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Germany and Japan have both gained substantial experience with hydrogen production and applications, albeit with focus on different sectors. They also share similar drivers for hydrogen development and, of course, similar technical and economic opportunities and challenges. However, there also are relevant differences in the policy priorities and approaches.
Notwithstanding differing emphases and patterns, the two countries share three main drivers for hydrogen development and deployment: climate mitigation and other environmental goals, energy supply diversification, and technological leadership. In this context, hydrogen has been identified by the German and the Japanese governments during the Energy Policy Dialogue as having potential for closer cooperation.
The authors of this study provide an overview of demand-side deployment by sector (residential, transport, industry, power generation and power-to-x) for both countries, as well as of their hydrogen policy debates, key institutions, R&D programs and demonstration projects. They also present a short survey on relevant international platforms and initiatives in which Japan and Germany participate.
On the basis of a meta-analysis of the role of hydrogen in 18 long-term energy system scenarios for Germany and 12 scenarios for Japan, this study draws conclusions on the possible role of hydrogen in the long term energy policy debates of both countries. Subsequently, the authors discuss sustainability criteria and certification schemes for clean hydrogen, compare the greenhouse gas intensity of different hydrogen supply chains and provide a data-based analysis to identify countries which could become important suppliers of clean hydrogen.
In vielen deutschen Städten sinken die verkehrsbedingten CO2-Emissionen kaum und vor allem die Belastungen durch Luftschadstoffe aus dem Straßenverkehr sind weiterhin sehr hoch. Deshalb beklagt die Deutsche Umwelthilfe inzwischen über 30 Städte in Deutschland, um durch Fahrverbote für Dieselfahrzeuge das Recht der Menschen auf saubere Atemluft durchzusetzen. Daher suchen die Kommunen zunehmend Wege, die verkehrsbedingten Emissionen zu senken. Dabei kommt kommunalen Flottenbetreibern eine besondere Rolle zu. Sie stehen besonders unter Handlungsdruck, weil durch ein Fahrverbot für Dieselfahrzeuge diese nur noch sehr eingeschränkt eingesetzt werden könnten.
"Politisches Engagement ist wichtiger als privater Konsumverzicht", meint Michael Kopatz. Moralische Appelle machen nur schlechte Stimmung, ändern aber nicht unsere Routine. Wie erfolgreich Protest sein kann, zeigt aktuell die Fridays for Future-Bewegung, die für neue, der Situation angemessene Strukturen kämpft, statt für persönliche Verhaltensänderungen. Kopatz fordert die Politik auf, ihrer Verantwortung gerecht zu werden und intelligente Standards und Limits zu setzen - damit "Öko" zur Routine wird und die erhobenen Zeigefinger verschwinden.
Was ist synthetisches Gas?
(2019)
This Topic Guide aims to provide answers to the question: "How can transport products, services and works be delivered sustainably?". Public procurement accounts for about 19% of the European Union's GDP and thus is a powerful lever to support the transition of urban mobility. The purchasing power of municipalities and regions can create a critical demand for innovative and green goods, services and business models such as low emission vehicles or shared mobility solutions. Public procurement can increase their competitiveness and availability, and thus trigger the market penetration of innovative products and services. The Guide discusses the general concept of sustainable public procurement, the legislative environment in the EU and leads through the different stages of a procurement process for SUMP (Sustainable Urban Mobility Planning) measures in a stepwise approach. It also discusses different inherent principles of sustainable public procurement in the field of urban mobility such as life cycle costing and how these can be applied. In so doing, it points to relevant further guidance discussing specific issues and concepts.
The transformation of urban mobility systems causes financial costs for the procurement and operation of innovative products and services and for the adaptation of existing infrastructure. While public budgets are limited, investments in infrastructure and transport services compete against other spending priorities, and private investors often are reluctant to invest into sustainable transport projects. Thus, cities need to seek additional funding and financing options and to develop business models to attract private sector investments in the development of the urban transport system. Moreover, financing schemes should cover the entire SUMP (Sustainable Urban Mobility Planning) cycle, starting from planning, to project implementation and procurement up to the operation and maintenance of services and infrastructures.
This requires the blending of different revenue sources, including:
project related revenue sources such as public transport fares and the lease of advertising space in buses;
the extension of the local tax base, for example through the introduction of road user charges and parking fees or the use of value capture mechanisms;
National, bilateral, and European grants;
Debt financing through loans and other instruments such as issuing green bonds. Finally, a prudential engagement of the private sector in infrastructure development and service provision can reduce the direct burden on public budgets while enhancing service quality. The applicability of specific financing options critically depends on the national legislative environment. Many of the instruments and case examples presented here may not be transferred to other Member States due to the different distribution of responsibilities and powers between the political levels in the Member States. This report, however, can inspire the search for potential funding and financing sources and is therefore aimed not only at local and regional authorities but also at decisionmakers at the national level. Still, whether a specific instrument can be used in a Member State needs to be assessed on a case-by-case base.
This report explores the future role of the voluntary carbon market and its potential to contribute to raising the ambition of climate policy. For this purpose, desk research was complemented by interviews with voluntary carbon market representatives. The report finds that the current roles of the voluntary market are set to change fundamentally due to the Paris Agreement. For the future of the voluntary market as an investor, three roles were identified, each of which is associated with specific challenges: The market may maintain its current role of buyer of carbon neutrality credits, it may become a supporter of NDC implementation, or it may become a driver of ambition. With regard to the future role of private certification standards, the Paris Agreement may hold the possibility of using such standards in the context of compliance activities. Overall, the findings indicate that the voluntary market has some potential to contribute to ambition raising. Whether this potential will actually be unlocked depends on how the concept of ambition raising will be operationalized under the Paris Agreement and to what degree it can be integrated into the voluntary market's activities and business models.
Article 6 of the Paris Agreement establishes mechanisms for Parties to "pursue voluntary cooperation in the implementation of their nationally determined contributions to allow for higher ambition in their mitigation and adaptation actions [...]" (Article 6.1). I. e. the mechanisms are explicitly designed to foster higher ambition. However, without additional guidance and rules, the economic incentives of carbon markets may work against increasing host country ambition. For example, setting ambitious NDC targets may directly reduce the amount of mitigation outcomes that go beyond the NDC target and that a host country can transfer abroad. The report presents four options on how the risks can be ad-dressed and ambition can be increased: (1) Strengthening reporting, transparency and comparability; (2) Reconciling the design of the Article 6.4 mechanism with ambition raising of host countries; (3) Supporting the host country to raise ambition through the Article 6.4 mechanism; (4) Fostering the acquiring country to raise ambition through the Article 6.4 mechanism. These options are assessed and recommendations are provided on how they could be implemented.
Article 6.4 of the Paris Agreement establishes a new mechanism for Parties to cooperate in achieving their nationally determined contributions (NDCs). One key innovation of the Article 6.4 mechanism is its objective to "deliver an overall mitigation in global emissions" (Art. 6.4(d)). This report develops recommendations on how to implement this objective. A key difficulty lies in the fact that even basics of how the mechanism is supposed to function have so far not been clarified by the Parties. The report therefore first sketches out what has so far been agreed and discussed on the mechanism’s activity cycle. Second, as the concept of overall mitigation has so far also not been clearly defined by Parties, the report derives a working definition from the language that was agreed in the Paris Agreement. In the next step, the report provides a survey of the options to achieve overall mitigation that have so far been discussed in the relevant literature and in the Article 6 negotiations. Many of these options were developed in the context of the Kyoto mechanisms. The report therefore discusses to what extent the options are also applicable under the Paris Agreement or whether adjustments need to be made. In the following, the options that are applicable under the Agreement are assessed on the basis of a number of criteria. The report concludes with a summary of the main findings and recommendations.
