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The transformation of energy systems is influencing economic policy agendas all over the world, particularly in industrialized countries. In this process, Germany has taken a pioneering role, and hence the technical innovations, legal frameworks, and business models established there are also of interest for other countries trying to achieve broader use of renewable energies. Energy cooperatives have been an important building block in the energy transition in Germany, although their practical importance is neither quantitatively nor qualitatively reflected in the academic literature. Drawing on recently collected data, this paper presents an overview of German energy cooperatives in terms of organization, financing, and membership. We then review literature from economics and the social sciences that has been used to analyze cooperatives on various levels in other fields. We discuss how these theories could be applied to create a better understanding of energy cooperatives, and we derive a preliminary research agenda for their analysis. We also assess the scope for interdisciplinary work among economists, sociologists, and other disciplines.
The industry sector accounted for just over 30% of global GHG emissions in 2010 and scenarios envisage a continuing rise in demand for energy-intensive materials. This article sums up the most recent international analysis (IPCC, IEA, UNIDO, Global Energy Assessment) to give a broad view of the current prospects for reducing GHG emissions in industry. It does so from a global perspective, complementing where necessary where regional and sector-specific case studies. The article addresses the portfolio of options available, their technical and economic potentials, the experience in the use of policy instruments in industry, the synergies and tradeoffs that mitigation in the industry sector can have with other policy objectives, and the specific concerns of developing countries. Long-term decarbonisation pathways for the sector are also presented.
Urban GHG emissions and resource flows : methods for understanding the complex functioning of cities
(2015)
This paper sums up the recent developments in concepts and methods being used to measure the impacts of cities on environmental sustainability. It differentiates between a dominant trend in research literature that concentrates on the accounting and allocation of greenhouse gas (GHG) emissions and energy use to cities, and a re-emergence of studies focusing on the direct and indirect urban material and resource flows. The availability of reliable data and standard protocols is greater in the GHG accounting field and continues to grow rapidly.
For a long time, water shortages and flooding have been challenges in many parts of China. Meanwhile, the Chinese government announced the change of water management from engineering-oriented approach towards integrated approach in the last decades. However, the announced changes in management approach does not necessarily lead to the wide implementation of institutions, infrastructures and practice. They can be confronted by a strong resistance from the existing management approach. In fact, the development of water resources management is a complex process. Such a complexity raise the following questions: did fundamental changes really take place in the structure of water supply and demand management and flood management in China? If yes, how? In order to answer this question, the author (1) developed conceptual frameworks to enable a detailed and precise analysis of regime development; (2)applied the elaborated conceptual frameworks to explore the development of the water resources management regime in China, at the example of three case studies. These three case studies were: - Flood Management (IFM) took place in the Dongting Lake Area in the middle Yangtze River, - Water allocation in the Yellow River Basin, - The experimentation period of Water Saving Society in China. With the support of the developed framework, the case studies show that fundamental changes, i.e. transitions, have taken place in flood management regime and water supply-demand regime in China, but transitions have not yet completed, due to, namely, the lack of reconfiguration of other regime components and other relevant regimes. In addition, the case studies also depict how the start of transitions were triggered and how informal learning processes influenced regime development. The thesis contributed to sustainability transitions research by developing an operational approach to analyze transitions of water resource management regime and by expanding the empirical basis for transitions research to natural resources management regime in emerging economies.
Measuring progress towards sustainable development requires appropriate frameworks and databases. The System of Environmental-Economic Accounts (SEEA) is undergoing continuous refinement with these objectives in mind. In SEEA, there is a need for databases to encompass the global dimension of societal metabolism. In this paper, we focus on the latest effort to construct a global multi-regional input-output database (EXIOBASE) with a focus on environmentally relevant activities. The database and its broader analytical framework allows for the as yet most detailed insight into the production-related impacts and "footprints" of our consumption. We explore the methods used to arrive at the database, and some key relationships extracted from the database.
Suffizienz
(2015)
The transition towards a circular economy is high on the political agenda and support for innovative business models can be seen as one of the key strategies for its implementation. Nevertheless most of these business models rely on an increasing generation of waste and thus undermine the prevention of waste as top of the waste hierarchy. The paper aims to link this debate to more systemic eco-innovations that offer economic market potentials by reduced material inputs and waste generation. This directs the attention to sufficiency strategies that surpass the level of individual consumer choices and regards the potentials of entrepreneurial sufficiency strategies. It takes the example of waste contracting modelsin Germany as a possible approach of resource-light business models that provide existing utility aspects with altered consumption patterns and decreased resource consumption. It describes environmental and economic benefits and draws conclusions on necessary policy framework conditions.
