated way, but recognizes that achieving such coordination will be challenging in the current political context.
Sustainable Development Goals and the Paris Agreement stand as milestone diplomatic achievements. However, immense discrepancies between political commitments and governmental action remain. Combined national climate commitments fall far short of the Paris Agreement's 1.5/2°C targets. Similar political ambition gaps persist across various areas of sustainable development. Many therefore argue that actions by nonstate actors, such as businesses and investors, cities and regions, and nongovernmental organizations (NGOs), are crucial. These voices have resonated across the United Nations (UN) system, leading to growing recognition, promotion, and mobilization of such actions in ever greater numbers. This article investigates optimistic arguments about nonstate engagement, namely: (a) "the more the better"; (b) "everybody wins"; (c) "everyone does their part"; and (d) "more brings more." However, these optimistic arguments may not be matched in practice due to governance risks. The current emphasis on quantifiable impacts may lead to the under-appreciation of variegated social, economic, and environmental impacts. Claims that everybody stands to benefit may easily be contradicted by outcomes that are not in line with priorities and needs in developing countries. Despite the seeming depoliticization of the role of nonstate actors in implementation, actions may still lead to politically contentious outcomes. Finally, nonstate climate and sustainability actions may not be self-reinforcing but may heavily depend on supporting mechanisms. The article concludes with governance risk-reduction strategies that can be combined to maximize nonstate potential in sustainable and climate-resilient transformations.
Estimating the sufficiency potential in buildings : the space between underdimensioned and oversized
(2019)
The emission reduction potential of energy efficiency and energy supply in buildings is estimated in various energy and climate action plans, scenarios, and potential analyses. But the third pillar of sustainability - sufficiency - is neglected in most studies.The increasing demand of space per person in the residential sector is a trend in most European countries. Its implication on energy use, demand for resources like land, building material, equipment, and waste production is enormous. Next to the ecological impact, the distribution of space has social and societal effects. Thus, sufficiency policies in the building sector complementing efficiency and energy policy are needed for a sustainable development of the European building stock.
But how can a sufficiency potential in the building sector be estimated? How much space and equipment is needed for a decent living and how much is too much? The paper proposes four areas of sufficiency in buildings: space, design and construction, equipment, and use. It presents a set of indicators, a quantitative estimate of energy savings from reduced per capita floor area, and visualises the sufficiency potential in European countries in an experimental approach. The final discussion focuses on the question: What does this mean for policy making?
Addressing food waste prevention is one target of the Sustainable Development Goals (SDGs) and a major task for the UN Environmental Programme and the European Commission. It is promising in terms of its environmental saving potential. However, it also leads to consumers being able to save money, which they then are likely to spend, thus again causing a negative environmental impact. This dimension of the so-called indirect rebound effect, which prevents the desired ecological benefits from being achieved, is investigated in this paper. By using a single-region environmentally extended input-output model from a production perspective, the indirect rebound effects from food waste prevention in Germany are analysed. Any political action needs to consider not only a differentiation in income class, but also alternative concepts such as the principles of sufficiency in order to achieve all ecological benefits and specifically the third target of SDG 12.
Was hat Design mit Umwelt und Nachhaltigkeit zu tun? Die globale Erwärmung und der Klimawandel lassen sich auf verschiedene Ursachen zurückführen. Design, das die Umwelt außen vor lässt, ist einer der Gründe. Viele Produkte und Dienstleistungen verbrauchen nämlich viel Energie und Ressourcen haben auch eine hohe soziale Relevanz - sie sorgen beispielsweise für Teilhabe oder Exklusion. Wie eine Transformation hin zu mehr Nachhaltigkeit in diesem Bereich besser gelingt, fasst der neue "Transition Design Guide" des Wuppertal Instituts und der Folkwang Universität der Künste in Kooperation mit der ecosign - Akademie für Gestaltung Köln und der Bergischen Universität Wuppertal zusammen.
Der Leitfaden gibt interessierten Gestaltenden, Entwickelnden, Transformatorinnen und Transformatoren sowie Forschenden in Universitäten, Unternehmen und Kommunen 16 Praxis-Werkzeuge an die Hand, um Produkte, Dienstleistungen, soziale Räume oder andere Erfahrungswelten nachhaltiger und umweltbewusster zu entwerfen. Anhand der Arbeitsblätter lassen sich gestalterische Ideen und Konzepte auf ihre Nachhaltigkeitspotenziale untersuchen und weiterentwickeln. Nachhaltigkeitsaspekte werden dabei mit den Methoden und Arbeitsschritten eines klassischen Designprozesses zusammengeführt. Ausführliche Hintergrundinformationen ergänzen die Themen der Tools inhaltlich.