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.
Ein CO2-Preis ist ein zentrales Instrument, um eine umfassende Dekarbonisierung der Wirtschaft zu ermöglichen und zu erleichtern. Sie kann durch verschiedene Instrumente umgesetzt werden, insbesondere in Form einer CO2-Steuer. Es ist jedoch wichtig, dass ein CO2-Preis allein - aufgrund der vielfältigen Hindernisse (einschließlich nicht ökonomischer Hemmnisse) - die sektoralen Ziele und Instrumente nicht ersetzen kann. Vielmehr muss er komplementär zu sektorspezifischen Klimaschutzinstrumenten eingeführt werden. Der Artikel gibt Auskunft darüber, wie ein CO2-Preis konkret und angemessen ausgestaltet werden kann.
Die Autoren verdeutlichen in diesem Papier, dass der Megatrend Digitalisierung nicht zwingend unkontrollierbar über die Wirtschaft und die Gesellschaft hereinbricht. Seine Wirkung hängt vom menschlichen Verhalten, von der Gestaltung neuer Prozessen in Organisationen, aber auch Anpassungen der gesetzlichen Rahmenbedingungen ab. Dieses sozio-kulturelle, organisatorische und institutionelle Umfeld der digitalen Innovationen könne und müsse im Sinne ökologischer Nachhaltigkeit beeinflusst werden. Politik sei hier aufgefordert auf der Basis fundierter Analysen flankierend tätig zu werden. Die Autoren fordern daher, für die Digitalwirtschaft eine eigene sektorspezifische Politik zu entwickeln, wie sie für andere umweltrelevante Sektoren - etwa die Energiewirtschaft, Chemieindustrie oder Autoindustrie - bereits etabliert ist.
Die vorliegende Broschüre fasst die Ergebnisse des dreijährigen Projektes "BMM HOCH DREI - Betriebliches Mobilitätsmanagement im Bergischen Städtedreieck (Remscheid-Solingen-Wuppertal)" für die Praxis zusammen. Die Broschüre stellt den Quartiersansatz vor, beschreibt den Prozess der Beratung und die Entwicklung von Maßnahmen. Als Ergebnis stellt sie die Potenziale für eine Verkehrsverlagerung und den notwendigen Handlungsbedarf für die Praxis dar.
Derzeit befindet sich der zweite Entwurf zum Gebäudeenergiegesetz (GEG) des Bundeswirtschaftsministeriums und Bundesbauressorts zur Vereinheitlichung des Energieeinsparrechts für Gebäude in den Ressorts in der Abstimmung. Doch der Entwurf fällt weit hinter dem aktuellen klimapolitischen Aufbruch der Großen Koalition zurück und die Vorgaben der Europäischen Union erfüllt er nicht.
Können Wissenschafts- und Kulturinstitutionen in ihrer gesellschaftlichen Wirkung davon profitieren, wenn sie sich einem temporären Perspektivwechsel unterziehen? Der Beitrag beschreibt das Design und den Anspruch eines Vorhabens von zwei Wuppertaler Institutionen, die sich mit dem zeitlich befristeten Ämtertausch ihrer Leiter einem solchen Experiment unterziehen werden: der Oper Wuppertal und dem Wuppertal Institut für Klima, Umwelt, Energie - einem führenden Nachhaltigkeits-Think-Tank.
Reaching the climate goals for the building sector requires to improve insulation and to increase air tightness of buildings in order to minimize heat loss. To achieve these goals and to prevent risks to the health of occupants and damages to the building fabric due to insufficient removal of pollutants and humidity, broad implementation of Mechanical Ventilation and Heat Recovery (MVHR) systems is crucial.
Comparable and up to date figures on the market penetration of MVHR systems across the EU are hardly available. However, figures point to only a small share of residential buildings being currently equipped with such systems (cf. Riviere et al. 2009). For the German building stock the figure is estimated to be below 5% (Händel 2011). The paper presents insights into the reasons for the slow diffusion of HRV technologies in the German building stock. It builds on the results of a recently completed research project whose central aim was to identify actor-specific and structural barriers for the diffusion of efficient ventilation systems in apartment buildings and to examine how these barriers can be addressed.
The analysis is based on 40 semi-structured expert interviews with energy consultants, HVAC craftsmen, and housing companies, as well as guided in-depth interviews with private owners of apartment buildings or apartments that were evaluated by means of qualitative content analysis. Based on the collected data, seven barrier categories were identified, each containing a range of single barriers for the diffusion of efficient ventilation systems within the residential building stock.
Results of the analysis were quantitatively validated by means of online surveys and a household survey among 1,008 households. The paper points out interdependencies within the chain of effects leading up to the investment decision of building owners. Furthermore, based on good practice examples identified within the data collection process, it proposes different measures to address these barriers.
A significant reduction in greenhouse gas emissions will be necessary in the coming decades to enable the global community to avoid the most dangerous consequences of man-made global warming. This fact is reflected in Germany's 7th Federal Energy Research Program (EFP), which was adopted in 2018. Direct Air Capture (DAC) technologies used to absorb carbon dioxide (CO2) from the atmosphere comprise one way to achieve these reductions in greenhouse gases. DAC has been identified as a technology (group) for which there are still major technology gaps. The intention of this article is to explore the potential role of DAC for the EFP by using a multi-dimensional analysis showing the technology's possible contributions to the German government's energy and climate policy goals and to German industry's global reputation in the field of modern energy technologies, as well as the possibilities of integrating DAC into the existing energy system. The results show that the future role of DAC is affected by a variety of uncertainty factors. The technology is still in an early stage of development and has yet to prove its large-scale technical feasibility, as well as its economic viability. The results of the multi-dimensional evaluation, as well as the need for further technological development, integrated assessment, and systems-level analyses, justify the inclusion of DAC technology in national energy research programs like the EFP.
This paper offers a comparative analysis of small wind electrification programmes targeted at remote sheep farming households in two of the windiest regions of the world, Argentine Patagonia and the Falkland Islands/Islas Malvinas. Despite comparable environmental conditions and local livelihoods, their impact was vastly different. Insights from socio-technical systems and strategic niche management approaches offered a deeper understanding of the local context and development dynamics, facilitating the identification of the critical success factors that contributed to these two distinct outcomes and finally highlighting those that can inform the design of future such initiatives. The research is based upon a series of semi-structured interviews with key stakeholders, observational field visits and review of archival sources. The critical factors identified by this case study research include strong and consistent institutional support, investment in robust equipment creation of effective feedback loops from the field and hybridisation. Additionally, a user centred approach that assesses whether small wind is really the right option for each individual household and if so, matches an appropriate energy system to their unique and evolving needs. Finally, empowering users to take on as much responsibility for maintenance as possible by integrating maintenance practices with local culture and ensuring the support of an effective decentralised maintenance network.
