333.7 Natürliche Ressourcen, Energie und Umwelt
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Jedes Jahr landen weltweit rund 1,3 Milliarden Tonnen Lebensmittel auf dem Müll. Deren Produktion verbraucht knapp ein Drittel des globalen Ackerlandes sowie 250 Kubikkilometer Wasser und entlässt dabei mehr als drei Milliarden Tonnen Kohlendioxid in die Atmosphäre. Gleichzeitig leidet mehr als ein Zehntel der
Weltbevölkerung an Hunger und Unterernährung. Deshalb ist es erklärtes Ziel der Europäischen Kommission, die Zahl der entsorgten Lebensmittel bis 2020 in der EU zu halbieren. Dieses Vorhaben ist für Bäckereien besonders ehrgeizig, da Brot und Backwaren meist nur einen Tag lang verkauft werden können. Diese Arbeit beschäftigt sich mit innerbetrieblichen Potentialen an der Schnittstelle von Produktion und Verkauf zur Vermeidung von Lebensmittelabfällen. Außerdem liefert sie einen konkreten Konzeptvorschlag zur Optimierung des innerbetrieblichen Bestellprozesses.
Befreiung aus dem Kreislauf des Konsums. Über den Beitrag von Yoga zu einer suffizienten Lebensweise
(2014)
Suffizienz ist ein Strategieansatz, dessen Verfolgung für das Erreichen einer nachhaltigen Entwicklung unerlässlich ist. In ihrer praktischen Umsetzung trifft die Suffizienzstrategie jedoch auf vielfältige Hindernisse, die die Etablierung von konkreten Maßnahmen verhindern. Im Rahmen dieser Arbeit wurde untersucht, inwiefern die Philosophie und Praxis des Yoga einen Schlüssel für die Umsetzung der Suffizienz auf privater Ebene darstellen kann. Nach der Methodik der qualitativen Sozialforschung wurden Einzelinterviews mit Yogalehrer*innen durchgeführt, deren Auswertung das Transformationspotenzial des Yoga in Richtung einer suffizienten Lebensweise näher erläutert. Die Forschungsergebnisse bestätigen eine Suffizienzorientierung der befragten Personen seit dem Beginn ihrer Yogapraxis und deuten auf eine erhöhte Bereitschaft für die Akzeptanz von Suffizienzmaßnahmen hin. Ein direkter Zusammenhang zwischen Yoga und dem Wissen um die Notwendigkeit einer suffizienten Lebensweise konnte nicht nachgewiesen werden.
Die Ergebnisse dienen der Suffizienzforschung als Ansatzpunkte für die Entwicklung neuer Umsetzungsstrategien.
Insbesondere in den sogenannten entwickelten Ländern findet Nachhaltigkeit immer mehr Anklang. Die meisten dort lebenden Menschen würden sowohl ihre Ziele befürworten, als auch ihre Hindernisse überwinden wollen. Aber wir stellen fest, dass Nachhaltigkeit im Augenblick der Handlungsentscheidung nicht vorrangig behandelt wird. Im Gegenteil, sie wird hinten angestellt. Dieser Aufsatz erklärt, woran es liegt, dass sich Menschen letztendlich kaum mit Nachhaltigkeit emotional identifizieren können - weder im positiven noch im negativen Sinne. Das Erreichen von Nachhaltigkeit kann somit nur dann gelingen, wenn ein Ziel gefunden wird, das Menschen tatsächlich motiviert - und das gleichzeitig Nachhaltigkeit hervorbringt
Vorbereitung zur Wiederverwendung: Regelung und Regelungsbedarf - Umsetzungs- und Erfolgsaussichten
(2013)
Wiederverwendung (WV) von Erzeugnissen ist als Ansatz hinsichtlich der Ressourcenschonung zu verstehen. Durch Verwertungsmaßnahmen mit dieser Zielsetzung - Vorbereitung zur Wiederverwendung (VWV) - kann man bewirken, dass einst als Abfall eingestufte Erzeugnisse ihre ursprüngliche Funktion wieder erfüllen, so dass im Prinzip weniger Ressourcen für die Bereitstellung von neuen Produkten beansprucht werden müs-sen. Zumindest theoretisch wäre es dann möglich, nachhaltige Entwicklung mit Wirtschaftswachstum zu vereinbaren. Aus diesem Potenzial ergibt sich die hohe Stellung sowohl von WV als auch von VWV in der so-genannten Abfallhierarchie. Nichtsdestotrotz zeigt die Realität, dass die Umsetzungsmöglichkeiten von WV bzw. VWV bescheiden sind. Auf die Ursachen und Folgen dieses Phänomens geht dieser Aufsatz ein.
