Refine
Year of Publication
- 2016 (117) (remove)
Document Type
- Peer-Reviewed Article (43)
- Report (21)
- Working Paper (15)
- Part of a Book (12)
- Conference Object (11)
- Contribution to Periodical (10)
- Doctoral Thesis (3)
- Book (1)
- Master Thesis (1)
Language
- English (117) (remove)
Vernacular architecture's use of passive building techniques has been developed in response to the prevailing climatic conditions of the past. Today, buildings are designed with complete indifference to the climate and materials. Energy consumption in buildings is mainly connected to space cooling, supply of hot water, lighting, cooking and, use of appliances. Space cooling and lighting are directly influenced by the design of the building. Energy codes should be concerned with "sufficiency" as well as "efficiency". A more economic and ecological approach to building design is needed.
Renewable energy plays a key role in the sustainable pathway towards a low carbon future and, despite new supply capacities, the transformation of the energy system also requires the adoption of a method which allows for the integration of increasing amounts of renewable energy. This requires a transition to more flexible processes at an industrial level and demand side management (DSM) is one possible way of achieving this transition. Currently, increased shares of variable renewable energy can cause the electricity supply to become more volatile and result in changes to the electricity market. In order to develop a new dynamic equilibrium to balance supply and demand, sufficient flexibility in demand is required. As adequate storage systems are not available in the short to medium term, the potential for large electricity consumers to operate flexibly is an attractive, pragmatic and feasible option. Recent studies in Germany suggest that there is significant potential for DSM in so-called "energy-intensive industries". However, the figures (which fall in the approximate range of 1,250-2,750 MW positive and 400-1,300 MW negative shiftable load) should be interpreted with caution. The range of industrial processes considered are diverse and vary from plant to plant, with the result that it is difficult to provide accurate calculations of the accumulated potential for Germany or the EU as a whole. Based on extensive surveys and panel discussions with representatives from energy-intensive industries (aluminum, cement, chemicals, iron & steel, pulp & paper), which together account for approximately one third of the industrial electricity demand in Germany, our paper provides an overview of both the opportunities and the barriers faced by DSM. One of the key findings is the possible loss in energy efficiency due to DSM: in order to decrease or increase production depending on the stability needs of the electricity system, plants and processes may no longer operate at their optimum levels. The effects on downstream production must also be taken into account in order to gain a more complete understanding of the overall effects of industrial DSM.
Heat integration and industrial symbiosis have been identified as key strategies to foster energy efficient and low carbon manufacturing industries (see e.g. contribution of Working Group III in IPCC's 5th assessment report). As energy efficiency potentials through horizontal and vertical integration are highly specific by site and technology they are often not explicitly reflected in national energy strategies and GHG emission scenarios. One of the reasons is that the energy models used to formulate such macro-level scenarios lack either the necessary high technical or the spatial micro-level resolution or both. Due to this lack of adequate tools the assumed huge existing potentials for energy efficiency in the energy intensive industry cannot be appropriately appreciated by national or EU level policies. Due to this background our paper describes a recent approach for a combined micro-macro energy model for selected manufacturing industries. It combines national level technical scenario modelling with a micro-modelling approach analogous to total site analysis (TSA), a methodology used by companies to analyse energy integration potentials on the level of production sites. Current spatial structures are reproduced with capacity, technical and energy efficiency data on the level of single facilities (e.g. blast furnaces) using ETS data and other sources. Based on this, both, the investments in specific technologies and in production sites are modelled and the evolvement of future structures of (interconnected) industry sites are explored in scenarios under different conditions and with different objectives (microeconomic vs. energy efficiency optimization). We further present a preliminary scenario that explores the relevance of these potentials and developments for the German steel industry.
