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Concentrated solar power (CSP) plants are one of several renewable energy technologies with significant potential to meet a part of future energy demand. An integrated technology assessment shows that CSP plants could play a promising role in Africa and Europe, helping to reach ambitious climate protection goals. Based on the analysis of driving forces and barriers, at first three future envisaged technology scenarios are developed. Depending on the underlying assumptions, an installed capacity of 120 GWel, 405 GWel or even 1,000 GWel could be reached globally in 2050. In the latter case, CSP would then meet 13–15% of global electricity demand. Depending on these scenarios, cost reduction curves for North Africa and Europe are derived. The cost assessment conducted for two virtual sites in Algeria and in Spain shows a long-term reduction of electricity generating costs to figures between 4 and 6 ct/kWhel in 2050. The paper concludes with an ecological analysis based on life cycle assessment. Although the greenhouse gas emissions of current (solar only operated) CSP systems show a good performance (31 g CO2-equivalents/kWhel) compared with advanced fossil-fired systems (130–900 CO2-eq./kWhel), they could further be reduced to 18 g CO2-eq./kWhel in 2050, including transmission from North Africa to Europe.
Iran as an energy-rich country faces many challenges in optimal utilization of its vast resources. High population and economic growth, generous subsidies program, and poor resource management have contributed to rapidly growing energy consumption and high energy intensity for the past decades. The continuing trend of energy consumption will bring about new challenges as it will shrink oil exports revenues restraining economic activities and lowering standard of living. This study intends to tackle some of the important challenges in the energy sector and to explore alternative scenarios for utilization of energy resources in Iran for the period 2005-2030. We use techo-economic or end-use approach along with econometric methods to model energy demand in Iran for different types (fuel, natural gas, electricity, and renewable energy) in all sectors of the economy (household, industry, transport, power plants, and others) and forecast it under three scenarios: Business As Usual (BAU), Efficiency, and Renewable Energy.
This study is the first comprehensive study that models the Iranian energy demand using the data at different aggregation levels and a combination of methods to illuminate the future of energy demand under alternative scenarios. The results of the study have great policy implications as they indicate a huge potential for energy conservation and therefore additional revenues and emission reduction under the efficiency scenario compared with the base scenario. Specifically, the total final energy demand under the BAU scenario will grow on average by 2.6 percent per year reaching twice the level as that in 2005. In contrast, the total final energy demand in the Efficiency scenario will only grow by 0.4 percent on average per year. The average growth of energy demand under the combined Efficiency and Renewable Energy scenarios will be 0.2 percent per year. In the BAU scenario, energy intensity will be reduced by about 30 percent by 2030, but will still be above today's world average. In the Efficiency scenario, however, energy intensity will decline by about 60 percent by 2030 to a level lower than the world average today. The energy savings under the Efficiency and Renewable scenarios will generate significant additional revenues and will lead to 45 percent reduction in CO2-emissions by 2030 as compared to the BAU trends.
Klärungen zum Stand der Antizipierbarkeit von Finanzcrashs : die Finanzsystemkrise von 2007/08
(2011)
Lastmanagement - neue Anforderungen und Einsatzfelder durch den Ausbau regenerativer Energien
(2011)
Die ökologische Krise wird primär durch den zu hohen und weltweit steigenden Energie- und Ressourcenverbrauch verursacht. Das vorliegende Buch untersucht dessen Ursachen und Dynamik und forscht nach Möglichkeiten einer Eindämmung. Dabei zeigt sich, dass der Rückgriff auf Natur- und Ingenieurswissenschaften zur Bewältigung der ökologischen Krise nicht ausreicht. Um verstehen zu können, was menschliche Eingriffe in die Natur antreibt, ist auch die Kenntnis von sozial- und verhaltenswissenschaftlichen Zusammenhängen notwendig. In diesem Rahmen ist die Suffizienzstrategie, die auf Veränderung der Konsumstile zielt, von großer Bedeutung. Sie kann helfen, die negativen Einwirkungen auf die Umwelt in der erforderlichen Weise zu minimieren. Zugleich gilt sie jedoch vielen als unrealisierbar. Die dafür verantwortlichen Barrieren werden im Buch identifiziert und Strategien zu ihrer Überwindung gesucht.
Ob Metalle oder Kunststoffe, Wasser oder Energie: Auch im 21. Jahrhundert werden in Deutschland noch zu viele Ressourcen verschwendet. Politik, Wirtschaft und Zivilgesellschaft sind aufgefordert, den Ressourcen- und Klimaschutz mit erheblich stärkerem Einsatz voranzutreiben, um mögliche katastrophale Entwicklungen zu begrenzen. Wird diese Herausforderung engagiert angenommen, eröffnen sich zugleich neue Chancen für technischen und sozialen Fortschritt - Natur schonend, Arbeitsplätze schaffend und wirtschaftlich attraktiv. "Eine forcierte Steigerung der Ressourceneffizienz stärkt die Wettbewerbsfähigkeit Deutschlands und ermöglicht es, Wirtschaftswachstum und Ressourcenverbrauch effektiv zu entkoppeln", so lautet ein zentrales Ergebnis des Großprojekts "Materialeffizienz und Ressourcenschonung" (MaRess). Die Autoren des MaRess-Konsortiums untersuchen verschiedene Politikansätze und -instrumente und schaffen damit die Grundlage für eine engagierte, nachhaltige Ressourcenpolitik in Deutschland. Bei MaRess handelt es sich um das bisher umfassendste deutsche Projekt zum Thema "Material- und Ressourceneffizienz", gefördert vom Bundesumweltministerium und dem Umweltbundesamt. In 31 wissenschaftlichen Instituten und Unternehmen wurde drei Jahre lang geforscht: zu Potenzialen, Politiken, Wirkungsanalysen und Kommunikationsstrategien zur Fundierung einer neuen Ressourcenpolitik in Deutschland.