Europe needs a new vision of progress. An energy transition has this potential. It can give the "European idea" a future-oriented content. The goal for 2050 is clear: a Europe without fossil and nuclear energy! This is not a utopia. Studies, resolutions of the EU and some member states prove that this vision is feasible and has many advantages: more jobs, more security of supply, fewer premature deaths due to air pollution, reduction of resource conflicts, falling energy costs. New green lead markets for renewable energies and resource efficiency are emerging. A European energy transition requires an alliance, ideally fuelled by neighbours France and Germany. Many are hoping for Germany as a driver of nuclear and coal phase-out. But deciding on "revolutionary goals" is not enough: finally implementing them is what Germany and Europe are waiting for. This report shows which concrete steps can advance this vision of progress.
In spite of differences in energy policies and supply, Japan and Germany have to master similar challenges: To reorganize the energy supply system towards - in the long term - being reliable, affordable, low in risks and resource use, and climate-neutral. At the same time, the ecological modernization should maintain or even strengthen international competitiveness. To better address these challenges, a bi-national expert council has been established between the two high-tech countries in 2016 - the GJETC.
The aim of the GJETC is to show that despite different starting points, a national energy transition can be more successful, if both countries learn from their strengths and also weaknesses, to avoid the latter. If the implementation of an energy transition in the two countries is socially and economically sound and advances technology innovation and deployment, it may not only double success, but can also serve as blue prints for other countries, especially due to learning from similarities and differences. For example: Why is per capita energy consumption higher in transport in Germany, but energy intensity higher in Japan's building sector? How can variable renewable energies be integrated in an efficient energy system at lowest costs?
The Council meets twice a year, holds stakeholder dialogues and outreach events, and prepares policy papers on strategic topics of mutual interest. Four comprehensive studies, each in cooperation of a German and a Japanese research institute, have been the basis for 15 joint key recommendations during the 1st phase. The 2nd phase to 2020 will study the role of hydrogen and digitalisation for the energy transition, as well as other topics. The paper presents the findings and recommendations of the GJETC of the first phase 2016-18 as well as first results of the second phase. It also reviews the setup of the GJETC and the way it works, to assess if and how it can serve as a role model of bilateral cooperation on the energy transition.
Das Ziel der Akzeptanzstudie "Mieterstrom aus Mietersicht" war es, den Blick der Stromkundinnen und -kunden auf das dezentrale Versorgungskonzept "Mieterstrom" zu untersuchen und zu bewerten. Die Studie untersucht, inwiefern Mieterinnen und Mieter über das in ihrem Wohnhaus angebotene Mieterstromprodukt informiert sind, wie sie es annehmen und welche Faktoren die Akzeptanz beeinflussen. Dazu wurden 61 fragebogengestützte Face-to-Face-Interviews in sieben Mieterstromprojekten geführt. Die Bewohnerinnen und Bewohner gaben darin Auskunft zu ihren Motiven bei der Wahl ihrer Stromversorgung und ihrem Informationsstand. Außerdem führte der Autor der Studie, Markus Schäfer, leitfadengestützte Experteninterviews mit den Projektverantwortlichen der Mieterstromanbietern.
Die Ergebnisse bestätigen in großen Teilen die zu Beginn der Forschung aufgestellten Thesen. Das Mieterstrommodell ist selbst in Wohnhäusern, in denen ein Mieterstromprodukt angeboten wird, noch häufig unbekannt. Dies ist nicht nur auf unzureichende Information durch die Anbieter zurückzuführen, sondern auch auf das Desinteresse der Stromkunden am Thema Energieversorgung allgemein und als kompliziert wahrgenommenen Konzepten wie Mieterstrom insbesondere. Hohe Beteiligungsquoten konnten nur in Projekten erzielt werden, in denen die Befragten Faktoren wie die Nutzung erneuerbarer Energien und lokale Erzeugung bei der Wahl Ihrer Energieversorgung klar über den Strompreis stellten, oder in denen Mieterstrom besonders günstig angeboten wurde. Allerdings gibt es auch bestimmte Vertriebsmethoden, die zu hohen Beteiligungsquoten führen können.
Trotz der unterschiedlichen Rahmenbedingungen bei den untersuchten Projekten kann der Autor die Ergebnisse der Studie nutzen, um Handlungsempfehlungen für die Energiewirtschaft zur Erreichung höherer Beteiligungsquoten in Mieterstromprojekten zu formulieren.