Energy intensive industries are one of the fields in which strong increases of energy efficiency and deep decarbonisation strategies are particularly challenging. Although European energy intensive industries have already achieved significant energy and greenhouse gas reductions in the past, much remains to be done to make a significant contribution to achieving European as well as national climate mitigation targets of greenhouse gas emission reductions by -80% or more (compared to the baseline of 1990). North Rhine-Westphalia (NRW) is a European hotspot for coping with this challenge, accommodating more than 10% of the energy intensive industries of the EU28. It is also the first German state to have adopted its own Climate Law, enacting state-wide CO2 emission reductions by 80% until 2050 compared to 1990. The state government initiated the project "Platform Climate Protection and Industry North-Rhine Westphalia" to identify and develop the necessary far-reaching low carbon innovation strategies for energy intensive industries. Heart of the project was a dialogue process, which involved a broad spectrum of stakeholders from steel, chemical, aluminium, cement, glass and paper producing industries. Besides enhancing and broadening the knowledge on high efficiency and low-carbon technologies within industries, the aim was to explore possible pathways and preconditions for the application of these technologies in energy intensive industries as well as to strengthen the motivation of companies for initiatives and investments in technologies with lower CO2 emissions. The results of the dialogue shall provide a basis for a possible low-carbon industry roadmap NRW and may also serve as an example for other industrialized regions in the EU and globally. The paper sketches the structured dialogue process with the stakeholders from companies as well as industrial associations and presents the learnings regarding the engagement of energy intensive industries into ambitious climate policies on a regional level. These include existing limitations as well as chances in the respective sectors on the state level, regarding their economic and technical structures as well as their innovation systems. The findings are based on more than a dozen stakeholder workshops with industry companies and more than 150 individual representatives of NRW's energy intensive industries as well as on background research in the initial phase of the project.
Understanding the diversifying role of civil society in Europe's sustainability pathway is a valid proposition both scientifically and socially. Civil society organisations already play a significant role in the reality of cities, what remains to be explored is the question: what is the role of civil society in the future sustainability of European cities? We first examine the novelty of new forms of civil society organization based on a thorough review of recent case studies of civil society initiatives for sustainable transitions across a diversity of European projects and an extensive literature review. We conceptualize a series of roles that civil society plays and the tensions they entail. We argue that, civil society initiatives can pioneer new social relations and practices therefore be an integral part of urban transformations and can fill the void left by a retreating welfare state, thereby safeguarding and servicing social needs but also backing up such a rolling back of the welfare state. It can act as a hidden innovator - contributing to sustainability but remaining disconnected from the wider society. Assuming each of these roles can have unintended effects, such as being proliferated by political agendas, which endanger its role and social mission, and can be peeled off to serve political agendas resulting in its disempowerment and over-exposure. We conclude with a series of implications for future research on the roles of civil society in urban sustainability transitions.
Measures to address climate change can result in human rights violations when the rights of affected populations are not taken into consideration. Climate change projects in so-called "developing" countries are often financed and/or also implemented by industrialised countries. The research project ClimAccount Human Rights Accountability of the EU and Austria for Climate Policies in Third Countries and their possible Effects on Migration focused on the accountability of the EU and its Member States with regard to negative impacts of climate change measures they are involved in on human rights in third countries - especially those associated with "migration effects". Based on three case studies - projects registered under the Kyoto Protocol's Clean Development Mechanism - the human rights dimension of climate change action was discussed, areas of human rights concerns that were discernible in all three case study projects were identified, the issue of extraterritorial human rights obligations was analysed and the subject of access to justice was scrutinized.
This thesis investigates the relationship between public and private sector efforts to optimise energy efficiency finance initiatives in an emerging country context, using Thailand as a case study. Demand-side energy efficiency measures could significantly reduce pressures on energy systems in emerging economies in Southeast Asia while at the same time reducing greenhouse gas emissions. Rapidly increasing energy needs, combined with dependence on fossil fuel imports have put energy systems in the region under pressure. Due to high urbanisation growth rates, and comparatively inefficient industries, demand-side energy efficiency measures could be part of the solution. The lack of external energy efficiency finance for industry and building owners is a major barrier, but reports and country examples contain mixed messages about how to best overcome this challenge. The dominant discourse around energy efficiency finance originates from international organisations who advocate for the public sector to focus all efforts on maximising private sector investments. However, developed country experience and some emerging country examples, suggest that the problem is more complex. Therefore, this thesis focuses on how to optimise energy efficiency finance. Thailand serves as a case study due to the range of energy efficiency initiatives designed and implemented in that country since the early 1990s. Transition studies and Multi-Level Perspective, were chosen as the theoretical framework and heuristic tool for the analysis. Qualitative data in the form of interviews with forty-eight experts from government, the private sector and academia form the core of this research. The research found that in Thailand, after more than 10 years of public sector support for energy efficiency finance initiatives, success in the private sector has been limited. Challenges identified include: (1) a lack of de-risking measures (2) renewable energy projects receiving most funding; (3) lack of guidance from the Central Bank of Thailand and (4) missing cross-coordination with relevant ministries to create additional demand for energy efficiency finance services. Suggestions for next steps are provided. The main finding from this research is that EEF in an emerging country context will never be transitioned 100% to the private sector, but will be reliant on long-term consistent support from the public sector. Policy makers and international organisations must therefore carefully evaluate the existing framework conditions before choosing which energy efficiency finance initiatives to support. The Multi-Level Perspective analytical framework could provide such an analytical tool to further unleash the energy efficiency potential in Southeast Asia.