During the last century, the consumption of materials for human needs increased by several orders of magnitude, even for non-renewable materials such as metals. Some data on annual consumption (input) and recycling/waste (output) can often be found in the federal statistics, but a clear picture of the main flows is missing. A dynamic material flow model is developed for the example of copper in Switzerland in order to simulate the relevant copper flows and stocks over the last 150 years. The model is calibrated using data from statistical and published sources as well as from interviews and measurements. A simulation of the current state (2000) is compared with data from other studies. The results show that Swiss consumption and losses are both high, at a level of about 8 and 2 kg/(cap year), respectively, or about three times higher than the world average. The model gives an understanding of the flows and stocks and their interdependencies as a function of time. This is crucial for materials whose consumption dynamics are characterised by long lifetimes and hence for relating the current output to the input of the whole past. The model allows a comprehensive discussion of possible measures to reduce resource use and losses to the environment. While increasing the recycling reduces losses to landfill, only copper substitution can reduce the different losses to the environment, although with a time delay of the order of a lifetime.
Spitzenfrauen in technischen und umweltbezogenen Berufen : überwiegen die Potenziale oder Barrieren?
(2011)
Veränderungsprozesse hin zu nachhaltigen Gesellschaften werden bis heute blockiert. Im Text werden diese Blockaden auf der Ebene der Theorie und Konzeption untersucht. Oft soll das Neue der Nachhaltigkeit mit alten Rationalitätsmustern erreicht werden - mit alten Konzepten von Gerechtigkeit, Produktivität, Eigentum. Aber der nachhaltige Gerechtigkeitsanspruch, der Rücksicht auf zukünftige Generationen einfordert, kann mittels der Theorie von John Rawls nicht eingelöst werden. Denn dort besteht unter dem Schleier der Unwissenheit der jeweils Andere nur abstrakt, ohne eigene Stimme. Und der nachhaltige Anspruch des Produktivitätserhalts kann mit dem in den Wirtschaftswissenschaften vorherrschenden Produktivitätskonzept, das auf Adam Smith zurückgeht, ebenfalls nicht eingelöst werden, da es die sorgenden Tätigkeiten von Frauen und die Produktivität der Natur aus dem Ökonomischen ausgrenzt. Und schließlich das Eigentum: In der erstmals von John Locke konzipierten bürgerlichen Eigentumsgesellschaft entstehen Eigentum und Wert nur im unmittelbaren Umwandlungsakt von Natur in Waren. Herrschafts-Eigentum über Ressourcen schließt andere von der Nutzung aus. Die Geschichte einer nachhaltigen gesellschaftlichen Entwicklung bedarf daher ganz anderer, neuer Erzählungen.
The North African countries Morocco, Algeria, Tunisia, Libya and Egypt have been and are currently experiencing rapid growth in energy demand. This development confronts their political leaders with the question of how to expand or diversify their countries' generation capacities. In this context, renewable energies and nuclear power constitute options that have rarely been exploited so far in the region. This article analyzes the drawbacks and benefits of both alternatives, with a special focus on import and export dynamics. When attempting to make the strategic decision between renewables and atomic power, North African regional specifics and circumstances have to be taken into account. Hence, in a first step, the article characterizes the energy systems of the North African countries and presents scenarios for their future development. In a second step, it scrutinizes the energy challenges these states face in terms of domestic concerns and foreign affairs. Finally, a case study of Algeria is used to demonstrate how renewable energies, but not nuclear power, are able to respond to North African energy challenges.
The general conditions for local authorities in Germany have changed fundamentally during the last decades. Not only do municipalities compete with each other for employment, prestige and competitive advantages, they also face increasingly higher demands by their citizens, for instance in the area of climate protection.
Therefore, every municipality has to consider various economic, social and ecological determinants in its decision-making processes. With respect to public buildings, an economically-oriented cost-benefit-analysis alone is not adequate due to a municipality's role as "consumer and role model". To identify measures with a broader benefit, a multicriteria analysis (MCA) has been used to analyze energy efficiency measures in public buildings for the city of Dortmund.
For several years Dortmund has committed itself to implement energy efficiency measures and improve the energy performance of its building stock. Nevertheless, a benchmark analysis still shows a high energy saving potential that cannot be tapped with the existing measures and instruments. Therefore, a package of measures has been developed in close cooperation with the city of Dortmund, ranging broadly from measures of energetic retrofitting and green IT to behavioral change of building occupants.
In the MCA these measures have been assessed according to ten different criteria such as innovativeness, cost effectiveness, external costs, CO2 reduction potential, local value or effort of implementation. Three different scenarios ("City as Role Model", "City as Homo Oeconomicus", "City as Climate Protector") show different municipal perspectives.
The analysis has shown that the greatest benefit for municipalities, regardless of the municipal perspective, is yielded by measures such as voluntarily enhanced minimum standards for new or for energetic retrofitting of public buildings, the procurement of energy-efficient office equipment, the expansion of heat generation from renewable energies and the usage of private capital in participatory projects like "Solar&Save".