Dieses Wuppertal Paper dient dazu, a) die mögliche Klimaschutzwirkung eines CO2-Preises zu analysieren, allein und im Gesamtpaket von Instrumenten zum Klimaschutz, b) die Möglichkeiten der Mittelverwendung zu analysieren und zu bewerten, c) dadurch den Dschungel der Argumente und Motivationen in den bestehenden Vorschlägen zu lichten und d) aus der Analyse ein Modell zu skizzieren, das den Anforderungen von Klimaschutz und sozialer Gerechtigkeit sowie Erhalt der Wettbewerbsfähigkeit am besten gerecht wird und damit der Bundesregierung als Anregung bei der Entscheidung über Einführung und Ausgestaltung eines CO2-Preises dienen kann.
In dem Papier werden diese Fragen anhand von neun Thesen mit einem abschließenden Fazit ergründet. Daraus wird deutlich:
Ein CO2-Preis kann sektorale Ziele und Instrumente nicht ersetzen. Seine volle Wirkung kann er nur entfalten, wenn er komplementär zu sektorspezifischen Klimaschutzinstrumenten eingeführt wird. Nur wenn für diese Instrumente ein guter Teil der Einnahmen aus der CO2-Steuer eingesetzt wird, sind die Klimaziele erreichbar. Die Ziele werden dadurch mit weitaus geringerem CO2-Preis bei gleichzeitig höheren Kostenentlastungen für Verbraucherinnen und Verbraucher, Unternehmen und sogar die öffentlichen Haushalte erreichbar, als wenn die Politik allein auf einen CO2-Preis setzen würde.
What role do transaction costs play in energy efficiency improvements and how can they be reduced?
(2019)
Ex-ante policy evaluation requires a detailed understanding of how the subjects addressed by the policy react to its implementation. In the context of energy efficiency, policy measures typically aim at influencing investment decisions towards more efficient options.
As has been discussed widely in the context of the "energy efficiency gap", investments in energy efficiency improvements are frequently not conducted even though they seem cost-effective from a simple cost-benefit perspective, where transaction costs have been identified as one important barrier.
While transaction costs have been discussed widely from a conceptional perspective, empirical studies quantifying transaction costs and measures to reduce them are rare. This paper presents approaches, results and insights from a recently completed research project funded by the German Federal Energy Efficiency Center (BfEE), addressing transaction costs in various energy efficiency measures and the role of energy efficiency services to overcome the barrier.
We analyse a set of 11 energy efficiency investments covering private households, public institutions and the industry sector. We gather data on direct investment costs and energy cost savings and provide a detailed analysis of the various barriers and transaction costs associated with the implementation. We then analyse the costs of existing energy efficiency services using data provided by the BfEE. We compare the different cost elements and analyze the potential of energy efficiency services to reduce transaction costs.
We find that the role of transaction costs differs substantially between households, public institutions and companies and that the impact of energy efficiency services on transaction costs needs to be evaluated using different methodological approaches. We conclude that while data availability on disaggregated transaction costs is a major challenge, energy services can reduce transaction costs considerably.
Improvements in energy efficiency have numerous impacts additional to energy and greenhouse gas savings. This paper presents key findings and policy recommendations of the COMBI project ("Calculating and Operationalising the Multiple Benefits of Energy Efficiency in Europe").
This project aimed at quantifying the energy and non-energy impacts that a realisation of the EU energy efficiency potential would have in 2030. It covered the most relevant technical energy efficiency improvement actions in buildings, transport and industry.
Quantified impacts include reduced air pollution (and its effects on human health, eco-systems), improved social welfare (health, productivity), saved biotic and abiotic resources, effects on the energy system and energy security, and the economy (employment, GDP, public budgets and energy/EU-ETS prices). The paper shows that a more ambitious energy efficiency policy in Europe would lead to substantial impacts: overall, in 2030 alone, monetized multiple impacts (MI) would amount to 61 bn Euros per year in 2030, i.e. corresponding to approx. 50% of energy cost savings (131 bn Euros).
Consequently, the conservative CBA approach of COMBI yields that including MI quantifications to energy efficiency impact assessments would increase the benefit side by at least 50-70%. As this analysis excludes numerous impacts that could either not be quantified or monetized or where any double-counting potential exists, actual benefits may be much larger.