Einsparpotenziale beim Kunststoffeinsatz durch Industrie, Handel und Haushalte in Deutschland
(2015)
Die Produktion von Kunststoffen ist eine Geschichte extremen Wachstums: waren es global 1950 noch 1,7 Millionen, sind es 2012 weltweit 288 Millionen Tonnen (Mt). 57 Mt davon werden in der EU erzeugt mit einem gleichzeitigen Abfallvolumen von 25 Mt. Einher gehen hohe Verbräuche fossiler Rohstoffe mit entsprechenden Umweltbelastungen und massiven Schäden, die durch Plastikmüll verursacht werden. Das Wuppertal Institut hat im Auftrag des Naturschutzbunds Deutschland (NABU) untersucht, wie sich dieser Wachstumstrend in Deutschland ohne Gegensteuerung fortsetzen wird und mit welchen Strategien die Plastikflut eingedämmt werden kann. Die Autoren der Studie errechneten einen Steigerung um 28 Prozent bis zum Jahr 2030, insbesondere in den Bereichen Verpackungen und Bau. Für die künftig wichtigsten Anwendungsbereiche wurden in der Studie jeweils drei konkrete Ansätze zur Verringerung des Kunststoffeinsatzes aus den Bereichen Industrie, Handel und Haushalte ausgewählt. Diese neun Optionen wurden an Fallbeispielen auf ihre Vor- und Nachteile und die grundsätzliche technische, rechtliche und ökonomische Machbarkeit hin diskutiert. Umsetzungsansätze liefert die Studie für den politischen Raum, für Unternehmen und den privaten Konsum.
Im vorliegenden Beitrag soll die Rolle suffizienter Geschäftsmodelle in der Abfallwirtschaft aufgezeigt und anhand konkreter Fallbeispiele diskutiert werden. Daraus lassen sich Schlussfolgerungen zur Rolle technischer Pfadabhängigkeiten, zur Messbarkeit von Suffizienz und zur Integration von Suffizienzaspekten in der Infrastrukturplanung ziehen, die über abfallwirtschaftliche Geschäftsmodelle hinausgehen.
A lack of proper treatment infrastructure and sufficient capacity for municipal solid waste (MSW) treatment is a crucial barrier for the environmentally sound management of waste. However, overcapacities, especially for waste incineration, also have to be taken into account regarding their potential impacts on recycling markets and waste treatment prices. This paper provides a comprehensive overview of existing MSW incineration plants and their capacities within Europe. In combination with the analysis of imports and exports of MSW for incineration, it provides an indication of over- and undercapacities for incineration plants. Among other things, the results show that in six of the 32 countries analysed in this study, capacities exceed more than 50% of the annual waste generation, while in two countries the total amount of waste generated annually is not enough to fill all the incineration plants.
Dauerplastik
(2015)
A global collaborative accounting network to calculate the resource use of products and services
(2015)
Raus aus der Wabe
(2015)
Das Auslaufen einiger Tausend der rund 20.000 Strom- und Gas-Konzessionsverträge hat in Deutschland zu einer Rekommunalisierungswelle geführt. Von 2005 bis heute gab es über 120 Stadtwerke-Neugründungen und 200 Stromnetzübernahmen. Das Wuppertal Institut hat die Gründe dafür und die damit verbundenen Chancen für die Gemeinden untersucht und die Ergebnisse in einer Sondierungsstudie veröffentlicht.
Vielerorts stellte sich heraus, dass die Altkonzessionäre das örtliche Verteilnetzgeschäft nur suboptimal ausführten. Außerdem haben im Zuge der Energiewende zahlreiche Kommunen erkannt, dass sich mit der Übernahme der örtlichen Strom- und/oder Gasverteilnetze die Gestaltungsspielräume in der Energieversorgung deutlich verbessern lassen.
Die Autoren beschreiben in diesem Artikel fünf Empfehlungen im Hinblick auf Rekommunalisierungen für Städte und Gemeinden.