Weltweit trägt die Industrie direkt und indirekt etwa über ihren Bezug von Strom und Wärme rund 30 bis 40 Prozent zu den Treibhausgasemissionen bei. Auch in Deutschland liegt ihr Beitrag in einer ähnlichen Größenordnung1. Dabei sind insbesondere die Grundstoffindustrien (Stahl, Zement, Grundstoffchemie, Glas, Aluminium, Papier und andere) besonders energie- und emissionsintensiv. Gleichzeitig basiert der Energieeinsatz dieser Industrien bisher noch überwiegend auf fossilen Energien (und Müll). Zu den energiebedingten Emissionen kommen prozessbedingte Emissionen hinzu, die sich bei den heute üblichen Verfahren selbst bei Einsatz vollständig "grüner" Energien nicht vermeiden lassen. Grundstoffindustrien stellen Materialien für die Herstellung und Verarbeitung von Produkten zur Verfügung. Sie sind daher kein Selbstzweck, sondern tragen letztlich damit dazu bei, vielfältige Bedürfnisse abzudecken.
Responsible consumption and production is one of the Sustainable Development Goals of the United Nations. To achieve this goal the currently high extraction rates of natural resources, that our economy is based on, needs a transformation of the consumption and production system considering technological as well as social change. One of the promising transition approaches is seen in collaborative consumption with its many facets of socio-cultural innovations and fast growing number of participants and businesses. With a decreasing production of goods, due to a utilisation of underutilised assets, these offers might support an absolute reduction of the global resource use. However, a positive environmental effect depends on the setting and the social practices of such sharing offers and is not sustainable or resource efficient generally. Also, resource efficient practices with a low diffusion potential that stick in a niche offer no leverage to achieve sustainable consumption patterns. Thus, this paper describes a mixed method approach to analyse the resource efficiency and diffusion potential of 20 sharing offers in the area of mobility, housing & travel and everyday objects in Germany. Results show that the overall positive environmental connotation of sharing offers cannot be confirmed. We identified five clusters of offers that are all treated to be differently when it comes to deploying the positive potential and avoid unnecessary societal effort to achieve the mentioned Sustainable Development Goal.
German energy transition : targets, current status, chances and challenges of an ambitious pathway
(2019)
With the "Energiewende", the German term for the transformation of the national energy system, the German government pursues ambitious goals, primarily but not only to reflect the climate change challenge and to react to the risks associated with the use of nuclear power plants. After launching the energy concept in mid-2011, which describes the "Energiewende" goals, Germany was perceived as an international pioneer in energy transition for many years and has been acknowledged for its braveness to combine ambitious greenhouse gas (GHG) mitigation targets with a phase out program for nuclear power plants. In this context, this article asks where Germany’s energy transition currently stands, what is planned next and how far the set targets have been achieved or where more action is required to stick to this pathway.
Im Energiesektor hat die Digitalisierung bereits viele Abläufe der Wertschöpfungskette verändert. Es besteht jedoch weiterhin erhebliches Potenzial zur Nutzung von digitalen Anwendungen. Insofern ist mit weiteren tiefgreifenden Veränderungen zu rechnen. Neben den zahlreichen Nutzen bestehen auch potenzielle negative Auswirkungen. Die so entstehenden Spannungsfelder müssen frühzeitig analysiert werden, um Lösungsoptionen für potenzielle Hindernisse zu erarbeiten um somit den größtmöglichen Nutzen der Digitalisierung erzielen zu können.
In recent years, most countries in the Middle East and North Africa (MENA), including Jordan, Morocco and Tunisia, have rolled out national policies with the goal of decarbonising their economies. Energy policy goals in these countries have been characterised by expanding the deployment of renewable energy technologies in the electricity mix in the medium term (i.e., until 2030). This tacitly signals a transformation of socio-technical systems by 2030 and beyond. Nevertheless, how these policy objectives actually translate into future scenarios that can also take into account a long-term perspective up to 2050 and correspond to local preferences remains largely understudied. This paper aims to fill this gap by identifying the most widely preferred long-term electricity scenarios for Jordan, Morocco and Tunisia. During a series of two-day workshops (one in each country), the research team, along with local stakeholders, adopted a participatory approach to develop multiple 2050 electricity scenarios, which enabled electricity pathways to be modelled using Renewable Energy Pathway Simulation System GIS (renpassG!S). We subsequently used the Analytical Hierarchy Process (AHP) within a Multi-Criteria Analysis (MCA) to capture local preferences. The empirical findings show that local stakeholders in all three countries preferred electricity scenarios mainly or even exclusively based on renewables. The findings demonstrate a clear preference for renewable energies and show that useful insights can be generated using participatory approaches to energy planning.
Nowadays, the main impetus to apply additive manufacturing (AM) of metals is the high geometric flexibility of the processes and its ability to produce pilot or small batch series. In contrast, resource and energy intensities are often not considered as constraints, even though the turnout of additive manufacturing is high, at least compared to chip removing processes.
The study at hand analyses the material characteristics and environmental impacts of a hose nozzle as an example of a commercial product of simple geometry. The production routes turning (conventional manufacturing) and laser beam melting (additive manufacturing) are compared to each other in terms of natural resource use, climate change potential and primary energy demand. It is found, that the product shows a lower demand for natural resources when produced via AM, but higher carbon emissions and energy demand when using a steel, that is mainly (80%) produced from high-alloyed steel scrap. However, different case studies during the sensitivity analyses showed that a number of factors highly influence the results: the steel source as well as the source of electricity play a major role in determining the environmental performance of the production routes. The authors also found that other production processes (here cold forging of tubes) might be an eco-friendly alternative to both routes, if feasible from an economic point of view.
In regard to the material characteristics, experimental testing revealed that the material advantages of AM produced hose nozzles (in particular higher yield strength) are reduced after a solution heat treatment is applied to the as-produced material, in order to increase corrosion resistance. However, products that do not require this production step might benefit from the higher yield strength, as a lower wall thickness could be realised.
Urban energy systems have been commonly considered to be socio-technical systems within the boundaries of an urban area. However, recent literature challenges this notion in that it urges researchers to look at the wider interactions and influences of urban energy systems wherein the socio-technical sphere is expanded to political, environmental and economic realms as well. In addition to the inter-sectoral linkages, the diverse agents and multilevel governance trends of energy sustainability in the dynamic environment of cities make the urban energy landscape a complex one. There is a strong case then for establishing a new conceptualisation of urban energy systems that builds upon these contemporary understandings of such systems. We argue that the complex systems approach can be suitable for this. In this paper, we propose a pilot framework for understanding urban energy systems using complex systems theory as an integrating plane. We review the multiple streams of urban energy literature to identify the contemporary discussions and construct this framework that can serve as a common ontological understanding for the different scholarships studying urban energy systems. We conclude the paper by highlighting the ways in which the framework can serve some of the relevant communities.
To contribute to a better understanding of consumer food leftovers and to facilitate their reduction in out-of-home settings, our study analyzes the effects of two common intervention strategies for reducing leftovers in a holistic behavioral model. Based on a quasi-experimental baseline-intervention design, we analyzed how the display of information posters and the reduction of portion sizes take an effect on personal, social and environmental determinants in a structural equation model. Applying data from online surveys and observations among 880 guests (503 baseline, 377 intervention) during two weeks in a university canteen, the suggested model allows to assign effects from the two interventions on plate leftovers to specific changes in behavioral determinants. Portion size reductions for target dishes are found to relate to lower levels of plate waste based on conscious perception, represented in smaller portion size ratings. Effects from seeing information posters are found to base on changed personal attitudes, subjective norms and perceived behavioral control. However, depending on how an individual reacts to the information (by only making an effort to finish all food or by making an effort and additionally choosing a different dish in the canteen) there are opposite effects on these determinants and consequently also on plate leftovers. Overall, the differentiated results on intervention effects strongly support the benefits of more holistic and in-depth analyses of interventions to reduce plate leftovers and therefore to contribute to more sustainable food consumption in out-of-home settings.