On behalf of the Port of Rotterdam Authority, the Wuppertal Institute developed three possible pathways for a decarbonised port of Rotterdam until 2050. The port area is home to about 80 per cent of the Netherlands' petrochemical industry and significant power plant capacities. Consequently, the port of Rotterdam has the potential of being an international leader for the global energy transition, playing an important role when it comes to reducing CO2 emissions in order to deliver on the EU's long-term climate goals.
The three decarbonisation scenarios all built on the increasing use of renewables (wind and solar power) and the adoption of the best available technologies (efficiency). The analysis focuses on power plants, refineries and the chemical industry, which together are responsible for more than 90 per cent of the port area's current CO2 emissions.
The decarbonisation scenarios describe how CO2 emissions could be reduced by 75 to 98 per cent in 2050 (compared to 2015). Depending on the scenario, different mitigation strategies are relied upon, including electrification, closure of carbon cycles or carbon capture and storage (CCS). The study includes recommendations for local companies, the Port Authority as well as policy makers. In addition, the study includes a reference scenario, which makes it clear that a "business as usual" mentality will fall well short of contributing adequately to the EU's long-term climate goals.
The core objective of Energy Efficiency Watch 3 (EEW3) is to establish a constant feedback loop on the implementation of European and national energy efficiency policies and thus enable both compliance monitoring and mutual learning on effective policy making across the EU. The project team applied a mixed-method approach to assess energy efficiency policy developments in EU Member States. EEW3 analysed the progress made in the implementation of energy efficiency policies in European Member States since the publication of the second National Energy Efficiency Action Plans (NEEAPs) in 2011 by screening official documents, sought experts' knowledge via an EU-wide survey and has been creating new consultation platforms with a wide spectrum of stakeholders including parliamentarians, regions, cities and business stakeholders. Results are presented in Country Reports for each of the 28 Member States, the Expert Survey Report, 10 Case Studies presenting outstanding energy efficiency policies in Europe, the Key Policy Conclusions, the project summary report in brochure format and this Feedback Loop Report, which summarises the overall EEW3 portfolio.
The amount of land directly disturbed by mining is a key generic environmental pressure indicator. A novel method based on the measurement of the cumulative net area disturbances using Landsat satellite images and its correlation with the cumulative ore production at the mine site was applied. Weighted disturbance rates (WDRs) were calculated indicating the annual quantity of hectares newly disturbed per million metric tons of ore extracted. Results show that open pit (OP) have a smaller average WDR (5.05 ha/Mt) than underground (UG) mines (11.85 ha/Mt). This is explained by the relation between the annual amounts of new net area disturbed and of ore extracted which is larger for UG than for OP mines due to the annual extraction volume (lower for UG). Overall findings demonstrate that bauxite mining has the highest WDR (7.98 ha/Mt), followed by gold (6.70 ha/Mt), silver (5.53 ha/Mt), copper (4.5 ha/Mt) and iron (4.25 ha/Mt).
This Policy Brief outlines the "identity crisis" in which voluntary carbon standards find themselves after the adoption of the Paris Agreement. It describes how the new international legal framework threatens to undermine the legitimation and credibility of voluntary carbon standards and discusses first ideas how the arising challenges could be dealt with.
Rather than examining aggregate emissions trends, this study delves deep into the dynamics affecting each sector of the EU energy system. It examines the structural changes taking place in power production, transport, buildings and industry, and benchmarks these with the changes required to reach the 2030 and 2050 targets. In so doing it aims to influence both the ambition and direction of future policy decisions, both at Member State and EU level.
In order to assess the adequacy of the EU and its Member States policies with the 2030 and 2050 decarbonisation objectives, this study goes beyond the aggregate GHG emissions or energy use figures and analyse the underlying drivers of emission changes, following a sectoral approach (power generation, buildings, industry, and transport). Historical trends of emission drivers are compared with the required long-term deep decarbonisation pathways, which provide sectoral "benchmarks" or "corridors" against which to analyse the rate and direction of historical change for each Member State and the EU in aggregate. This approach allows the identification of the necessary structural changes in the energy system and policy interventions to reach deep decarbonisation, and therefore the comparison with the current policy programs at European and Member State level.