After a wave of privatizations in the end of the 1990s, the electrical power supply of many municipalities in Germany has been returned into public hands. Many municipalities discover chances and possibilities for local action, which arise with remunicipalisation. The local policy-makers realize that remunicipalisation offers the opportunity of implementing an independent energy policy at local level which is critical in creating a transformation to a sustainable energy system based on energy efficiency and renewable energies. The municipal ownership allows a strong governance towards more political influence in the local energy market. In addition, there is a clear opinion of the population: 81 % of citizens surveyed say they trust their local municipal utility, compared to only 26 % who say they trust corporations (VKU-Survey, 2010). In summary, there are many good reasons for local politicians to establish their own municipal utilities. The payback for municipalities is tangible when the local utility focuses on reliably providing affordable energy rather than on increasing its returns. The new municipal power utilities stimulate competition and contribute to the renewal / restructuring of the traditional energy market.
The founding of 72 municipal utilities since 2005 leads us to ask for the reasons. The study reviews the German trend towards municipal ownership of local utilities, assessing their performance based on 10 targets related to the energy transition, climate protection, and the local economic impact: 1. Achieving environmental objectives and organization of the local "Energiewende". 2. Higher local added value. 3. Harnessing tax regulations for improving municipal services. 4. Improving the income situation of the city. 5. Democratization of supply and stronger orientation towards the common good (public value). 6. Creating and protecting good jobs. 7. Acting in social responsibility in energy supply. 8. Expansion of eco-efficient energy services. 9. Harnessing customer relations and public image. 10. Materialising synergies with other sectors.
Based on expert opinions, the study finds out that the likelihood of these targets being reached is "high to very high". The aim of this article is to provide a compact and basic understanding of the possible reasons for the phenomenon of remunicipalisation.
Prospects of carbon capture and storage (CCS) in China's power sector : an integrated assessment
(2015)
Objective: The aim of the present article is to conduct an integrated assessment in order to explore whether CCS could be a viable technological option for significantly reducing future CO2 emissions in China. Methods: In this paper, an integrated approach covering five assessment dimensions is chosen. Each dimension is investigated using specific methods (graphical abstract). Results: The most crucial precondition that must be met is a reliable storage capacity assessment based on site-specific geological data. Our projection of different trends of coal-based power plant capacities up to 2050 ranges between 34 and 221 Gt of CO2 that may be captured from coal-fired power plants to be built by 2050. If very optimistic assumptions about the country’s CO2 storage potential are applied, 192 Gt of CO2 could theoretically be stored as a result of matching these sources with suitable sinks. If a cautious approach is taken, this figure falls to 29 Gt of CO2. In practice, this potential will decrease further with the impact of technical, legal, economic and social acceptance factors. Further constraints may be the delayed commercial availability of CCS in China; a significant barrier to achieving the economic viability of CCS due to a currently non-existing nation-wide CO2 pricing scheme that generates a sufficiently strong price signal; an expected life-cycle reduction rate of the power plant's greenhouse gas emissions of 59-60%; and an increase in most other negative environmental and social impacts. Conclusion and practice implications: Most experts expect a striking dominance of coal-fired power generation in the country's electricity sector, even if the recent trend towards a flattened deployment of coal capacity and reduced annual growth rates of coal-fired generation proves to be true in the future. In order to reduce fossil fuel-related CO2 emissions to a level that would be consistent with the long-term climate protection target of the international community to which China is increasingly committing itself, this option may require the introduction of CCS. However, a precondition for opting for CCS would be finding robust solutions to the constraints highlighted in this article. Furthermore, a comparison with other low-carbon technology options may be useful in drawing completely valid conclusions on the economic, ecological and social viability of CCS in a low-carbon policy environment. The assessment dimensions should be integrated into macro-economic optimisation models by combining qualitative with quantitative modelling, and the flexible operation of CCS power plants should be analysed in view of a possible role of CCS for balancing fluctuating renewable energies.
This article presents an integrated assessment conducted in order to explore whether carbon capture and storage (CCS) could be a viable technological option for significantly reducing future CO2 emissions in South Africa. The methodological approach covers a commercial availability analysis, an analysis of the long-term usable CO2 storage potential (based on storage capacity assessment, energy scenario analysis and source-sink matching), an economic and ecological assessment and a stakeholder analysis. The findings show, that a reliable storage capacity assessment is needed, since only rough figures concerning the effective capacity currently exist. Further constraints on the fast deployment of CCS may be the delayed commercial availability of CCS, significant barriers to increasing the economic viability of CCS, an expected net maximum reduction rate of the power plant's greenhouse gas emissions of 67%-72%, an increase in other environmental and social impacts, and low public awareness of CCS. One precondition for opting for CCS would be to find robust solutions to these constraints, taking into account that CCS could potentially conflict with other important policy objectives, such as affordable electricity rates to give the whole population access to electricity.
