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Die Kreislaufwirtschaft zielt unter anderem darauf ab, Abfall als Rohstoff für neue Produkte zu nutzen. Bei Ökobilanzen von Produkten stellt sich diesbezüglich die Frage, wie sich im offenen Kreislauf rezyklierter oder thermisch verwerteter Abfall bewerten lässt. Für die Bewertung von Produktsystemen sind zwei Allokationsmethoden üblich: Die Cut-Off Methode, welche den Einsatz von Recyclingmaterialien begünstigt und die Avoided Burden Methode, welche die Abgabe von recyclingfähigem Material begünstigt. Wir diskutieren diese beiden Methoden hinsichtlich ihrer Eignung zur Bewertung einer Kreislaufwirtschaft, gemessen an der europäischen Abfallhierarchie. Als Fallbeispiel dienen verschiedene End-of-Life-Szenarien für Glas und den Kunststoff Polypropylen, die wir mit Hilfe der Umweltindikatoren Material Footprint und Carbon Footprint bewertet haben. Als Ergebnis zeigt sich, dass die Anwendung von Avoided Burden im Fall einer thermischen Verwertung in einer Müllverbrennungsanlage problematisch ist. Zum einen ergibt sich in diesem Fall ein negativer Material Footprint, falls dadurch ein Steinkohlekraftwerk substituiert wird, zum anderen wird die Abfallhierarchie teilweise übergangen, da die thermische Verwertung günstiger erscheint als Recycling. Des Weiteren wurde herausgestellt, dass die oberste Priorität in der Abfallhierarchie, die Vermeidung, durch den Cut-Off Ansatz höher begünstigt wird, als durch die Avoided Burden Methode.
Biodiversity loss is widely recognized as a serious global environmental change process. While large-scale metal mining activities do not belong to the top drivers of such change, these operations exert or may intensify pressures on biodiversity by adversely changing habitats, directly and indirectly, at local and regional scales. So far, analyses of global spatial dynamics of mining and its burden on biodiversity focused on the overlap between mines and protected areas or areas of high value for conservation. However, it is less clear how operating metal mines are globally exerting pressure on zones of different biodiversity richness; a similar gap exists for unmined but known mineral deposits. By using vascular plants' diversity as a proxy to quantify overall biodiversity, this study provides a first examination of the global spatial distribution of mines and deposits for five key metals across different biodiversity zones. The results indicate that mines and deposits are not randomly distributed, but concentrated within intermediate and high diversity zones, especially bauxite and silver. In contrast, iron, gold, and copper mines and deposits are closer to a more proportional distribution while showing a high concentration in the intermediate biodiversity zone. Considering the five metals together, 63% and 61% of available mines and deposits, respectively, are located in intermediate diversity zones, comprising 52% of the global land terrestrial surface. 23% of mines and 20% of ore deposits are located in areas of high plant diversity, covering 17% of the land. 13% of mines and 19% of deposits are in areas of low plant diversity, comprising 31% of the land surface. Thus, there seems to be potential for opening new mines in areas of low biodiversity in the future.
Poor sustainability and increasing economic shortcomings in fossil raw material use besides further technical developments of substitutes lead to a growing potential for CO2-utilisation. Hence, we balanced CO2-based methane and methanol production in a life cycle assessment and identified CO2-utilisation as a greenhouse gas saving method. However, it requires a lot of renewable energy.
This review of sources has assessed existing evidence for economic benefits arising from activities fostering the use of vehicles that use electricity to power an electric motor. It is designed to support cities in their decision making and measure selection process. The article is one of 22 reviews published in this volume.
Cleaner vehicles
(2016)
This review of sources has assessed existing evidence for economic benefits arising from innovations or interventions that aim to improve the environmental performance of vehicles - such as enhancements to engine and vehicle technologies or improved fuels. It is designed to support cities in their decision making and measure selection process. The article is one of 22 reviews published in this volume.