A fundamental problem has been the lack of widely-accepted methods for analysing the impact of walking and cycling on transport network performance. By trying to put walking and cycling on an equal footing with motorised transport, the FLOW multimodal urban road transport network performance analysis methodology (the FLOW methodology) aims to contribute to a more informed debate on the role of walking and cycling on transport network performance.
The Portfolio of Measures describes the actual effects of different types of measures on congestion by presenting case studies and drawing conclusions out of them.
The portfolio presents information on the potential of walking and cycling measures to relieve urban congestion. Cities are actively seeking information and implementation experience from other cities. However, information available on websites, portals and good-practice guides is of mixed quality. In providing more information on the impact of walking and cycling measures, this portfolio aims at contributing to political agenda setting and measure selection.
The first part of the portfolio provides some general findings about the role of walking and cycling measures in relieving congestion, based on literature review and an expert survey carried out within the FLOW project. It is then followed by 20 cases in which walking measures, cycling measures or combinations of measures have been successfully implemented in Europe and abroad. The case studies have been clustered in five big groups according to their topics: Cycling infrastructure (moving traffic); Walking and Cycling Infrastructure (moving traffic); Cycling infrastructure (parking and bike sharing); Traffic management strategies; Mobility management and Measures for more than one mode. The final chapter summarises the effects of the 20 cases and elaborates some general lessons learned. On general finding is - the measures described have helped reduce congestion or at least have increased walking and/or cycling levels without increasing congestion.
On 8 November 2016, Donald Trump was elected to become the 45th President of the United States of America. In his campaign, he repeatedly expressed his intention to "cancel the Paris Agreement". How can the course set with the adoption of the Paris Agreement be continued independently of the developments in the US? The authors sketch possible consequences of the sea change of US climate policy for the international negotiation process and identify options for a "Trump-resilient" way forward.
Real-world laboratories are growing in popularity promising a contribution to both: the understanding and facilitation of societal transformation towards sustainability. Baden-Württemberg substantially funds real-world labs as part of the initiative "science for sustainability". To facilitate learning with and from these so-called BaWü-Labs, they are supported by accompanying research conducted by two teams. This article presents first insights and theses on real-world labs as a research format, based in particular on the work of the accompanying research team ForReal. The team supports the labs in their realization and in providing general insights, e.g. by learning from related international research approaches and dialog with international experts, and analyzes suitable quality features and methods (the latter together with the University of Basel team). The theses presented here put up for discussion first insights on real-world labs as a transformative research approach and reflect on them from a theoretical perspective. They illustrate the relevance of a goal-oriented use of methods and present learning processes as core characteristics of real-world labs. The theses were formulated based on discussions with the BaWü-Labs, exchange in international contexts as well as a thematic literature review.
Carbon markets in a <2 °C world : will there be room for international carbon trading in 2050?
(2016)
This JIKO Policy Paper analyses a series of very ambitious mitigation scenarios and complements this analysis with a review of several sectoral technology roadmaps. The results are quite clear: there is no reason to believe that international carbon trading will become obsolete any time soon. Whether or not international carbon trading is to play a role in international climate protection efforts is in the end not a physical or economic question, but a political one.
Article 6 of the Paris Agreement established three approaches for countries to cooperate with each other: cooperative approaches, a new mechanism to promote mitigation and sustainable development ("sustainable development mechanism"), and a framework for non-market approaches. However, while the "sustainable development mechanism" seems familiar as its principles strongly resemble the Kyoto Protocol's Clean Development Mechanism (CDM), the other two approaches have so far not been clearly defined conceptually. This JIKO Policy Paper summarizes the views by Parties and observes that were submitted at the end of September and reveals some sharp differences in opinions on how Art. 6 should work.