Based on these findings, the paper formulates several recommendations for EU policy making:
(1) the inclusion of MI into the assessment of policy instruments and scenarios,
(2) the need of reliable MI quantifications for policy design and target setting,
(3) the use of MI for encouraging inter-departmental and cross-sectoral cooperation in policy making to pursue common goals, and
(4) the importance of MI evaluations for their communication and promotion to decision-makers, stakeholders, investors and the general public.
This report on urban mobility performance measurement is aimed at enabling stake- holders of the city of Bucharest and the public to understand their current urban mobility situation through a point-based results framework. It shall provide the city of Bucharest with a yardstick to measure its performance and benchmark the progress against some of its counterparts. It measures the urban mobility and compares it with 13 other European cities: Berlin, London, Vienna, Brussels, Moscow, Rome, Zurich, Paris, Amsterdam, Copenhagen, Oslo, Budapest and Madrid.
Similar to many other European cities, Bucharest employs a Sustainable Urban Mobility Plan (SUMP) in order to continuously improve urban transport and mobility and to make it more sustainable. In this respect, the report should also be regarded as a document which supports the stakeholders in Bucharest in their efforts to develop transport and mobility in the city more sustainable.
Der Eon/RWE-Deal : Marktbeherrschung und Shareholder Value-Politik mit behördlicher Zustimmung
(2019)
Am 17. September 2019 hat die EU-Wettbewerbs-Kommissarin Margrethe Vestager dem Stromkonzern Eon die Übernahme und Zerschlagung der RWE-Tochter Innogy unter leichten Auflagen erlaubt. Damit geht eine vollständige Geschäftsfeldaufteilung zwischen den beiden mächtigsten nationalen Energiekonzernen Eon und RWE einher. Während sich Eon auf die Bereiche Vertrieb und Verteilnetzbetrieb konzentrieren wird, übernimmt RWE die konventionellen Kraftwerke des bisherigen Konkurrenten sowie alle Anlagen der erneuerbaren Stromerzeugung. Auch alle vor rund zwei Jahren zunächst an Innogy abgegebenen Anlagen zur Stromerzeugung werden von RWE wieder zurückgeholt. Zudem erhält RWE eine 16,7-prozentige Beteiligung an Eon. Dazu gab das Bundeskartellamt (BKartA) bereits am 26.02.2019 bekannt, dass es diese Beteiligung für unbedenklich hält.
Die Freigabe der EU-Kommission vom September 2019 ist eine "Entscheidung von enormer Tragweite" die den "gesamten Sektor grundlegend verändern" wird. Denn durch diesen Mega-Deal entstehen im deutschen Energiesektor zwei monolithische Giganten mit bisher nie dagewesener Marktmacht.
Die Situation ist klar: Die Menschheit braucht die sozial-ökologische Wende, damit ihre Existenz auf der Erde langfristig gesichert bleibt. Auch der Weg dorthin ist vorgezeichnet, wir müssen ihn nur gehen. Ein Buch mit knappen Argumenten und in Thesen zugespitzt - es ist ein Appell an Politik und Gesellschaft, für einen radikalen Wandel des Wirtschaftssystems einzutreten.
Unter den Stichworten "Sektorenkopplung" und "Power-to-X" werden derzeit viele Möglichkeiten der direkten und indirekten Elektrifizierung großer Teile der Endenergienachfrage intensiv diskutiert. In diesem Zusammenhang hat die Diskussion um Wasserstoff als Endenergieträger sowie als Feedstock für die Herstellung von synthetischen Kraftstoffen und chemischen Grundstoffen zuletzt stark an Bedeutung gewonnen. Insbesondere der klimaneutrale Umbau der Grundstoffindustrien und hier vor allem der Grundstoffchemie und der Stahlindustrie würde bedeutende Mengen an grünem Wasserstoff benötigen, die räumlich stark auf die großen Industriekerne fokussiert wären. Ein zeitnaher Einstieg in die Schaffung entsprechender Erzeugungskapazitäten und Infrastrukturen könnte dazu führen, dass Wasserstoff - neben erneuerbaren Energien und Energieeffizienz - zum dritten Standbein der Energiewende avanciert.