The Paris Agreement adopted in December 2015 provides the basis for future international cooperation on the field of climate change mitigation. While truly global in reach, the agreement will however result in an increasingly complex new climate regime: Instead of using a uniform formula, Parties are allowed to autonomously define their NDCs (nationally determined contributions), resulting in a large diversity of contributions. This poses significant challenges for emissions accounting and the transfer of emission units.
This Policy Paper explores how these challenges can be addressed by analysing different types of NDCs and assessing their compatibility with the export and use of emission units. On that basis, the authors develop opt-in provisions for Parties willing to participate in unit transfers under the new climate regime and illustrate how potential risks to environmental integrity can be addressed.
In the future, the capacities of renewable SNG (synthetic natural gas) will expand significantly. Pilot plants are underway to use surplus renewable power, mainly from wind, for electrolysis and the production of hydrogen, which is methanated and fed into the existing gas pipeline grid. Pilot projects aim at the energetic use of SNG for households and transport in particular for gas fueled cars. Another option could be the use of SNG as feedstock in chemical industry.
The early stage of development raises the question of whether SNG should be better used for mobility or the production of chemicals. This study compares the global warming potential (GWP) of the production of fossil natural gas (NG) and carbon-dioxide (CO2)-based SNG and its use for car transport versus chemical use in the form of synthesis gas. Since the potential of wind energy for SNG production is mainly located in northern Germany, the consequences by a growing distance between production in the North and transport to the South of Germany are also examined.
The results indicate that CO2-based SNG produced with wind power would lead to lower GWP when substituting NG for both uses in either transport or chemical production. Differences of the savings potential occur in short-distance pipeline transport. The critical factor is the energy required for compression along the process chain.
Sustainable supply chain management can drive sustainability. The interpretation of Sustainable supply chain management as an upstreamoriented strategy has an important, but limited potential. Addressing consumer needs and lifestyles downstream can increase the sustainability potentials of Sustainable supply chain management.
Distributed cogeneration units are flexible and suited to providing balancing power, thereby contributing to the integration of renewable electricity. Against this background, we analysed the technical potential and ecological impact of CHP (combined heat and power) systems on the German minutes reserve market for 2010, 2020 and 2030. Typical CHP plants (from 1 to 2800 kWel) were evaluated in relation to typical buildings or supply cases in different sectors. The minutes reserve potential was determined by an optimisation model with a temporal resolution of 15 min. The results were scaled up to national level using a scenario analysis for the future development of CHP. Additionally, the extent to which three different flexibility measures (double plant size/fourfold storage volume/emergency cooler) increase the potential provision of balancing power was examined. Key findings demonstrate that distributed CHP could contribute significantly to the provision of minutes reserve in future decades. Flexibility options would further enhance the theoretical potential. The grid-orientated operating mode slightly increases CO2 emissions compared to the heat-orientated mode, but it is still preferable to the separate generation of heat and power. However, the impacts of a flexible mode depend greatly on the application and power-to-heat ratio of the individual CHP system.
De-industrialization, climate and demographic changes are only a few key words that indicate the challenge of urban development in many industrialized countries for the coming decades. A fundamental transformation of infrastructure and the built environment is expected to adjust to future needs. Numerous concepts of integrating efficiency and renewable energy sources into urban planning were elaborated in recent years. Energy sufficiency in the meaning of voluntary demand reduction of energy intensive goods and services is the third and mostly forgotten pillar of sustainable development. However, organizational and spatial measures are needed to support behavior modification. This paper presents results of a transdisciplinary research design with local stakeholders and scientific experts to develop an understanding of what energy sufficiency might contribute to sustainable urban development. Based on the Multi-Level-Perspective of the transition research approach, it analyzes how stakeholders and experts define energy sufficiency structures for the shrinking district of Vohwinkel (Germany). The paper also shows a compilation and evaluation of measures which facilitate energy sufficient behavior in the fields of space heating and passenger transport on a local level. The methodological concept comprises expert interviews, thought experiments with stakeholders to develop a vision of an "energy sufficient Vohwinkel 2050" as well as a stakeholder workshop to discuss the results. A shrinking population is seen as a chance to actively adapt the built environment to foster energy sufficiency.