Schlüsselwörter: Wiederverwendung, Abfallhierarchie, Effizienz, Suffizienz, Konsum-entenverhalten, Ressourcenschutz, Nachhaltigkeit, Kreislaufwirtschaft
In theory we pursue a sustainable development, but in reality we do not. An economy based on continuous growth, which evidently is not sustainable, is however the priority model almost everywhere. If we really aim at implementing sustainability, then we must radically change our economic model. Sufficiency - which calls for individuals mainly from so-called “developed countries” not to consume more than is really needed - may offer a useful alternative. We can still find some - last - examples of indigenous peoples living in a sufficient manner, all of them nowadays in those “developing countries”. We could learn at least from them that it is possible to live differently, i.e., in harmony with ourselves and our environment. This would pave the way for their - and for our all - protection, as well as the manner in which we understand at present development politics.
Existing institutions no longer appear to be sufficiently capable to deal with the complexity and uncertainty associated with the wicked problem of sustainability. Achieving the required sustainability transformation will thus require purposeful reform of existing institutional frameworks. However, existing research on the governance of sustainability of sustainability transformations has strongly focused on innovation and the more "creative" aspects of these processes, blinding our view to the fact that they go hand with the failure, decline or dismantling of institutions that are no longer considered functional or desirable. This doctoral dissertation thus seeks to better understand how institutional failure and decline can contribute productively to sustainability transformations and how such dynamics in institutional arrangements can serve to restructure existing institutional systems. A systematic review of the conceptual literature served to provide a concise synthesis of the research on "failure" and "decline" in the institutional literature, providing important first insights into their potentially productive functions. This was followed up by an archetype analysis of the productive functions of failure and decline, drawing on a wide range of literatures. This research identified five archetypical pathways: (1) crises triggering institutional adaptations toward sustainability, (2) systematic learning from failure and breakdown, (3) the purposeful destabilisation of unsustainable institutions, (4) making a virtue of inevitable decline, and (5) active and reflective decision making in the face of decline instead of leaving it to chance. Empirical case studies looking at the German energy transition and efforts to phase out coal in the Powering Past Coal Alliance served to provide more insights on (a) how to effectively harness "windows of opportunity" for change, and (b) the governance mechanisms used by governments to actively remove institutions. Results indicate that the lock-in of existing technologies, regulations and practices can throw up important obstacles for sustainability transformations. The intentional or unintentional destabilisation of the status quo may thus be required to enable healthy renewal within a system. This process required active and reflective management to avoid the irreversible loss of desirable institutional elements. Instruments such as "sunset clauses" and "experimental legislation" may serve as important tools to learn through "trial and error", whilst limiting the possible damage done by failure. Focusing on the subject of scale, this analysis finds that the level at which failure occurs is likely to determine the degree of change that can be achieved. Failures at the policy-level are most likely to merely lead to changes to the tools and instruments used by policy makers. This research thus suggests that failures on the polity- and political level may be required to achieve transformative changes to existing power structures, belief-systems and paradigms. Finally, this research briefly touches on the role of actor and agency in the governance of sustainabilitytransformations through failure and decline. It finds that actors may play an important role in causing a system or one of its elements to fail and in shaping the way events are come to be perceived.
Wind energy is expected to become the largest source of electricity generation in Europe's future energy mix. As a consequence, future electricity generation will be exposed to an increasing degree to weather and climate. With planning and operational lifetimes of wind energy infrastructure reaching climate time scales, adaptation to changing climate conditions is of relevance to support secure and sustainable energy supply. Premise for success of wind energy projects is the ability to service financial obligations over the project lifetime. Though, revenues(viaelectricity generation) are exposed to changing climate conditions affecting the wind resource, operating conditions or hazardous events interfering with the wind energy infrastructure. For the first time, a procedure is presented to assess such climate change impacts specifically for wind energy financing. At first, a generalised financing chain for wind energy is prepared to (qualitatively) trace the exposure of individual cost elements to physical climate change. In this regard, the revenue through wind power production is identified as the essential component within wind energy financing being exposed to changing climate conditions. This implies the wind resource to be of crucial interest for an assessment of climate change impacts on the financing of wind energy. Therefore, secondly, a novel high-resolution experimental modelling framework with the non-hydrostatic extension of the regional climate model REMO is set up to generate physically consistent climate and climate change information of the wind resource across wind turbine operating altitudes. With this setup, enhanced simulated intra-annual and inter-annual variability across the lower planetary boundary layer is achieved, being beneficial for wind energy applications, compared to state-of-the-art regional climate model configurations. In addition, surrogate climate change experiments with this setup disclose vertical wind speed changes in the lower planetary boundary layer to be indirectly affected by temperature changes through thermodynamically-induced atmospheric stability alterations. Moreover, air density changes are identified to occasionally exceed the net impact of wind energy density changes originating from changes in wind speed. This supports the consideration of air density information (in addition to wind speed) for wind energy yiel assumptions. Thirdly, the generated climate and climate change information of the wind resource are transferred to a simplified but fully-fledged financial model to assess the financial risk of wind energy project financing with respect to changing climate conditions. Sensitivity experiments for an imaginary offshore wind farm located in the German Bight reveal the long-term profitability of wind energy project financing not to be substantially affected by changing wind resource conditions, but incidents with insufficient servicing of financial obligations experience changes exceeding -10% to 14%. The integration of wind energy-specific climate and climate change information into existing financial risk assessment procedures would illustrate a valuable contribution to enable climate change adaptation for wind energy.