Innerhalb des Kopernikus-Projekts "Synchronisierte und energieadaptive Produktionstechnik zur flexiblen Ausrichtung von Industrieprozessen auf eine fluktuierende Energieversorgung" - kurz SynErgie - erheben Wissenschaftlerinnen und Wissenschaftler das Flexibilisierungspotenzial von Industrieprozessen und versuchen die Machbarkeit an Schlüsselprozessen zu demonstrieren. Die technischen Herausforderungen und Lösungsoptionen, die sich in den Prozessen der Grundstoffindustrie - wie etwa Stahl, Chemie, Zement, Glas und Feuerfest - ergeben, haben sie bereits in einem ersten Band "Flexibilitätsoptionen in der Grundstoffindustrie: Methodik, Potenziale, Hemmnisse" ausführlich beschrieben und auf Basis einer eigens entwickelten Methodik analysiert. Der Fokus des vorliegenden zweiten Bandes liegt auf den Flexibilitätsperspektiven, die sich durch hybride Wärmebereitstellung, den Einsatz thermischer Energiespeicher und der Nutzung synthetischer Gase in den entsprechenden Branchen ergeben können. Hierzu erweiterten die Forschenden die bereits im ersten Band entwickelte Methodik um die relevanten Aspekte der Gasversorgung und thermischen Speicherung. Anhand von konkreten technischen Beispielen aus den Branchen stellen sie darin die Anwendungsmöglichkeiten und ein gegebenenfalls daraus folgendes Flexibilitätspotenzial dar und diskutieren dies.
In der öffentlichen Diskussion rücken die Konsequenzen der notwenigen Klimaschutzmaßnahmen sowie damit verbundene Kosten in den Fokus und entfalten ihre Sprengkraft. Ökologische, ökonomische und soziale Nachhaltigkeit werden zunehmend gegeneinander in Stellung gebracht. Häufig wird Klimaschutz gegen Wohlstand, wirtschaftliche Entwicklung und Arbeitsplätze ausgespielt.
Mit der von der Friedrich-Ebert-Stiftung beim Wuppertal Institut in Auftrag gegebenen Studie entlarven die Autorinnen und Autoren "unheilige Allianzen", verbreitete Mythen und interessensgesteuerte Desinformation. Anhand von zehn konkreten Fragestellungen liefern sie eine faktenbasierte Analyse und zeigen, dass eine zukunftsorientierte Energie- und Klimapolitik im Einklang mit Wohlstand und sozialem Fortschritt sehr wohl möglich ist.
Sustainable Urban Mobility Pathways examines how sustainable urban mobility solutions contribute to achieving worldwide sustainable development and global climate change targets, while also identifying barriers to implementation and strategies to overcome them. Building on city-to-city cooperation experiences in Europe, Asia, Africa and Latin America, the book examines key challenges in the context of the Paris Agreement, UN Sustainable Development Goals and the New Urban Agenda, including policies needed to achieve a sustainable, low-carbon pathway for transport and how an integrated policy strategy is designed to provide a basis for political coalitions.
The book explores which institutional framework creates sufficient political stability and continuity to foster the take-up of and long-term support for sustainable transport strategies. The linkages of climate change and wider sustainable development objectives are covered, including success stories, best practices, and quantitative analysis for key emerging economies in public transport, walking, cycling, freight and logistics, vehicle technology and fuels, urban planning and integration, and national framework policies.
This assessment report identifies six key areas of sustainable consumption. Transforming those areas is associated with a significant, positive impact on sustainable development. In this way, those key areas lay the foundation to set clear priorities and formulate concrete policy measures and recommendations. The report describes recent developments and relevant actors in those six fields, outlines drivers and barriers to reach a shift towards more sustainability in those specific areas, and explores international good-practice examples. On top of this, overarching topics in the scientific discourse concerning sustainable consumption (e.g. collaborative economy, behavioural economics and nudging) are revealed by using innovative text-mining techniques. Subsequently, the report outlines the contributions of these research approaches to transforming the key areas of sustainable consumption. Finally, the report derives policy recommendations to improve the German Sustainable Development Strategy (DNS) in order to achieve a stronger stimulus effect for sustainable consumption.
Zukunft ist keine Tatsache, die sich einstellt, sie wird imaginiert, ermöglicht, durchgesetzt. Doch während das Ringen um eine lebenswerte Zukunft die visionäre Verständigung der Vielfalt der Verschiedenen, mitunter Fremden braucht, drückt eine ökonomisch beförderte Fantasielosigkeit der Gegenwart zunehmend die Luft ab.
Bestimmte Wissenschaften hingegen, die der Fantasie Futter geben, was warum wie wo noch möglich ist, können einen visionären und reflektierten Boden für ein lebenswertes Zusammenleben schaffen. Solche Wissenschaften sind "Möglichkeitswissenschaften" (Reinhard Pfriem).