The implementation of energy efficiency improvement actions not only yields energy and greenhouse gas emission savings, but also leads to other multiple impacts such as air pollution reductions and subsequent health and eco-system effects, resource impacts, economic effects on labour markets, aggregate demand and energy prices or on energy security. While many of these impacts have been studied in previous research, this work quantifies them in one consistent framework based on a common underlying bottom-up funded energy efficiency scenario across the EU. These scenario data are used to quantify multiple impacts by energy efficiency improvement action and for all EU28 member states using existing approaches and partially further developing methodologies. Where possible, impacts are integrated into cost-benefit analyses. We find that with a conservative estimate, multiple impacts sum up to a size of at least 50% of energy cost savings, with substantial impacts coming from e.g., air pollution, energy poverty reduction and economic impacts.
Die vorliegende Arbeit verfolgt die Zielsetzung, den Beitrag verschiedener politischer Handlungsoptionen zur Steigerung der betrieblichen Energieeffizienz zu ermitteln.
Eingangs wird aufgezeigt, inwieweit die Steigerung der Energieeffizienz aufgrund ihrer vielfältigen Vorteile eine Einstufung als eigenständige Zielgröße rechtfertigt im Gegensatz zu einer bloßen Betrachtung als Mittel zum Zweck des Klimaschutzes.
Für die anschließende quantitative Analyse wurden Daten aus dem Projekt Energieeffizienz Impulsgespräche des Rationalisierungs- und Innovationszentrums der Deutschen Wirtschaft (RKW) e.V. aus den Jahren 2011 bis 2013 mit eigens für diese Arbeit erhobenen Daten von 2017 für dieselben Unternehmen verglichen. Zu diesem Zweck wird ein difference-in-differences-Ansatz genutzt. Im Ergebnis erweisen sich Preise im Gegensatz zu anderen Maßnahmen wie Energieberatungen, Fördermitteln und Energiemanagementsystemen als zumindest teilweise wirksame Einflussgröße für die Energieeffizienz. Der Autor empfiehlt auf dieser Basis eine stärker marktwirtschaftlich ausgerichtete Effizienzpolitik.
Im Rahmen des Forschungsprojekts "Wirtschaftsförderung 4.0" leistet die vorliegende Arbeit einen Beitrag zum besseren Verständnis der systematischen Stärkung zivilgesellschaftlicher Nachhaltigkeitsinitiativen. Das Ziel der Analyse besteht darin, Ansatzpunkte möglicher Unterstützungsmaßnahmen aufzuzeigen, die im Zuge kommunaler Wirtschaftsförderung aufgegriffen werden können.
Zur Erarbeitung wurden zunächst mithilfe theoretischer Grundlagen aus der Transition- und Diffusionsforschung zentrale Einflussfaktoren zusammengetragen, die förderlich oder hemmend auf transformative Nachhaltigkeitsinitiativen wirken können. Mit dem Ziel, kontextangepasste Maßnahmen zu entwickeln, wurden die literaturbasierten Faktoren anschließend in einer qualitativen Befragung mit einer Praxisperspektive verglichen und ergänzt: Mittels leitfadengestützter Experteninterviews mit nachhaltigkeitsorientierten Initiativen in der Region Osnabrück wurden kommunale Gegebenheiten sowie die jeweiligen Erfolgsfaktoren, Herausforderungen und Bedarfe der Graswurzelinitiativen erfasst.
Im Ergebnis zeigen sich sieben übergreifende Bedarfsfelder, die vor allem aus der empirischen Erhebung abgeleitet wurden. Aus ihnen wurden Handlungsempfehlungen und Ansatzpunkte kommunaler Unterstützung erarbeitet und diskutiert.
Das Wuppertal Institut hat das Forschungsformat der Reallabore
konzeptionell und praktisch entscheidend mitgeprägt. Insbesondere in den
letzten fünf Jahren erlebt dieses Format einen ungeahnten Aufschwung.
Vor diesem Hintergrund blickt der vorliegende In Brief auf die Perspektiven für die künftige Forschung in Reallaboren. Drei Forderungen sind dabei von zentraler Bedeutung:
(1) die Besinnung auf die ursprünglichen Kern-Charakteristika der Reallabor-Idee,
(2) der systematische Capacity-Aufbau für Reallabore im Wissenschaftssystem und
(3) die Etablierung von langfristiger angelegten Reallaborstrukturen.
Abfallwirtschaftliche Produktverantwortung unter Ressourcenschutzaspekten (RePro) : Abschlussbericht
(2019)
Elektro- und Elektronikaltgeräte enthalten eine Vielzahl von umwelt- und ressourcenrelevanten Metallen wie Gold und Neodym, welche derzeit noch nicht optimal recycelt werden. Im vorliegenden Projekt wurden die Mengenpotenziale von 10 dieser Metalle in 30 ressourcenrelevanten Elektrogerätearten quantifiziert und die bestehenden Verluste bei der Elektroaltgeräte-Entsorgung von der Sammlung über die Behandlung bis zur Metallrückgewinnung über Mengenstrombilanzen ermittelt, teilweise unterstützt durch Sortieranalysen und Behandlungsversuche. Die Studie leitet daraus Maßnahmenempfehlungen zur Optimierung der Erfassungsstrukturen sowie der Behandlungs- und Verwertungssysteme für Elektroaltgeräte aus privaten Haushalten zur Rückgewinnung der betrachteten Metalle ab.
Many countries are increasingly investing in renewable energy technologies to meet growing energy demands and increase the security of their energy supply. This development is also evident in the Middle East and North Africa (MENA) region, where renewable energy targets and policies have evolved rapidly in recent years. There is a steady increase in both the number of planned and implemented solar photovoltaic (PV) but also of solar thermal projects in form of Concentrating Solar Power (CSP) plants. Many of these installations are designed as large utility-scale systems. Despite the fact that these types of large-scale projects can have significant effects on local communities and their livelihoods, the existing research into the social impacts of such large-scale renewable energy infrastructures at local level is limited. However, assessing and managing these impacts is becoming increasingly important to reduce risks to both the affected communities and to the project and businesses activities. In order to provide more robust evidence on the local effects, this research study reviews the social impacts of large-scale renewable energy infrastructure in the MENA region based on a case study of the NOORo I CSP plant in Ouarzazate, Morocco. Data collected during two empirical field studies, in combination with expert interviews and secondary data analysis, provides detailed evidence on the type and significance of livelihood impacts of the NOORo I CSP plant. The analysis results in a consolidated list of 30 impacts and their significance levels for different stakeholder groups including farmers, young people, women, community representatives and owners of small and medium enterprises. The results show that, overall, the infrastructure development was received positively. The review also indicates that factors identified as having effects on the sustainability of local livelihoods are mainly related to information management and benefit distribution, rather than physical or material aspects.
In 2016, the European Commission presented the Clean Energy for all Europeans Package , comprising legislative proposals to facilitate the clean energy transition within the EU, such as the revised EPBD 2010/31/EU and EED 2012/27/EU.Besides putting energy efficiency first and achieving global leadership in renewable energy, a third goal of the package was to provide a "fair deal to consumers" with "no one left behind"., While in some Member States the issue of energy poverty already was on the political agenda, enabling affordable access to basic energy services for all households and thus reducing energy poverty is now an explicit policy target of the revised EU Directives.