The so-called "Semesterticket" is a special tariff for university students in Germany which enables them to use public transport in the area of their university. Semester tickets are financed in solidarity by the students: If a university runs a semester ticket, all students automatically have to buy a ticket for one semester (6 months), regardless of whether they want to use public transport or not. In return, the students can use public transport in the area of their university for a very low semester contribution as much as they want without purchasing any extra tickets. In Germany, the first semester ticket was introduced 25 years ago in Darmstadt (1991) as a result of student initiatives. Today, most German universities run a semester ticket.
This article describes the concept of semester tickets in Germany, their development over the time and presents empirical research data on student acceptance and the effects of semester tickets on mode shift to public transport and the reduction of car ownership.
Stockholm, Hamburg, Vitoria-Gasteiz, Nantes, Kopenhagen, Bristol, Ljubljana, Essen - das sind die Europäischen Umwelthauptstädte der Jahre 2010 bis 2017. Sie wurden in einem jährlichen europaweiten Wettbewerb von der Europäischen Kommission als Vorbildstädte ausgewählt. Sie zeigen aus Sicht der Europäischen Kommission, wie eine zukunftsfähige, umweltorientierte Stadtentwicklung im 21. Jahrhundert aussehen kann. Welchen EU-Benchmark markieren diese acht Städte für die Gestaltung eines klimaschonenden Personenverkehrs in der Stadt?
Klima und Stadt
(2016)
This article analyses drivers and barriers to returning and recycling mobile phones and their consideration in existing communication and collection campaigns.
This is an important issue based on the fact that the mobile phone market is growing rapidly. In 2015 there are nearly 7 billion global mobile cellular subscriptions. This means that, at least theoretically, everyone in the world has access to mobile communication services (ITU 2015). However, the production of mobile phones is linked to an increasing use of natural resources: the "ecological rucksack" of a mobile phone is equal to about 75 kg of resources (Nordmann et al. 2015); while the global recycling rate of mobile phones is under 10 per cent (Nokia 2008, Tanskanen 2012).
In order to adress this issue, the main factors that influence return and recycling behaviour (focussing on mobile phones) will be discussed in chapter 2 of this article. The theoretical analysis is based on the norm activation model by Ellen Matthies (2005). This analysis will be complemented by empirical data and findings generated in the research project "Return and use of old mobile phones", funded by the German Ministry of Education and Research (Wuppertal Institute for Climate, Environment, Energy/Institute for Advanced Sustainability Studies, 2012-2014). To conclude, we will identify and operationalise essential components of mobile phone communication and collection campaigns, based on the theoretical approach of Matthies, literature and empirical studies, in order to develop a set of criteria for analysing and rating such communication and collection campaigns.
The results show that economic incentives as well as education and communication play a very important role in initiating more sustainable behavioural patterns in the ICT sector. The role of emotional factors is often underestimated in the development of communication activities. In summary, successful mobile phone communication and collection campaigns require a combination of several institutional, economic, social and emotional factors.
Energy systems across the globe are going through a radical transformation as a result of technological and institutional changes, depletion of fossil fuel resources, and climate change. At the local level, increasing distributed energy resources requires that the centralized energy systems be re-organized. In this paper, the concept of Integrated community energy systems (ICESs) is presented as a modern development to re-organize local energy systems to integrate distributed energy resources and engage local communities. Local energy systems such as ICESs not only ensure self-provision of energy but also provide essential system services to the larger energy system. In this regard, a comparison of different energy system integration option is provided. We review the current energy trends and the associated technological, socio-economic, environmental and institutional issues shaping the development of ICESs. These systems can be applied to both developed and developing countries, however, their objectives, business models as well as composition differs. ICESs can be accepted by different actors such as local governments, communities, energy suppliers and system operators as an effective means to achieve sustainability and thereby will have significant roles in future energy systems.