Dieses Buch versammelt zur Feier des 70. Geburtstages von Reinhard Pfriem fachübergreifende Erkundungen dazu, was es heißen kann, Ökonomie mit Möglichkeitssinn zu betreiben.
Die Energiewende ist der Umstieg der Energieproduktion, -versorgung und -nutzung von nuklearen und fossilen Energieträgern auf erneuerbare Energien. Dieser tiefgreifende Wandel des über viele Jahre gewachsenen Energiesystems in Deutschland umfasst zahlreiche, hoch komplexe Aspekte und Prozesse. Aus einer eher technologischen Perspektive heraus betrachtet sind die Ziele der Energiewende eine Weiterentwicklung und Dezentralisierung des technischen Stromsystems und seiner Komponenten (Speicher, Netze, Management), die Steigerung der Energieeffizienz (bspw. in industriellen Prozessen sowie in Haushalten, durch energetische Modernisierung des Gebäudebestandes oder eine intelligentere Nutzung der Wärme) sowie die Elektrifizierung des Verkehrs.
In dem vorliegenden Kapitel werden die verschiedenen Herausforderungen zur Umsetzung der Energiewende genauer beleuchtet und dargestellt und schließlich in zentrale Schlussfolgerungen zur Realisierung der Energiewende überführt.
Enhancing cross-functional integration in new product development becomes increasingly important for industrial players to keep up with shorter product life cycles in technological innovation dynamics. Abundant research reflects the topic's significance, yet ambiguity in empirical results persists and industrial adoption of existing methods remains incremental. This thesis employs a qualitative approach to build a case study at the design-manufacturing interface of new product development of electrified cars. Cross-functional coopetition, as the joint occurrence of cooperation and competition, is adopted to generate an in-depth understanding of integration dynamics. Socio-organizational and contextual aspects are found to shape integration in a new product development context substantially. A model of interface dynamics is developed which provides for analysis and prediction of these aspects' impact on effective integration. A grounded theory approach to enhance integration is explored that introduces constraints as stimuli to consider manufacturability aspects in the design process. Constraint introduction is found to positively impact both cross-functional integration and creativity, with eight characteristics of constraint quality identified as moderating factors. A theoretical model is contributed which outlines cause-effect relationships of constraints' impact on antecedents of new product development success. It substantiates constraints' role in innovation contexts and encourages application for design-manufacturing integration as well as for other interfaces or purposes.
Um die Klimaschutzziele der Bundesregierung zu erreichen sind im Rahmen der Energiewende die CO2-Emissionen besonders in den Sektoren Strom und Wärme durch geeignete Maßnahmen zu reduzieren. Aus diesem Grund liegt der Fokus auf einer Steigerung des Anteils regenerativer, CO2-freier Erzeugungsanlagen an der Energieversorgung. Kann man im Stromsektor bereits auf ein beachtliches Wachstum des Anteils erneuerbarer Energien in der Erzeugung zurückblicken, so stagnieren die Werte im Wärmebereich, obwohl dieser ein hohes Einsparpotenzial aufweist.
Zur Aktivierung der Wärmewende ist eine Vielzahl an Maßnahmen von Nöten. Eine Möglichkeit, erneuerbare Wärme in die Wärmeversorgung dicht besiedelter Stadtgebiete zu integrieren, stellen Wärmenetze dar. Die verlustarme Verteilung über weite Strecken ermöglicht eine verbrauchsferne Erzeugung, wodurch auch Gebiete ohne verfügbare Flächen beispielsweise mit solarthermischer Wärme versorgt werden können. Des Weiteren vereinfachen Wärmenetze die Kopplung der Sektoren Strom und Wärme, da sie durch die Brennstoff- und Erzeugungstechnologieoffenheit verstärkt durch Wärme aus Kraft-Wärme-Kopplungsanlagen (KWK) und Power-to-heat-Systeme gespeist werden können. Die fluktuierende, nichtregelbare Erzeugung und Einspeisung erneuerbarer Energien stellt die Netzbetreiber allerdings vor neue Herausforderungen zur Sicherstellung eines stabilen Netzbetriebes.