The European Horizon 2020-project COMBI ("Calculating and Operationalising the Multiple Benefits of Energy Efficiency in Europe") aims at estimating the energy and non-energy impacts that a realisation of the EU energy efficiency potential would have in the year 2030. The project goal is to cover the most important technical potentials identified for the EU27 by 2030 and to come up with consistent estimates for the most relevant impacts: air pollution (and its effects on human health, eco-systems/crops, buildings), social welfare (including disposable income, comfort, health and productivity), biotic and abiotic resources, the energy system and energy security and the macro economy (employment, economic growth and the public budget). This paper describes the overall project research design, envisaged methodologies, the most critical methodological challenges with such an ex-ante evaluation and with aggregating the multiple impacts. The project collects data for a set of 30 energy efficiency improvement actions grouped by energy services covering all sectors and EU countries. Based on this, multiple impacts will be quantified with separate methodological approaches, following methods used in the respective literature and developing them where necessary. The paper outlines the approaches taken by COMBI: socio-economic modelling for air pollution and social welfare, resource modelling for biotic/abiotic and economically unused resources, General Equilibrium modelling for long-run macroeconomic effects and other models for short-run effects, and the LEAP model for energy system modelling. Finally, impacts will be aggregated, where possible in monetary terms. Specific challenges of this step include double-counting issues, metrics, within and cross-country/regional variability of effects and context-specificity.
The increasing rate of renewable energies poses new challenges for industries: the amount of wind and solar energy is by far more subject to fluctuations than that of fossil based energy. Large production facilities from the aluminium, cement, steel or paper industry, however, depend on a highly secure energy supply. To which amount is a limitation of fluctuations possible? This was the key question of the project "Flexibilisation of Industries Enables Sustainable Energy systems", which was realised by the Wuppertal Institute in cooperation with the polymers company Covestro last year. In the final report, authors around project co-ordinator Karin Arnold not only show which technological and economic parameters have been considered, but also present possible business models to promote "flexibility products".
This article reviews the literature on the past cost dynamics of various renewable, fossil fuel and nuclear electricity generation technologies. It identifies 10 different factors which have played key roles in influencing past cost developments according to the literature. These 10 factors are: deployment-induced learning, research, development and demonstration (RD&D)-induced learning, knowledge spillovers from other technologies, upsizing, economies of manufacturing scale, economies of project scale, changes in material and labour costs, changes in fuel costs, regulatory changes, and limits to the availability of suitable sites. The article summarises the relevant literature findings for each of these 10 factors and provides an overview indicating which factors have impacted on which generation technologies. The article also discusses the insights gained from the review for a better understanding of possible future cost developments of electricity generation technologies. Finally, future research needs, which may support a better understanding of past and future cost developments, are identified.
In order to make our lifestyles sustainable, changing our consumption patterns is fundamental. Hence, we need to better understand who the "consumers" are and to consider them as an active actor to directly engage for ensuring effective policies. In order to support a resource-light society, production and consumption need to be considered through an integrated system view; within this, consumers play an important role as co-acting subjects. Almost every activity in private life involves a form of consumption aimed at satisfying the subject's needs and often regarded through an economic lens. Sustainable development is not about abolishing private consumption, but rather about making it environmentally, socially and individually sustainable in its design, organization and realization, also involving ideas of simplicity or renunciation. In this paper, we will assess the status quo of the German and European debates on Consumer Research Policies and discuss the idea to link sustainability research and consumer research - where a strategic relation is currently missing. Within that discussion, an evidence-based and obligatory consumer research strategy in Germany and Europe would represent a significant improvement. A system view perspective is necessary to take into consideration the impressive amount of diversity, and to elaborate realistic economic and consumer policies. Therefore, we propose nine steps for understanding the role of the consumer in implementing sustainable development from a scientific and political perspective. The limitations of this paper are thus a result of the very diverse and often unclear policies and agendas produced by governments. The implementation of the proposed innovative research agenda for a future-orientated and sustainability-based consumer research is not free from challenges. Still, the paper suggests the first steps towards this direction. After a critical discussion of the current EU and German consumer and sustainability policies, nine differentiated and substantial ways to integrate and ameliorate them are proposed.
This paper is the first of its kind, providing an identification of the problems encountered in all documented global experiences of cultivating the Jatropha curcas plant, covering 22 case studies. Influential components of the biodiesel production (stakeholders like government, farmers and enterprises as well as resources such as land and water) and how they are interconnected are pinpointed. In addition, the article gives recommendations to the main actors under ecological and socio-economic criteria to ensure a sustainable production of J. curcas oil in regions with appropriate climatic conditions for the plant's viability. Hence, this analysis of experiences discusses the following questions: What are the reasons and factors for the previous unsuccessful and unsustainable cultivation of J. curcas for producing biodiesel? Can it be lucrative and simultaneously achieve poverty alleviation/job creation under the constraints of efficient use of resources (land and water)?