Sustainable energy systems
(2016)
Eine nachhaltige Entwicklung der Städte, die sowohl den sozialen, ökologischen als auch den ökonomischen Ansprüche der Bewohner/-innen gerecht wird, ist offen für die Diskussion unterschiedlicher Konzepte und Strategien zur Bewältigung der großen Veränderungsprozesse in den nächsten Jahrzehnten. In Wuppertal treten Herausforderungen wie demographischer Wandel, wirtschaftliche und finanzielle Schwierigkeiten sowie Klimawandel schon heute gemeinsam auf. Der Handlungsdruck bietet die Chance, als "early adopter" neue Lösungswege zu gehen und bei erfolgreicher Umsetzung als Vorbild für andere Kommunen zu dienen.
Im vorliegenden Papier wird die Nachhaltigkeitsstrategie Energiesuffizienz unter Anwendung verschiedener Konzepte des Transition-Ansatzes analysiert und anhand der Befragung von Expert(inn)en sowie lokalen Stakeholdern in der schrumpfenden Stadt Wuppertal untersucht. Die Analyse in Wuppertal zeigt unter anderem, dass sich die kommunale Ebene als Ansatzpunkt für die Untersuchung von Suffizienz im Bereich Personenverkehr und Raumwärmenachfrage von Haushalten eignet.
Businesses are under increasing pressure to improve the resource efficiency of their products and services. There is a need for practical tools that enable businesses to implement resource efficiency in their value chains. In this paper, a mixed-method approach for assessing the life-cycle-wide use of natural resources in products and services is applied in a case study on a coffee value chain of the company Mars Incorporated. Material inputs along the entire chain were assessed quantitatively using the Material Input Per unit of Service method, while a semi-quantitative Hot Spot Analysis was performed to identify environmental hot spots. This mixed-method approach has been implemented for the first time in practice to assess the value-chain-wide resource consumption and environmental impacts within a specific value chain of Mars Incorporated. The paper concludes that combining the methods provides better insights into the value chain than using just one of either of the methods alone. For the company, the approach has proven to be practicable because it identifies improvement options and their value-chain-wide resource efficiency potential.
In the context of the larger sustainability discourse, "sufficiency" is beginning to emerge as a new value throughout Western societies, and the question asked in this article is: Can we observe and conceptually identify opportunities to link successful business strategies of incumbents to principles of sufficiency? Thus, how feasible is sustainable entrepreneurship for incumbents? In this paper, a conceptual approach is developed combining insights from sociology, transition research, management and sustainable entrepreneurship research with a focus on narratives as a translation mechanism in situations where tensions emerge between corporate narratives and unexpected societal trends, e.g., the emergence of sufficient lifestyles. It will be shown that even though these are still a niche phenomenon, a focus on corporate narratives is an important element in understanding the role of incumbents in transitions to sustainability.
The adverse environmental impacts from inefficient building construction increase if measures to reduce energy and resource use, through stringent building policies and efficient technology, are not implemented in developed and developing countries. To illustrate a holistic approach to reducing buildings' energy and resources, the comparison of energy efficient and green buildings in terms of their technological aspects and their policy context in developed and developing countries, mainly in Europe, the USA and India, is presented together with a policy package recommendation for Nepal. A quality review of multiple literature sources, supported by various expert opinions, were the methods used for this in-depth analysis.