In order to assess and monitor the extent of the issue across the EU and address it by suitable measures, the concept of energy poverty needs to be defined, operationalised and measured. The paper aims to investigate the role of energy poverty indicators for policy making. To do so, it provides an overview on existing measurement approaches.Furthermore, the paper presents the development and current state of energy poverty across the EU using a set of four complementary indicators used by the EU Energy Poverty Observatory. These consensual and expenditure-based indicators are calculated using data from the EU Survey on Income and Living Conditions and the Household Budget Survey.
In addition, the paper highlights peculiarities of results on the different indicators, describes persisting issues with regard to their calculation and interpretation against the background of the underlying data base.
Based on the results of this analysis, further necessities of data collection and research are pointed out.
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.
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.
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.
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.
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.
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.
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.
Additionality revisited : guarding the integrity of market mechanisms under the Paris agreement
(2019)
The Paris Agreement requires mitigation contributions from all Parties. Therefore, the determination of additionality of activities under the market mechanisms of its Article 6 will need to be revisited. This paper provides recommendations on how to operationalize additionality under Article 6. We first review generic definitions of additionality and current approaches for testing of additionality before discussing under which conditions additionality testing of specific activities or policies is still necessary under the new context of the Paris Agreement, that is, in order to prevent increases of global emissions. We argue that the possibility of "hot air" generation under nationally-determined contributions (NDCs) requires an independent check of the NDC's ambition. If the NDC of the transferring country does contain "hot air", or if the transferred emission reductions are not covered by the NDC, a dedicated additionality test should be required. While additionality tests of projects and programmes could continue to be done through investment analysis, for policy instruments new approaches are required. They should be differentiated according to type of policy instrument. For regulation, we suggest calculating the resulting pay-back period for technology users. If the regulation generates investments exceeding a payback period threshold, it could be deemed additional. Similarly, carbon pricing policies that generate a carbon price exceeding a threshold could qualify; for trading schemes an absence of over-allocation needs to be shown. The threshold should be differentiated according to country categories and rise over time.
The Global Stocktake (GST) takes a central role within the architecture of the Paris Agreement, with many hoping that it will become a catalyst for increased mitigation ambition. This paper outlines four governance functions for an ideal GST: pacemaker, ensurer of accountability, driver of ambition and provider of guidance and signal. The GST can set the pace of progress by stimulating and synchronizing policy processes across governance levels. It can ensure accountability of Parties through transparency and public information sharing. Ambition can be enhanced through benchmarks for action and transformative learning. By reiterating and refining the long term visions, it can echo and amplify the guidance and signal provided by the Paris Agreement. The paper further outlines preconditions for the effective performance of these functions. Process-related conditions include: a public appraisal of inputs; a facilitative format that can develop specific recommendations; high-level endorsement to amplify the message and effectively inform national climate policy agendas; and an appropriate schedule, especially with respect to the transparency framework. Underlying information provided by Parties complemented with other (scientific) sources needs to enable benchmark setting for collective climate action, to allow for transparent assessments of the state of emissions and progress of a low-carbon transformation. The information also needs to be politically relevant and concrete enough to trigger enhancement of ambition. We conclude that meeting these conditions would enable an ideal GST and maximize its catalytic effect.
"400,000 new homes per year are needed in German cities." This figure has been cited repeatedly in political discussions, media, and statements of different groups for a couple of years now. Living space is needed to mitigate the (further) inordinate increase of rents in some cities and regions and to ease finding appropriate flats at affordable prices for low- and medium-income households. But how to activate investors and the real estate market?
Having the triangle of sustainability in mind with its ecologic, social and economic cornerstones the discussion - metaphorically spoken - currently pulls the three corners: Which should have the highest priority?
The economically driven most favourable solution is lowering the requirements for new buildings such as the energy performance to make building cheaper. The social perspective prefers an increase of public social housing investments regardless of efficiency standards. And the ecological side argues that a high performance is needed to reach energy and climate targets in the buildings sector.
Starting at this point of discussion, firstly, the paper reflects the assumptions behind the numbers of new homes needed against a sufficiency background.
Secondly, it presents current changes in German building policies: a new legislation for energy supply and efficiency is currently in preparation.
It discusses the potential to integrate sufficiency aspects in building policies, focussing specifically on the new regulation, financial incentives, and energy advice.
The paper analyses if and to what extent it is likely to balance the three cornerstones of sustainability by integrating sufficiency aspects into efficiency policies. Household experiences with prepayment meters are used as an example to illustrate the potential for tapping efficiency and sufficiency potentials in low-income households considering social, economic, and ecological aspects. Based on the identified (in)consistencies, thirdly, it suggests further development in German policies to make better use of synergies between the ecologic, social and economic demands on buildings.
Der NaWis-Verbund verstärkt seine Bestrebungen, die gesellschaftlichen Wirkungen von transformativer Forschung abzubilden. Damit soll auch die Qualität der Forschungsarbeiten gesichert werden. Die bei der Impact-Messung zur Anwendung kommenden Ansätze unterscheiden sich bislang grundsätzlich. Der vorliegende Beitrag skizziert den Zugang des Wuppertal Instituts für Klima, Umwelt, Energie.
Footprint calculators are efficient tools to monitor the environmental impact of private consumption. We present the results of an analysis of data entered into an online Material Footprint calculator undertaken to identify the socioeconomic drivers of the Material Footprint in different areas of consumption, from housing to holidaymaking. We developed regression models to reveal (1) the impact of socioeconomic characteristics on Material Footprints of private households and (2) correlations between the components of Material Footprints for different arrays of consumption. Our results show that an increasing Material Footprint in one array of consumption comes with an increasing Material Footprint in all other arrays, with the exception of housing and holidaymaking. The socioeconomic characteristics of users have a significant impact on their Material Footprints. However, this impact varies by the array of consumption. Households only exhibit generally bigger Material Footprints as a result of higher incomes and larger dwellings. We conclude that indicators which strive to monitor resource efficiency should survey disaggregated data in order to classify the resource use to different population groups and arrays of consumption.
How can existing national climate policy instruments contribute to ETS development? : Final report
(2019)
Before introducing an emissions trading system, jurisdictions have to consider the ex-isting energy and climate policy framework. This report seeks to analyse and evaluate non-ETS climate policy instruments, such as carbon taxes or green certificate trading schemes, regarding their suitability to serve as a basis for establishing emission trading systems. There is a general assessment of prototypical policy instruments. Besides, the report contains insights from case studies in India and Mexico. The report is meant to inform ETS development by showing how existing policy instruments could contribute to this process and by illustrating how non-ETS policy instruments could coexist with an emissions trading system, allowing for an effective policy mix.
Green Information Systems in general, and footprint calculators in particular, are promising feedback tools to assist people in adopting sustainable behaviour. Therefore, a Material Footprint model for use in an online footprint calculator was developed by identifying the most important predictors of the Material Footprint of the calculator's users. By means of statistical learning, the analysis revealed that 22 of the 95 predictors identified accounted for 74% of the variance in Material Footprints. Ten predictors out of the 95, mainly from the mobility domain, were capable of showing a prediction accuracy of 61%. The authors conclude that 22 predictors from the areas of mobility, housing and nutrition, as well as sociodemographic information, accurately predict a person's Material Footprint. The short and concise Material Footprint model may help developers and researchers to enhance their information systems with additional items while ensuring the data quality of such applications.