In response to the challenges of the energy transition, the German electricity network is subjected to a process of substantial transformation. Considering the long latency periods and lifetimes of electricity grid infrastructure projects, it is more cost-efficient to combine this need for transformation with the need to adapt the grid to future climate conditions. This study proposes the spatially varying risk of electricity grid outages as a guiding principle to determine optimal levels of security of electricity supply. Therefore, not only projections of future changes in the likelihood of impacts on the grid infrastructure were analyzed, but also the monetary consequences of an interruption. Since the windthrow of trees was identified a major source for atmospherically induced grid outages, a windthrow index was developed, to regionally assess the climatic conditions for windthrow. Further, a concept referred to as Value of Lost Grid was proposed to quantify the impacts related to interruptions of the distribution grid. In combination, the two approaches enabled to identify grid entities, which are of comparably high economic value and subjected to a comparably high likelihood of windthrow under future climate conditions. These are primarily located in the mid-range mountain areas of North-Rhine Westphalia, Baden-Württemberg and Bavaria. In comparison to other areas of less risk, the higher risk in these areas should be reflected in comparably more resilient network structures, such as buried lines instead of overheadlines, or more comprehensive efforts to prevent grid interruptions, such as structural reinforcements of pylons or improved vegetation management along the power lines. In addition, the outcomes provide the basis for a selection of regions which should be subjected to a more regionally focused analysis inquiring spatial differences (with respect to the identified coincidence of high windthrow likelihoods and high economic importance of the grid) among individual power lines or sections of a distribution network.
Metals fulfill crucial functions in areas as diverse as renewable energy, digitization and life style appliances, mobility, communication, or medicine. In the context of sustainability, achieving a more sustainable metal use means (i) minimizing the adverse effects associated with metal production and use and (ii) sustaining the availability of metals in a way that benefits present and future generations. Urgent need to act to avoid bottlenecks as well as meeting the challenge of possible conflicts of use among those areas of application calls for appropriate strategy making to intervene in the complex field of metal production and use that involves various, often interlinked operating levels, actors, and spatial and temporal scales. This dissertation focuses on strategies as a means to intervene in a system. It pursues the question, which design features could guide future strategy making to foster sustainability along the whole metal life cycle, and especially, how a better understanding of temporalities, i.e. understanding time in a diverse sense, could improve strategy design and help to bridge the assumed "transformation-material gap". This research converges the results from four research studies. A conceptual part explores the role of temporalities for interventions in complex and interlinked systems, which adds to the conceptual basis, on which the empirical part builds up to explore present and future interventions in metal production and use. The research revealed three essential needs that future strategies must tackle: (i) managing the complex interlinkages of processes and activities on various operational levels and spatial and temporal scales, (ii) providing clear guidance concerning the operationalization of sustainability principles, and (iii) keeping activities within the planet’s carrying capacity and embracing constant change as an inherent system characteristic. In response to these needs, the author developed three guidelines with two design features each (one relating to content, and one to the process of formulating and implementing the strategy) to guide future strategy making. The results show that time matters in this respect. If considered in close relation to space and diversely understood in the sense of temporalities, it serves to (i) understand the impact (duration and magnitude) of an intervention, (ii) recognize patterns of change that go beyond establishing linear, one-dimensional connections, and (iii) design interventions in a way that considers the resilience of a system. These findings can contribute to closer considering our understanding of transformation processes towards sustainability in future interventions in metal production and use.