This handbook was developed in the context of a joint project of the Wuppertal Institute and the Centre for Social Investment (CSI) called the System Innovation Lab. It combined sustainability transformation research insights with those of social innovation in order to design an on-the-job training and coaching that would enable participants to take a systemic approach to innovation and test what this means in their respective work settings. Focussing on the topic of sustainable energy futures in Europe it addressed young European leaders in government, the private sector and civil society working on energy issues and combined latest theoretical insights with novel innovation and leadership methods to spread the capacity and courage that transforming entire sectors requires.
This article explores recent developments in the field of remunicipalisation in the German electricity market. Actually, the established socio-technical regime of the electricity market generates considerable inertia and impedes fundamental change. But regarding the energy transition (German Energiewende) a fundamental change is needed; it is essential to promote a broader range of actors and institutions to overcome the existing regime resistance. Many local policy-makers and municipalities in Germany discover chances and possibilities for local action which arise from remunicipalisation. The establishment of municipal power utilities 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 renewable energies and energy efficiency. The municipal ownership allows a strong governance towards more political influence on the local energy market but the current court decisions regarding the takeover of electricity grids taken by the former concession holder of municipal utilities (Stadtwerke) in Germany make it difficult to realise the full potential of energy policy at a local level. The requirements for a legitimate process are still very high and far too complex to be fulfilled by the local authorities without the help of specialised legal advice.
Sustainability research builds upon its mutual relationship with the society to find futureoriented solutions to deal with societal challenges. In other words, it is a matter of research to produce societal impact. Furthermore, funders and researchers themselves increasingly desire for accountability, to show if societal impact is achieved. To deal with that, two adaptive questions have to be answered: How can societal impact be understood or defined? And what can be learned from theoretical and methodological approaches, as well as practical examples? Built on the answers through a comprehensive literature review and expert interviews, the third question is asked: How can the assessment of societal impact of sustainability-oriented Projects look in practice? The result is the development of a holistic framework on the project-level and its operationalization. It was tested on three cases of the Wuppertal Institute, which has the mission to be a pulse generator for a sustainable societal transformation. The results show that the tool is implementable and a start of an assessment series. Nevertheless, the lack of consensus about the theoretical background influences the design of practical applications. One significant development is the focus shift of the assessment towards the project process and its productive interactions. This enables to collect data about whether societal impact is produced, but also how. The results suggest that clear assessment boundaries are required to deal with uncontrollable externalities. Furthermore, a practical question of the thesis is, if the integration of directly involved stakeholders into the assessment provide an added value. This can be answered positively. But it should be also observed that financial and human resources are key challenges about the extent, as well as the processing of the results. The analysis indicates that to assess societal impact is a suitable instrument and a key step to deal with societal challenges. The developed holistic framework and its operationalization can be used to inspire future research.
A learning experience : integrating theory and practice for the implementation of INDCs ; thinkpiece
(2016)
A major cornerstone on the way to low-carbon sustainable development on a global scale will be a swift and effective implementation of all countries' INDCs submitted to the UNFCCC prior to Paris. However, doing so will require transforming development pathways away from currently pervasive carbon lock-ins. This can only be successful if countries take a systemic view on their development agendas, and link mitigation, adaptation and other developmental priorities together for a coherent overarching sustainable development strategy. The ownership for this process needs to be with the countries themselves as such strategies touch fundamentally upon national policy-making and implementation. At the same time, developing countries have access to bi- and multilateral financial and technical cooperation. To enable a systemic, country-led perspective, development cooperation needs to shift its paradigms away from currently prevalent project-level interventions.
A truly innovative and transformational shift with the objective of pursuing a low-carbon and climate resilient society needs to open up space for experimentation as new ways of doing things need to be put into practice. Experiments will not always be successful, but foster learning on a national as well as an international level on pitfalls and solutions in new approaches to low-carbon sustainable development. Not least, there needs to be a renewed focus on programmatic approaches that link various topical domains for a country-led process, and a critical look at development work that is "doomed to succeed".
Our article draws from systems theory, development studies and recent work on transitions studies and transformational change in the international domain. It links up different theoretical concepts with practical approaches in order to outline a future development agenda that will be owned by developing countries and supported non-invasively by bi- and multilateral development cooperation to foster low-carbon development pathways that are urgently needed to solve the climate crisis.
