Zukünftige Energie- und Industriesysteme
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Integrated systems analysis
(2007)
The paper reviews the current knowledge on the use of biomass for non-food purposes, critically discusses its environmental sustainability implications, and describes the needs for further research, thus enabling a more balanced policy approach. The life-cylce wide impacts of the use of biomass for energy and material purposes derived from either direct crop harvest or residuals indicate that biomass based substitutes have a different, not always superior environmental performance than comparable fossil based products. Cascading use, i.e. when biomass is used for material products first and the energy content is recovered from the end-of-life products, tends to provide a higher environmental benefit than primary use as fuel. Due to limited global land resources, non-food biomass may only substitute for a certain share of non-renewables. If the demand for non-food biomass, especially fuel crops and its derivates, continues to grow this will inevitably lead to an expansion of global arable land at the expense of natural ecosystems such as savannas and tropical rain forests. Whereas the current aspirations and incentives to increase the use of non-food biomass are intended to counteract climate change and environmental degradation, they are thus bound to a high risk of problem shifting and may even lead to a global deterioration of the environment. Although the "balanced approach" of the European Union's biomass strategy may be deemed a good principle, the concrete targets and implementation measures in the Union and countries like Germany should be revisited. Likewise, countries like Brazil and Indonesia may revisit their strategies to use their natural resources for export or domestic purposes. Further research is needed to optimize the use of biomass within and between regions.
Angewandte Systemanalyse
(2008)
Based on different current long-term energy scenarios the paper discusses the future perspectives of hydrogen in the German energy system as a representative example for the development of sustainable energy systems. The scenario analysis offers varying outlines of the future energy system that determine the possible role of hydrogen. The paper discusses the possibilities of expanding the share of renewable energy and the resulting prospects for establishing clean hydrogen production from renewable energy sources. Emphasis is given to the questions of an ecologically efficient allocation of limited renewable energy resources that can only be assessed from asystems analysis perspective. Findings from recent studies for Germany reveal a strong competition between the direct input into the electricity system and an indirect use as fuel in the transport sector. Moreover, the analysis underlines the paramount importance of reducing energy demand as the inevitable prerequisite for any renewable energy system.
Driving progress by opening up early markets : a hydrogen energy strategy for North Rhine-Westphalia
(2006)
Considering the enormous ecological and economic importance of the transport sector the introduction of alternative fuels - together with drastic energy efficiency gains - will be a key to sustainable mobility, nationally as well as globally. However, the future role of alternative fuels cannot be examined from the isolated perspective of the transport sector. Interactions with the energysystem as a whole have to be taken into account. This holds both for the issue of availability of energy sources as well as for allocation effects, resulting from the shift of renewable energy from the stationary sector to mobile applications. With emphasis on hydrogen as a transport fuel for private passenger cars, this paper discusses the energy systems impacts of various scenarios introducing hydrogen fueled vehicles in Germany. It identifies clear restrictions to an enhanced growth of clean hydrogen production from renewable energy sources (RES). Furthermore, it points at systems interdependencies that call for a priority use of RES electricity in stationary applications. Whereas hydrogen can play an increasing role in transport after 2030 the most important challenge is to exploit short–mid-term potentials of boosting car efficiency.
In der Studie "Analyse und Bewertung der Nutzungsmöglichkeiten von Biomasse" mit Schwerpunkt auf stationäre Anwendungen wurden die Optionen zur Strom- und Wärmeerzeugung durch Biogas mit Techniken zur Holznutzung verglichen. Hinzu kommt die Betrachtung des Einsatzes von Biogas als Kraftstoff an Erdgastankstellen. Im folgenden ersten Teil werden die Ergebnisse der Studie mit Schwerpunkt auf den Biogaspotenzialen, den Techniken und Kosten sowie den Klimaschutzaspekten der Biogasnutzung vorgestellt. Ein zweiter Teil vertieft die Themen der Gewinnung von Biomethan aus der Holzvergasung, der Aufbereitung und Einspeisung von Biogas sowie den Anforderungen und Restriktionen der Einspeisung ins deutsche Erdgasnetz (BWK 5/2006).
In der Studie "Analyse und Bewertung der Nutzungsmöglichkeiten von Biomasse" wurden Optionen zur Strom- und Wärmeerzeugung durch Biogas mit Techniken zur Holznutzung verglichen. Im ersten Teil dieses Aufsatzes (BWK 3/2006) wurden Potenziale, Techniken, Kosten und Klimaschutzaspekte der Biogasnutzung vorgestellt. Der zweite Teil befasst sich mit der Gewinnung von Biomethan aus der Holzvergasung, der Aufbereitung und Einspeisung von Biogas sowie den Anforderungen und Restriktionen der Einspeisung ins deutsche Erdgasnetz.
New energy efficiency policies have been introduced around the world. Historically, most energy models were reasonably equipped to assess the impact of classical policies, such as a subsidy or change in taxation. However, these tools are often insufficient to assess the impact of alternative policy instruments. We evaluate the so-called engineering economic models used to assess future industrial energy use. Engineering economic models include the level of detail commonly needed to model the new types of policies considered. We explore approaches to improve the realism and policy relevance of engineering economic modeling frameworks. We also explore solutions to strengthen the policy usefulness of engineering economic analysis that can be built from a framework of multidisciplinary cooperation. The review discusses the main modeling approaches currently used and evaluates the weaknesses in current models. We focus on the needs to further improve the models. We identify research priorities for the modeling framework, technology representation in models, policy evaluation, and modeling of decision-making behavior.