Global climate
(2019)
The twenty-third Conference of the Parties (COP-23) of the United Nations Framework Convention on Climate Change (UNFCCC) was held in Bonn on 6-17 November 2017, under the presidency of Fiji. COP-23 focused, in particular, on developing rules to implement the 2015 Paris Agreement and on raising ambition for climate protection. Since this was the first "Oceanic" COP, special attention was given to supporting the countries of the Global South in their efforts to reduce emissions, adapt to climate change, and deal with the unavoidable impacts of climate change. This article summarizes the main developments and results of COP-23.
The transformation of cities towards sustainable and inclusive development is a key objective of the New Urban Agenda (United Nations 2017). Transport infrastructure is a critical factor in shaping cities, determining the energy intensity of mobility and providing access to essential social and economic opportunities. The sector also plays an important role in global climate change mitigation strategies, as it currently accounts for about 23% of global energy-related greenhouse gas emissions (IPCC 2014).
There is substantial potential to improve urban access, air quality, safety and the quality of life in cities along with reducing Greenhouse Gas Emissions if an integrated policy approach is applied that combines all intervention areas for transport policy and involves all levels of government. A package that achieves low-carbon transport and fosters sustainable developed includes avoided journeys through compact urban design and shifts to more efficient modes of transport, uptake of improved vehicle and engine performance technologies, low-carbon fuels, investments in related infrastructure, and changes in the built environment. From a governance perspective, all relevant political institutions at the local and national level need to be involved in the coalition building along with key societal actors, such as unions, industry and civil society organisations. Bringing the policy objectives of these actors together with an integrated policy package is a vital step towards a low-carbon, sustainable mobility system.
Policy design and governance are critically interlinked as the ability of institutions to find a political consensus and to maintain policy stability heavily influences the success of measures to shape the transformation pathway towards sustainable mobility. This thesis aims to analyse these linkages and highlight the role of different policy and governance approaches. This analysis builds on transport and urban development research, but takes a transdisciplinary research perspective, building on the Multi-Level-Perspective on sustainability transitions (Geels 2002) and aims to highlight the potential for a consensus oriented policy approach (Lijphard 1999) that builds on co-benefits among key policy objectives and coalitions among key political actors, which leads to the main question for this thesis and the focus areas for the analysis.
Nach jahrzehntelangen, erfolgreichen Reduktionen der CO2-Emissionen in der Industrie, ist der Trend in den letzten Jahren wieder rückläufig geworden: seit 2014 sind die Emissionen wieder angestiegen (UBA 2019). Um die deutschen Klimaziele zu erreichen ist es daher notwendig, die Anstrengungen zu verstärken und intensiver als in der Vergangenheit Innovationen für den Klimaschutz voranzutreiben: Neue Produkte und Geschäftsmodelle sowie neue Herstellungsverfahren zu entwickeln, mit denen sich Treibhausgasemissionen reduzieren lassen.
Um die deutschen Klimaziele für 2030 einzuhalten, werden hierfür gerade auch (inkrementelle) Effizienzsteigerungen nötig sein - diese werden jedoch nicht ausreichend sein. Innovationen müssen auch einen disruptiven Wandel von Strukturen und Geschäftsmodellen erwirken. Disruptive Innovationen und industrielle Konversionsprozesse bergen jedoch hohe Risiken für die etablierte Industrie. Hier stellt sich also die Frage, wie eine auf Klimaschutz ausgerichtete Innovationspolitik gestaltet werden muss, um einerseits die notwendigen CO2-Einsparungen zu ermöglichen und andererseits die Leistungfähigkeit der deutschen Industrie zu befördern?
Vor diesem Hintergrund widmet sich diese Studie zwei zentralen Fragestellungen: Wie laufen Klimaschutz-Innovationsprozesse ab? Wie können Klimaschutz-Innovationen befördert werden?
Basierend auf einer konzeptionellen Klassifizierung von Klimaschutz-Innovationen, wurden eine Reihe von existierenden Klimaschutz-Innovationen, gerade aus der energieintensiven Industrie analysiert. Vier Fallbeispiele aus verschiedenen Sektoren (Aluminiumherstellung und -verarbeitung, Herstellung neuer Kraftstoffe sowie der Verzinkung) und verschiedenen Innovationstypen werden in der Studie ausführlich beschrieben. Dabei zeigt sich, dass sich Unternehmen nicht nur an aktuellen Rahmenbedingungen orientieren, sondern Innovationen - sowohl inkrementeller wie auch radikaler Natur- im Bereich Klimaschutz auch unter der Annahme dynamischer Entwicklungen von sich verstärkenden Klimaschutzrahmenbedingungen vorantreiben. Darüber hinaus waren an allen untersuchten Fällen auch externe Promotoren unterstützend tätig. Daher wurden die möglichen Rollen von Klimaschutz-Promotoren mit unterschiedlichen regionalen und inhaltlichen Schwerpunkten gezielt analysiert.
Eine sich vorrangig auf technologische Innovationen und Entlastungsgewinne stützende Wirtschafts- und Umweltpolitik wird für die dauerhafte Senkung der Ressourcennutzung nicht ausreichen. Es bedarf auch kultureller Veränderungen im Umgang mit Ressourcen und ambitionierter und wegweisender politischer Maßnahmen.
Nun, es könnte wahrscheinlich auch anders sein : Eingriffspunkte einer Möglichkeitswissenschaft
(2019)
Mit "InnovationCity Ruhr - Modellstadt Bottrop" soll ein typisches Stück Ruhrgebiet mit rund 70 000 Einwohnern bis zum Jahr 2020 klimagerecht umgebaut werden. Benjamin Best rekonstruiert den Partizipationsprozess des Projektes, er analysiert seine Begrenzungen und zeigt Weiterentwicklungsmöglichkeiten auf. Die empirische Studie basiert auf qualitativen Methoden der empirischen Sozialforschung, auf teilnehmenden Beobachtungen in der Modellstadt und der Teilnahme an ausgewählten Beteiligungsveranstaltungen. Mittels Interviews mit Expertinnen und Experten identifiziert der Autor kulturelle Faktoren, die die Form der Partizipation im Kontext von InnovationCity sowie den Verlauf des Gesamtprojektes bestimmt haben.
Last year's conference of the global climate change regime took place from 2 until 15 December 2018 in Katowice, Poland. The conference had two main objectives: operationalising the Paris Agreement by adopting detailed rules for its implementation, and starting the process of strengthening Parties' climate protection contributions. This article covers the negotiations on these two sets of issues and also includes a discussion of other recent climate activities by Parties and non-Party actors. Success of the negotiations in Katowice was far from assured, but in the end COP24 concluded with the adoption of the "Katowice Climate Package" setting out detailed guidelines on how to implement its various elements. However, the conference fell short on the first objective, none of the major emitting countries was ready to step up its climate ambition. The most important aspect of the Katowice outcome is therefore that it has brought the wrangling about implementation procedures to a close, making way for the true task at hand: the strengthening of national and international activities to protect the climate and the implementation of the existing pledges. Arguably, a key factor that has been slowing down climate policy is the power of entrenched interests. The article therefore concludes with a reflection on how such barriers to climate action may be overcome and what role future COPs may play in this regard.