It discusses that mandatory building standards, voluntary labels, information instruments and financial incentives are the most effective combination for the shift towards market transformation, that results in a higher share of energy efficient and green buildings. The lesson such as higher compliance with, and enforcement of, building energy standards can be seen in developed countries (e.g. Germany). Looking at a building's life cycle perspective, it is not sufficient to focus solely on operational energy reduction in higher energy efficient buildings as this is achieved by the increased use of energy intensive materials. Green requirements must be considered in updating building energy standards and labels, particularly for developed countries. Green building certification will also become more effective when the stringency of energy standards is higher and when the whole building life cycle assessment is considered. Due to the increasing scarcity of energy and resources, many developing countries are forced to face up to the need for holistic green buildings. Although baseline standards are not as high as in most developed countries and national financial support is low, the gradual move towards making the standards more stringent and incorporating the wider scope of resource saving are positive developments in developing countries (e.g. India). However, to achieve significant success, strategies must include the establishment of a suitable funding environment, a political commitment and a strong government vision for long term and sustainable building construction. The challenges faced by Nepal are even greater due to the fast pace of urban growth and the absence of energy and resource efficient buildings policies, highlighting the need for an effective policy package. Overall, this dissertation demonstrates how energy efficient and green buildings are interlinked. Green buildings reinforced with higher levels of energy efficiency and energy efficient buildings incorporating green requirements are stepping-stones for achieving greater building energy and resource efficiencies. And a suitable policy package fosters its development.
Weiterentwicklung der Primärenergiefaktoren im neuen Energiesparrecht für Gebäude : Endbericht
(2016)
Zentrale Anforderungsgröße der gegenwärtigen Energieeinsparverordnung (EnEV) ist der Primärenergiebedarf, der mit Hilfe von energieträgerspezifischen Primärenergiefaktoren (PEF) aus dem Endenergiebedarf bzw. Endenergieverbrauch errechnet wird. Der PEF ist jedoch in vielen Fällen kein geeignetes Maß zur Bestimmung der Treibhausgas-Emissionen eines Heizungssystems oder eines Endenergieträgers und übt somit in Bezug auf den Klimaschutz nur eine bedingte Lenkungswirkung aus. Des Weiteren verlieren sehr niedrige nicht-erneuerbare Primärenergiefaktoren (PEFne) ihre Steuerungswirkung hin zu energieeffizienten Gebäuden und vernachlässigen andere wichtige Aspekte wie z. B. die Ressourcenverfügbarkeit von Energieträgern.
Ein Forschungskonsortium aus ITG, ifeu und Wuppertal Institut hat daher ein Überblickspapier zur möglichen Weiterentwicklung der Primärenergiefaktoren unter Einbeziehung der Treibhausgas-Emissionen erstellt. Darin werden wesentliche Defizite der bisherigen Lösung aufgezeigt und mehrere Vorschläge für eine Weiterentwicklung unter Berücksichtigung der CO2-Äquivalent-Emissionen erarbeitet. Der Projektbericht baut auf der dem Diskussionspapier "Konsistenz und Aussagefähigkeit der Primärenergie-Faktoren für Endenergieträger im Rahmen der EnEV" des Wuppertal Instituts auf und macht mehrere alternative und konkrete Vorschläge, wie die darin identifizierten Probleme durch eine Anpassung des PEFs behoben werden können.
Im Ergebnis wird ein Vorschlag zur kurzfristigen Umsetzung favorisiert, bei dem der bisherige Indikator "Primärenergie" um den Indikator "Klimaschutz" ergänzt wird. Langfristig gilt es, weitere Nachhaltigkeitsindikatoren bei der Lebenszyklus-Bewertung in den Vorketten von Energieträgern, Heizungssystemen und Gebäuden zu berücksichtigen. Dazu sind weitere Forschungsarbeiten erforderlich.