The German government has set itself the target of reducing the country's GHG emissions by between 80 and 95% by 2050 compared to 1990 levels. Alongside energy efficiency, renewable energy sources are set to play the main role in this transition. However, the large-scale deployment of renewable energies is expected to cause increased demand for critical mineral resources. The aim of this article is therefore to determine whether the transformation of the German energy system by 2050 ("Energiewende") may possibly be restricted by a lack of critical minerals, focusing primarily on the power sector (generating, transporting and storing electricity from renewable sources). For the relevant technologies, we create roadmaps describing a number of conceivable quantitative market developments in Germany. Estimating the current and future specific material demand of the options selected and projecting them along a range of long-term energy scenarios allows us to assess potential medium- or long-term mineral resource restrictions. The main conclusion we draw is that the shift towards an energy system based on renewable sources that is currently being pursued is principally compatible with the geological availability and supply of mineral resources. In fact, we identified certain sub-technologies as being critical with regard to potential supply risks, owing to dependencies on a small number of supplier countries and competing uses. These sub-technologies are certain wind power plants requiring neodymium and dysprosium, thin-film CIGS photovoltaic cells using indium and selenium, and large-scale redox flow batteries using vanadium. However, non-critical alternatives to these technologies do indeed exist. The likelihood of supplies being restricted can be decreased further by cooperating even more closely with companies in the supplier countries and their governments, and by establishing greater resource efficiency and recyclability as key elements of technology development.
Consumption-based CO2 emissions, which are commonly calculated by means of environmentally extended input-output analysis, are gaining wider recognition as a way to complement territorial emission inventories. Although their use has increased significantly in the last years, insufficient attention has been paid to the methodological soundness of the underlying environmental extension. This should follow the internationally agreed accounting rules of the System of Environmental-Economic Accounting, which addresses the activities undertaken by the residents of a country, independent from where these take place. Nonetheless, some footprint calculations use extensions that account for all the activities within the territory, which leads to methodological inconsistencies. Thus, this article introduces the most relevant conceptual differences between these accounting frameworks and shows the magnitude of the gap between them building on the data generated for the EXIOBASE model. It concludes that the differences are high for many countries and their magnitude is increasing over time.
Energy sufficiency policy : an evolution of energy efficiency policy or radically new approaches?
(2015)
In the last four decades, energy efficiency increased significantly in OECD countries. However, only during the most recent years, total energy consumption started to decrease a little, and much more slowly than energy efficiency potentials would suggest. Energy sufficiency has therefore gained new attention as a way to limit and reduce total energy consumption of a household or a country overall.
The project "Energiesuffizienz" funded by the German ministry for research has examined what energy sufficiency actually is, and what householders, household members but also manufacturers and local authorities could do to make electricity use in the home more sufficient. The focus of this paper is the policy part of the project - the first comprehensive analysis of an energy sufficiency policy.
The objective is to find out how policy can support market actors in using the energy sufficiency options identified. As for energy efficiency policy, it starts with the gathering of potential sufficiency actions and the analysis of the relevant barriers all market actors face, to derive recommendations for which policy instruments need to be combined to an effective policy package, and which other pre-conditions have to be met. Energy efficiency and energy sufficiency should not be seen as opposed to each other but work in the same direction - saving energy. Therefore, some instruments of the energy sufficiency policy package may be the same as for energy efficiency - such as energy taxation, and linear or progressive energy prices. Some may simply adapt technology-specific energy efficiency policy instruments. Examples are progressive appliance efficiency standards, standards based on absolute consumption, or providing energy advice. However, sufficiency may also require radical new approaches particularly to mitigate the drivers of non-sufficiency. 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. The paper presents these and other elements of an integrated energy sufficiency policy package resulting from this analysis.
Energy efficiency has multiple benefits. It usually is a win-win option for all aspects of sustainability - environment, social objectives, and economy. We need to evaluate and communicate these multiple benefits - to citizens, companies, and policy-makers. Due to strong market barriers, effective governance and policy packages for energy efficiency are needed. Evaluation shows effective policy can achieve around 2% per year of additional energy savings.