The Greens / European Free Alliance Group of the European Parliament contracted Wuppertal Institute in collaboration with Energiaklub to develop scientifically sound, comprehensive, alternative, and sustainable long term energy scenarios for Hungary, which cover potential development paths till 2030 and 2050. The scenarios developed deliver information about the costs and long-term effects of different energy choices for Hungary as well as credible information on potential benefits of greening the energy mix. As a result, the study aims to provide policy makers with better evidence for making informed, prudent and forward-thinking decisions in this field.
Washing laundry is one of the most widespread housework tasks in the world. Washing machines, performing this task already in many private households, are now responsible for about 2% of the global electricity consumption. Worldwide, more than 840 million domestic washing machines are in use, with an annual consumption exceeding 92 TWh of electricity and 19 billion m3 of water as well as causing emissions of more than 62 megatons CO2eq. In North America, Western Europe and Pacific OECD countries, most households own a washing machine. In these economies standard and label policy programs already addressed and reduced the specific electricity and water consumption of washing machines per wash cycle. Nevertheless, in other world regions, the level of ownership for washing machines is still well below saturation and high growth rates can be observed in developing and newly industrialising countries. As washing machines use water, electricity, chemical substances and process time as resources, also the absolute worldwide resource consumption and emissions of these appliances are still on the rise. Due to different washing habits and practices as well as types of washing machines in different world regions, the specific consumption of resources for doing the laundry is varying to a large extent. On that score, this paper presents an overview of the current situation worldwide as well as respective saving potentials. Bottom-up scenario calculations, carried out for the 11 world regions according to the Intergovernmental Panel on Climate Change classification, show that large energy, water and greenhouse gas savings are possible with the "Best Available Technologies" today, and even higher savings will be possible with next generation "Best Not yet Available Technologies". According to model results, these savings are usually also very cost-effective. Following these calculations, it is highly advisable for policymakers world-wide to pay even more attention to improvement options in order to implement ambitious and product-specific policy packages, including minimum performance standards and labelling schemes.
The great mindshift : how a new economic paradigm and sustainability transformations go hand in hand
(2016)
Sustainable development is the 21st Century's wicked problem. After 40 years into this agenda have reversed only few unsustainable trends we hear the call for a paradigm shift, transformation, radical change or system innovations in order to finally change course. But what does this actually mean? And how do we put it into practice? This book describes the path ahead. It combines system transformation research with political economy and change leadership insights when discussing the need for a great mindshift in how human wellbeing, economic prosperity and healthy ecosystems are understood if the Great Transformations ahead are to lead to more sustainability. It shows that history is made by purposefully acting humans and introduces transformative literacy as a key skill in leading the radical incremental change strategies that wicked problems require, illustrating their nature through mapping pioneering practices and their commonalities.
In a globalized economy, the use of natural resources is determined by the demand of modern production and consumption systems, and by infrastructure development. Sustainable natural resource use will require good governance and management based on sound scientific information, data and indicators. There is a rich literature on natural resource management, yet the national and global scale and macro-economic policy making has been underrepresented. We provide an overview of the scholarly literature on multi-scale governance of natural resources, focusing on the information required by relevant actors from local to global scale. Global natural resource use is largely determined by national, regional, and local policies. We observe that in recent decades, the development of public policies of natural resource use has been fostered by an "inspiration cycle" between the research, policy and statistics community, fostering social learning. Effective natural resource policies require adequate monitoring tools, in particular indicators for the use of materials, energy, land, and water as well as waste and GHG emissions of national economies. We summarize the state-of-the-art of the application of accounting methods and data sources for national material flow accounts and indicators, including territorial and product-life-cycle based approaches. We show how accounts on natural resource use can inform the Sustainable Development Goals (SDGs) and argue that information on natural resource use, and in particular footprint indicators, will be indispensable for a consistent implementation of the SDGs. We recognize that improving the knowledge base for global natural resource use will require further institutional development including at national and international levels, for which we outline options.
This paper analyses the risks to environmental integrity associated to the transfers of mitigation outcomes in the context of Art. 6 of the Paris Agreement and provides an overview on approaches and tools that could be used for addressing them. The analysis shows that some of the environmental integrity risks can be dealt with at the technical level. This relates, inter alia, to the risks of mitigation outcomes being unreal or non-permanent as well as to carbon leakage and rebound effects. Here, robust MRV provisions should be established. Other risks will be difficult to address without touching the new and open structure of the Paris Agreement. This applies, for example, to risks associated to the diverse nature of NDCs, and requires further investigation.