Each year, approximately one-third of the food produced for human consumption is lost or wasted worldwide. The waste of resources used for this food has significant environmental impacts in terms of land and water use as well as greenhouse gas emissions. Consequently, one of the targets of the UN sustainable development goals is to halve per capita global food waste at the retail and consumer levels and reduce food losses along production and supply chains by 2030. However, sufficient knowledge about the suitability of instruments for food waste prevention is still lacking. The purpose of this paper is therefore threefold: first, it outlines the generation and causes of food losses and waste. Second, it discusses good practices from different countries, such as laws to reduce food waste, voluntary agreements, awareness campaigns and results from behavioural economics. Finally, based on these findings, this paper identifies barriers to as well as requirements for the implementation of effective and efficient instruments.
Europa braucht eine neue Fortschrittsvision. Eine Energiewende hat dieses Potenzial. Sie kann der "Europäischen Idee" einen zukunftsorientierten Inhalt geben. Das Ziel für 2050 ist klar: ein Europa ohne fossile und nukleare Energie! Das ist keine Utopie. Studien, Beschlüsse der EU und einiger Mitgliedsländer belegen, dass diese Vision machbar und mit vielen Vorteilen verbunden ist: mehr Jobs, mehr Versorgungssicherheit, weniger vorzeitige Todesfälle durch Luftverschmutzung, Abbau von Ressourcenkonflikten, sinkende Energiekosten. Neue grüne Leitmärkte für erneuerbare Energien und Ressourceneffizienz entstehen. Eine europäische Energiewende erfordert eine Allianz, idealerweise angefeuert durch die Nachbarn Frankreich und Deutschland. Viele hoffen auf Deutschland als Treiber von Atom- und Kohleausstieg. Aber "revolutionäre Ziele" zu beschließen ist nicht genug: Sie endlich umzusetzen - darauf warten Deutschland und Europa. Dieses Buch zeigt, welche konkreten Schritte diese Fortschrittsvision voranbringen werden.
Der Anlass für die Evaluation des Deutschen Ressourceneffizienzprogramms ProgRess ist seine Fortschreibung im Jahr 2020. In zahlreichen Interviews identifizieren die Autorinnen und Autoren Stärken und Schwächen und zeigen Wege für eine institutionelle und strategische Weiterentwicklung auf. Die Bedeutung des Programms wird als überwiegend positiv, die bisherigen Ressourceneffizienzwirkungen hingegen als durchwachsen bewertet. Den Umsetzungsstand konnten die Befragten wenig beurteilen, da Indikatoren bislang nur für einen Teil der Maßnahmen vorhanden sind. Eine Priorisierung der Aktivitäten, verbindlichere Instrumente und Zielvorgaben sowie eine bessere Mittelausstattung gehören zu den Empfehlungen.
Um den ungebremst fortschreitenden Klimawandel zu begrenzen, ist eine stufenweise Dekarbonisierung des Energiesystems notwendig, die bereits bis zur Mitte dieses Jahrhunderts schon weitgehend erreicht sein muss. Neben Unsicherheiten gehen von der Energiewende gleichzeitig Investitionsimpulse für Innovationen aus, wobei Systeminnovationen eine zentrale Treiberfunktion zur Dekarbonisierung des Energiesystems einnehmen.
Diese Arbeit fokussiert die Rolle von Innovationskaskaden in der Energiewende und analysiert die Überführung von Systeminnovationen in strategische Geschäftsmodellinnovationen vor dem Hintergrund der Frage, wie die Dekarbonisierung des Energiesystems für Unternehmen der Energiewirtschaft und THG-intensiven Industrie rentabel ausgestaltet werden kann.
Die Dissertation leistet einen substanziellen Beitrag zur Entscheidungsfindung im strategischen (Innovations-)Management für Unternehmen der Energiewirtschaft und der THG-intensiven Sektoren - Bereiche, die von einem erheblichen Transformationsdruck gekennzeichnet sind. Insbesondere für Unternehmen, die bedingt durch den Wandel des Energiesystems großen Herausforderungen gegenüberstehen, leistet diese Arbeit einen Beitrag zur Ableitung neuer, nachhaltiger und ökonomisch tragfähiger Geschäftsmodelle. Im Mittelpunkt stehen die Systeminnovationen Power-to-Gas (P2G) und Algae-to-X (A2X). Dabei wird der Begriff Algae-to-X erstmalig in die wissenschaftliche und praktische Diskussion eingeführt und konzeptionell fundiert. Mit einer ganzheitlichen Untersuchung der Innovationsprozesse, den damit verbundenen Chancen, Potenzialen, Unsicherheiten, Hemmnissen und visionären Zukunftsbildern von Power-to-Gas und Algae-to-X werden konkrete Handlungsansätze zur Förderung von Systeminnovationen und der Überführung in Geschäftsmodellinnovationen im window of opportunity der Energiewende herausgearbeitet.
Diese Forschungsarbeit trägt zur Weiterentwicklung der wirtschafts-wissenschaftlichen Theoriebasis in den Disziplinen des strategischen Managements und des strategischen Innovationsmanagements bei: Aufbauend auf einer breiten und tiefgreifenden Analyse bestehender Ansätze wird die Bedeutung von Systeminnovationen und Geschäftsmodellinnovationen herausgestellt und die tragende Rolle des in der Theorie noch relativ jungen Konzepts der Innovationskaskaden für die Umsetzung des systemischen Transformationsprozesses der Energiewende theoretisch fundiert und empirisch gestützt. Hervorzuheben ist, dass die Unsicherheiten, die mit der Entwicklung von tragfähigen Geschäftsmodellinnovationen einhergehen, ökonomisch fundiert sind, in den Beispielen in Abhängigkeit des Neuigkeitsgrades und damit der Entwicklungsstufe der Innovationskaskade aber technologisch (A2X) bzw. regulatorisch (P2G) bedingt sind. Bei der Überführung von Systeminnovationen in strategische Geschäftsmodellinnovationen über die Ableitung von Innovationskaskaden stellt diese Arbeit zwei neue, theoretisch fundierte und empirisch überprüfte innovationsauslösende Stimuli vor: Die systeminduzierten Impulse des system-push und des system-pull.
Die Diskussion um die Gestaltung der Energiewende dreht sich in der politischen und gesellschaftlichen Debatte heute maßgeblich um die Stromversorgung der Zukunft. Ausstieg aus der Kohleverstromung und Ausbau bzw. Optimierung von Stromtransport- und verteilnetz sind nur zwei Beispiele dafür. Zu wenig Beachtung wird dagegen den Gasinfrastrukturen geschenkt und dabei insbesondere den Gas(import-)infrastrukturen, die mit Blick auf die Energiewende eine signifikante Rolle spielen (können).
Der heutige energetische Sanierungsbedarf des Gebäudebestands in Deutschland ist ein über Jahrzehnte qua irregeleiteter Auslegung produzierter. Inzwischen hat der technische Fortschritt erreicht, was zu erwarten war: Das Null-Energie-Haus, sogar das Plus-Energie-Haus sind heute möglich geworden. Beide sind auch "wirtschaftlich" - sofern man neu baut. Und selbstverständlich nur bei einem geklärten Verständnis von "wirtschaftlich", insbesondere im anstehenden Gebäude-Energie-Gesetz (GEG).