In einem gemeinsamen Artikel regen die Autorinnen und Autoren die Diskussion eines neuen Vertrages zwischen Wirtschaftswissenschaft und Gesellschaft an. Sie diskutieren die Chancen, Möglichkeiten und die Verantwortung transformativer Wirtschaftswissenschaft (in besonderem Hinblick auf Nachhaltigkeit) und betten diese in den wissenschaftlichen Diskurs ein. Transparenz, Reflexivität, Werbebezug, Partizipation und Umgestaltung von Forschung und Lehre - das sind nach Ansicht der Autor(inn)en die fünf Bedingungen, welche eine transformative Wirtschaftswissenschaft genügen muss. Der Artikel dient als Denk- und Diskussionsanstoß innerhalb der Wirtschaftswissenschaften sowie auch zwischen Wirtschaftswissenschaft und jenen außenwissenschaftlichen Akteuren, die in gesellschaftlicher und ökonomischer Transformation in Richtung Nachhaltigkeit engagiert sind. Die Spiekerrooger Klimagespräche 2016 werden darauf aufbauen.
Wie kann Wuppertal sich von einer Auto-Stadt zu einer Stadt des Umweltverbundes entwickeln? Der Wuppertaler Personenverkehr ist derzeit stark vom Autoverkehr geprägt, der die umweltfreundlichen Mobilitätsformen an den Rand drängt und ihre Entfaltung erschwert: Weit mehr als die Hälfte ihrer täglichen Wege fahren die Wuppertalerinnen und Wuppertaler mit dem Auto (58 Prozent) und nur rund ein Viertel mit Bussen, Bahnen und der Schwebebahn; dazu kommen noch 15 Prozent Wege, die zu Fuß gegangen werden und gerade mal 1,5 Prozent, die mit dem Rad gefahren werden.
Um diese Situation grundlegend zu ändern, reichen kleinere Korrekturen nicht aus - erforderlich ist ein grundlegender Kurswechsel. Im Zentrum steht dabei die Idee, den Menschen und den Unternehmen in Wuppertal eine Mobilität zu ermöglichen, die ihren Bedürfnissen entspricht und dabei zugleich ökologisch verträglich, sozial verpflichtet und gerecht sowie ökonomisch effizient ist; denn nur in dieser Verknüpfung werden Mobilität und Verkehr zukunftsfähig und stadtverträglich.
Langfristig sollten drei Viertel der Wege mit dem Umweltverbund aus Bussen, Bahnen und Schwebebahn sowie mit dem Rad und zu Fuß zurückgelegt werden, so dass der Anteil des Autoverkehrs auf ein Viertel der Wege mehr als halbiert wird.
Dadurch gewinnt Wuppertal und gewinnen die Wuppertalerinnen und Wuppertaler: mehr Ruhe, eine gesündere Luft, aktiven Klimaschutz, verbesserte Verkehrssicherheit, erweiterte umweltschonenende Mobilitätsmöglichkeiten und höhere Wohnumfeldqualität. Kurzum: eine lebenswerte Stadt.
Mobilität und Verkehr sollen also in Zukunft grundlegend anders aussehen - wie, das skizziert das Impulspapier des Wuppertal Instituts mit zehn Leitlinien für eine Verkehrswende in Wuppertal. Damit leistet das Wuppertal Institut einen Beitrag aus wissenschaftlicher Sicht zur Diskussion um eine zukunftsfähige Mobilität und eine zukunftsfähige Stadtentwicklung in seiner Heimatstadt Wuppertal.
Die Symphonie einer Großstadt : wie sich Wissensordnungen im kommunalen Klimaschutz formieren
(2016)
Die Wahrnehmung des Problems Klimawandel hat sich im Laufe der Zeit stark verändert. Zunächst war Klimawandel ein recht eng umrissenes Umweltproblem. Je deutlicher die Konfliktlinien zwischen Industrie- und Entwicklungsländern hervortraten, desto klarer wurde, dass Klimawandel über den Umweltbereich hinaus eine größere Tragweite hat. Klimawandel wurde zu einer Entwicklungsfrage. Inzwischen wird deutlich, dass das Problem noch tiefer liegt. Klimawandel wird zur Transformationsherausforderung aller Wirtschafts- und Gesellschaftssysteme.