Die vorliegende Arbeit beschäftigt sich mit den Auswirkungen der vermehrten Einspeisung erneuerbarer Wärme auf alle weiteren Komponenten eines Energiesystems, welches aus Erzeugungs-, Verteilungs- und Speicherungsinfrastruktur besteht. Erneuerbare Wärmeerzeuger, insbesondere Solarthermieanlagen, sind durch eine fluktuierende, dargebotsabhängige Erzeugung charakterisiert. Aus diesem Grund sind der konventionelle Betrieb sowie bei Neubauprojekten die Auslegung der regelbaren KWK-Anlagen dahingehend anzupassen, dass ein möglichst hoher Anteil erneuerbare Wärme in die Versorgung integriert werden kann, ohne dass es zu wirtschaftlichen Einbußen für den Versorger kommt. Ebenso ist ein effizienter und stabiler Netzbetrieb zur Gewährleistung einer kontinuierlichen Versorgungssicherheit von höchster Priorität. Zu diesem Zweck erfolgt im Rahmen dieser Arbeit die Erarbeitung von zwei Simulationsprogrammen, mit denen zum einen Wärmenetze verschiedenster Größe und Topologie sowie zum anderen regelbare und regenerative Erzeugungsanlagen sowie alle weiteren Komponenten eines Energiesystems zur Betriebssimulation abgebildet werden können.
Die Auswahl von drei geeigneten Simulationsszenarien und aussagekräftigen technischen sowie ökonomischen und ökologischen Kennzahlen ermöglicht neben einer umfassenden Bewertung ebenso die Ableitung von Handlungsmaßnahmen, die eine verstärkte Einbindung der Wärmewende in die Energiewende ermöglichen.
The earth as we know it can only continue to exist if humanity finds a way to switch to a sustainable use of energy and resources. This work contributes to the research carried out to achieve this goal by improving the coating of adsorptive materials. These are used in heat transformation and drying processes that allow for efficient temperature and humidity control in buildings. A central component of these adsorptive coatings is the binder that acts as "glue" in the manufacturing of the coating. In this work the methods to evaluate binder performance regarding their thermal stability under the process conditions, their mechanical stability and their influence on the adsorptive properties of the coating were established. The coatings have to meet special requirements due to the thermal stresses and low pressure atmosphere they experience in these applications. A selection of silicone binders was then characterized with the established tests according to these requirements. Additionally a selection of inorganic binders was investigated because they allow for the use of high desorption temperatures and thus a high energy efficiency of the process. Out of these binders Silres® MP50E emerged as the most promising one due to very good adsorptive properties of the coating, its good temperature stability and ease of use. While some of the inorganic binders showed very good adsorptive properties and temperature stability the mechanical stability of all inorganic binders was not sufficient for their use in adsorption heat transformation technology. This is the first time that a broad selection of binders was evaluated with regards to adsorptive coatings and the results published in literature. With a suitable binder identified, the next step was to optimize the coating of the heat exchangers in order to work out how to manufacture the most efficient and powerful heat exchangers. Samples with different coating thicknesses were manufactured in small scale and full scale and their adsorption behavior was characterized. It could be shown for the first time that it is possible to increase energy efficiency by improving the mass ration of adsorber to coating and increase the delivered power at the same time. This was shown for small and full scale samples. It was shown that under the corresponding conditions the heat transfer from the coating layer to the adsorber metal substrate is the limiting step in the process. These results can now be used for the planning and construction of adsorbers. With knowledge of a suitable binder and how to coat efficient, powerful adsorbers, the coating process itself was improved to allow for industrial scale manufacturing. A central point here is the ability to control slurry rheology. Out of many rheology additives those that are suited for the application in adsorption heat transformation were identified and their influence on the slurry rheology thoroughly characterized. Additionally the process of slurry preparation could be simplified for several different adsorbents. Here it was shown that the supersonic deagglomeration step is not necessary to prepare a slurry. Extending the possible coating techniques and in addition to the dip coating process used so far, the spray coating of adsorptive coatings was established for the first time in literature. This process is widely used in the industry and allows for easier plugin into existing coating processes. For the coating of high resolution patterns a proof of concept of the screen printing process was carried out.
Much of the current literature on climate clubs sees mitigation costs creating free rider incentives as the main problem of climate policy. Climate clubs are supposed to solve this problem by creating additional incentives for mitigation. Looking more in detail, one sees that the situation differs from sector to sector. Some industry sectors indeed have substantial cost and competitiveness issues. In others such as electricity and transport, there are costs at micro level but balance for economy and society as a whole is rather positive. International climate policy in general and clubs in particular should therefore be tailored to sectoral specifics.