Der Anteil fluktuierender erneuerbarer Energien im deutschen Strommix steigt. Um die Netzstabilität zu erhalten, Fluktuationen im Dargebot nach Wetterlage und saisonal auszugleichen sind absehbar ab ca. 2030 große Stromspeicherkapazitäten erforderlich. Wasser-Pumpspeicherwerke sind derzeit die einzige langjährig erprobte Technologie, die künftig in Braunkohletagebauen, welche im Zuge der Energiewende aufgegeben werden, errichtet werden könnten. Eine Überschlagsrechnung am Beispiel eines Pumpspeicherwerks in verschiedenen Tagebauen zeigt, dass diese mit bis zu 400 GWh ein signifikantes technisches Speicherpotenzial haben.
Die Digitalisierung ist längst gelebte Praxis. Jeden Tag werden Milliarden an "digitalen" Handlungen ausgeführt. Beispielsweise werden täglich 207 Mrd. E-Mails verschickt, 8,8 Mrd. YouTube-Videos angesehen und 36 Mio. Amazonkäufe getätigt. Dabei nimmt die Geschwindigkeit, mit der neue Anwendungen entwickelt und etabliert werden, kontinuierlich zu. Es stellt sich also die Frage, was im Energiesektor zu erwarten ist und wie die Entwicklung zielgerichtet genutzt werden kann.
Der schnell fortschreitende Digitalisierungs- und Automatisierungsprozess ist heute schon ein wichtiger Wegbegleiter für die Transformation des aktuellen Energiesystems. Im vorliegenden Beitrag werden sechs Anwendungsbeispiele vorgestellt, die deutlich machen, dass die Energiewende ohne Digitalisierung nicht denkbar ist.
On 26 January 2019, the Commission on Growth, Structural Change and Employment recommended that no more coal-fired power plants would be operated in Germany by 2038 at the latest. In this paper the Wuppertal Institute comments on the results of the Commission and makes recommendations for the current necessary steps for the climate and innovation policy in Europe, Germany and North Rhine-Westphalia.
Am 26. Januar 2019 hat die Kommission "Wachstum, Strukturwandel und Beschäftigung" beschlossen, dass in Deutschland bis spätestens 2038 keine Kohlekraftwerke mehr betrieben werden sollen. Das Wuppertal Institut nimmt in diesem Papier Stellung zu den Ergebnissen der Kommission und gibt Empfehlungen für die nun notwendigen Schritte für die Klima- und Innovationspolitik in Europa, Deutschland und Nordrhein-Westfalen.
Welche Rolle spielt die Digitalisierung mit der Vielzahl ihrer Methoden und Anwendungen für die Energiewende - also für die Transformation unseres Energiesystems im Sinne der vereinbarten Klimaschutzziele? Ist sie notwendige Voraussetzung für den Systemumbau und ermöglicht beispielsweise erst den Übergang auf ein nahezu vollständig erneuerbares Energiesystem (Enabler) oder ist sie lediglich ein nützliches, den Umbau beschleunigendes Hilfsmittel (Facilitator)? Welche Veränderungen sind durch die Ziele der Energiewende getrieben und welche durch die Verbreitung von Techniken der Digitalisierung? All dies waren Fragen, die im Rahmen der Jahrestagung 2018 des Forschungsverbunds Erneuerbare Energien unter dem Titel "Die Energiewende - smart und digital" behandelt wurden. Dieser einführende Beitrag versucht einige Anhaltspunkte zur Beantwortung dieser Fragen zu liefern und in das Thema einzuführen.
The Paris Agreement introduces long-term strategies as an instrument to inform progressively more ambitious emission reduction objectives, while holding development goals paramount in the context of national circumstances. In the lead up to the twenty-first Conference of the Parties, the Deep Decarbonization Pathways Project developed mid-century low-emission pathways for 16 countries, based on an innovative pathway design framework. In this Perspective, we describe this framework and show how it can support the development of sectorally and technologically detailed, policy-relevant and country-driven strategies consistent with the Paris Agreement climate goal. We also discuss how this framework can be used to engage stakeholder input and buy-in; design implementation policy packages; reveal necessary technological, financial and institutional enabling conditions; and support global stocktaking and increasing of ambition.
Before linking emissions trading systems, there should be a good understanding of the expected economic implications: How could linking affect the development of the common allowance price, the development of emissions or industrial production, capital flows or liquidity? Answering these questions requires a multitude of data and assumptions and therefore usually the use of economic models.
This report gives an overview of various economic models that are suitable for assessing the economic effects of linking. It analyses the economic indicators relevant for the assessment of the effects of linking, formulates requirements for economic models to answer this question, discusses the advantages and disadvantages of different modelling approaches and gives an assessment of which models are suitable in principle for the assessment of linking. Five models were selected for a more detailed description: E3ME, GEM-E3, PACE, POLES, and TIMES-MARKAL.
In der Dissertation wird eine Methodik entwickelt, welche die Berechnung des Redispatcheinsatzes im deutschen Übertragungsnetz ermöglicht. Dabei wird die Auswirkungen einer Integration der Flexibilität aus dezentralen Anlagen in das elektrische Energiesystem dargestellt. Durch die Integration von dezentralen Flexibilitäten können geringere Brennstoff- und CO2-Zertifikatskosten bei relativ konstanten CO2-Emissionen erreicht werden. Bei einem Redispatcheinsatz, welcher die Leistungserhöhung aus konventionellen thermischen Kraftwerken weitgehend vermeidet, kann bei der Berücksichtigung dezentraler Flexibilitäten bis zu 99 Prozent der benötigten Redispatcherhöhung aus konventionellen Kraftwerken mit Hilfe dezentraler Alternativen ersetzt werden. Diese Übernahme der Redispatchaufgaben durch dezentrale Anlagen ist allerdings mit einer signifikanten Erhöhung der Redispatchkosten verbunden.
The "fuzzy front end" of innovation is argued to be crucial for the success and sustainability impact of a final product. Indeed, it is a promising area of focus in efforts to achieve the United Nations' 2015 Sustainable Development Goals (SDGs), which provide a globally accepted framework for sustainability. However, the usability of the 17 goals and the large number of sub-goals represent barriers to innovation practitioners. Moreover, this early innovation stage proves to be a challenge for corporate practitioners and innovators, largely due to the concept's intangible, qualitative nature and the lack of data. To help overcome these barriers, this article proposes a four-stage approach for structuring the innovation process using an online tool called the "SDG-Check", which help assess an innovator's sustainability orientation in the early phases of product and service development. It is a semi-quantitative tool to gather and combine assessments by experts involved in innovation processes with implications for the United Nations' SDGs. Furthermore, this article presents our first experiences in applying the SDG-Check based on three living lab innovation cases. The results indicate that the tools can support and inspire a dialogue with internal and external stakeholders with regards to sustainability considerations in the early design stages of product and service development.
Der Beitrag von synthetischen Kraftstoffen zur Verkehrswende : Optionen und Prioritäten ; Kurzstudie
(2019)
Diese Kurzstudie geht auf den möglichen Beitrag von synthetischen Kraftstoffen zur Verkehrswende ein. Sie stellt die Einsatzmöglichkeiten dar, zeigt alternative Minderungsoptionen auf, und vergleicht sie mit den Einsatzmöglichkeiten von synthetischen Kraftstoffen.
Zudem gibt der Bericht einen Überblick über volkswirtschaftliche Effekte, auf deren Basis abschließend Schlussfolgerungen für den Beitrag synthetischer Kraftstoffe zur Verkehrswende abgeleitet und diese in Handlungsleitlinien (Prioritäten) übersetzt werden.