Article 6.4 of the Paris Agreement explicitly acknowledges the need to incentivize and facilitate the participation of private entities in the mitigation of greenhouse gas emissions. Under the Clean Development Mechanism (CDM), private sector actors had already the opportunity to participate in a new and fast-growing market. However, they faced numerous challenging investment barriers. The study provides an overview on key factors and barriers determining private sector participation in Article 6 mechanisms. It distinguishes between the three topics demand side factors, rules and standards for market mechanisms, and supply side factors and provides for each of them options to mitigate or overcome barriers.
In a short analysis, it further explores three of the identified options:
- Improving the design and support of national systems and capacities is an important pre-requisite for the private sector to be able to generate and sell ITMOs
- The up-scaling of mitigation activities e. g. through (sub-) sector level crediting, and policy crediting helps private sector actors to benefit from economies of scale
- Exploring the potential of digitization of measuring, reporting and verification (MRV), e. g. the use of sensors, internet of things, artificial intelligence and blockchain to make the project cycle more efficient and reduce transaction costs.
Overall, the report stresses the importance of host country readiness to provide the private sector with a robust and trusted environment that allows for the adoption of Article 6 mechanisms.
The new mechanism defined under Article 6.4 of the Paris Agreement is supposed to allow for international cooperation with regard to climate change mitigation and thereby enable an increase in overall mitigation. Nevertheless, the design of the mechanism under Article 6.4 should also make sure that it is not be in conflict with the long-term goal of net-zero GHG emissions but even better foster national pathways leading to this objective. Building this into the mechanism requires to shift the focus from short- and mid-term considerations to the long-term perspective in one way or another.
This discussion paper explores three different approaches that may help to foster the long-term objective of net-zero GHG emissions in the operationalization of Article 6.4, namely positive and negative lists, additionality with regard to a baseline consistent with both, NDCs and long-term targets, as well as adaptation of existing instruments and criteria from climate finance. The detailed discussion of the ap-proaches shows that the approaches should not be seen as mutually exclusive but rather as comple-mentary to each other. From the analyses, two storylines emerge how to combine aspects of the differ-ent approaches in a reasonable way to foster the long-term objective of net-zero GHG emissions under Article 6.4.
Creating statistics for China's building energy consumption using an adapted energy balance sheet
(2019)
China's regular energy statistics does not include the building sector, and data on building energy demand is included in other types of energy consumption in the Energy Balance Sheet (EBS). Therefore data on building energy demand is not collected based on statistics, but rather calculated or estimated by various approaches in China. This study aims at developing and testing China's building energy statistics by applying an adapted EBS. The advantage of the adapted EBS is that statistical data is from the regular statistical system and no additional statistical efforts are needed. The research result shows that the adapted EBS can be included in China regular energy statistical system and can be standardized in a transparent way. Testing of the adapted EBS shows that China's building energy demand has shown an annual increase of 7.6% since 2001, and a lower contribution to the total energy demand as compared to the developed world. There is also a close link to lifestyle and living standard while industrial energy demand is mainly driven by economy and decoupling of building energy demand with increasing of building floor area, this is due to a considerable improvement of building energy efficiency. The adapted EBS creates a method for China conducting statistics of building energy consumption at the sector level in a uniform way and serves as the basis for any sound building energy efficiency policy decisions.
Die energieintensive Industrie kann zum Ausgleich volatiler Stromeinspeisungen und somit zum Gelingen der Energiewende beitragen.
Digitalisierungsprozesse ermöglichen die Flexibilisierung der Produktion, wodurch die Stromnachfrage steuerbarer wird.
Gegenwärtig sind die Anreize zur Flexibilisierung jedoch für die meisten Unternehmen aufgrund von Investitionsunsicherheiten und der Konkurrenz durch konventionelle Kraftwerke gering.
Im Rahmen der Transformation des Energiesystems und zunehmender Digitalisierung der Produktion wird die Flexibilisierung für Industrieunternehmen perspektivisch attraktiver.
Digitalisierung und Flexibilisierung haben Auswirkungen auf Beschäftigte. So werden bereits jetzt Tätigkeiten an eine Abschaltung von Anlagen zur Stabilisierung des Stromsystems angepasst.
Im Hinblick auf Digitalisierungsprozesse gilt es, Mitarbeiter frühzeitig zu beteiligen und Ängste sowie Anregungen der Beschäftigten ernst zu nehmen.
Die Akzeptanz von Veränderungsprozessen kann durch eine frühzeitige Einbindung der Beschäftigten und ihrer Vertretung gefordert werden.
Ein den Digitalisierungsaktivitäten entsprechendes Personalkonzept stellt sicher, dass Beschäftigte mit notwendigem Know-how ausgestattet werden.