Electrification of industrial process heat : long-term applications, potentials and impacts

Converting electricity into heat offers the opportunity to make of use large scales of renewable (surplus) energy in the long run in order to reduce shut-downs of renewable power plants and to substitute fossil fuels. Electrification seems to be also very promising for industrial heat applications, as it enables high process temperatures to be achieved in a tailor-made and efficient way and enables the utilisation of other energy sources like waste heat, geothermal or ambient heat (via heat pumps). This article analyses theoretical and technical electrification potentials of Steam Generation and Other Process Heat Generation in the following energy-intensive branches: iron & steel, non-ferrous metal, iron foundries, refineries, base chemicals, glass, cement clinker and paper industry in Germany. Literature research, expert interviews as well as own modelling were conducted to determine potentials and their implementation barriers. Based on these methods, market potential to electrify industrial steam generation was estimated. On the basis of two climate protection scenarios, the effects of both a monovalent and a hybrid industrial power-to-heat strategy were quantified with regard to greenhouse gas reduction and energy efficiency (primary energy saving). The pathway towards electrification will be reflected by criteria such as path dependency, dependency of infrastructure and system compatibility. Recommendations for research and development as well as policies are derived from the overall analysis. The article shows that electrification can be an important option to achieving high CO2-savings in the industrial heating sector in a long-term perspective. However, the scenario calculations show that electrification does not in itself guarantee reduction of greenhouse gases or savings of primary energy. To reach these goals, it is essential to further develop industrial heat pumps and to map electrification and further development of renewable energy (including infrastructure such as power networks and storage facilities) in a concerted strategy

k-MED - from a local project to a service provider for eLearning

k-MED entwickelte sich von einem fachbezogenen Projekt im Jahr 1999 zu einem e-Learning-Dienstleister mit umfangreichen Lehr-Lernangeboten sowie einer technischen und organisatorischen Infrastruktur für Autoren und Nutzer. Es bietet heute – Mitte 2006 – 5000 Studierenden, v.a. der Humanmedizin, ca. 170 Lernkurse aus 16 medizinischen Fächern. Das Projekt umfasst erfahrenes Fachpersonal und nutzt eine eigene Online-Autorenumgebung sowie eine internetbasierte Lernplattform, deren Funktionalitäten in Abstimmung mit evaluierten Lehr- und Lern-Szenarien ständig weiter entwickelt werden. Die wichtigste Aufgabe ist die Vollversorgung von Bildungseinrichtungen, darunter vor allem medizinische Fakultäten, mit Lehr-Lern- und Kommunikationsinstrumenten. Aktuelle Informationen sind zu finden unter http://www.k-med.org.k-MED evolved from a single medical subject project in 1999 to a provider of comprehensive technology, infrastructure and content for authors and learners. It currently offers about 170 courses covering 16 medical subjects. The k-MED community consists of medical authors and experts for technology, graphical and instructional design. It has its proprietary authoring tools and an internet based learning management system, both being continually improved corresponding to service experiences. k-MED aims at ongoing development as a service provider for educational institutions for undergraduate or continuing medical education. For further information see http://www.k-med.org

Multicriteria optimization as enabler for Sustainable Ceramic Matrix Composites (SCMC)

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Influence of ecological optimized manufacturing on the production costs of C/C structures using CVI technology

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Origins of the midlatitude Pacific decadal variability

Analysis of multiple climate simulations shows much of the midlatitude Pacific decadal variability to be composed of two simultaneously occurring elements: One is a stochastically driven, passive ocean response to the atmosphere while the other is oscillatory and represents a coupled mode of the ocean‐atmosphere system. ENSO processes are not required to explain the origins of the decadal variability. The stochastic variability is driven by random variations in wind stress and heat flux associated with internal atmospheric variability but amplified by a factor of 2 by interactions with the ocean. We also found a coupled mode of the ocean‐atmosphere system, characterized by a significant power spectral peak near 1 cycle/20 years in the region of the midlatitude North Pacific and Kuroshio Extension. Ocean dynamics appear to play a critical role in this coupled air/sea mode

Autonomic reactions and peri-interventional alterations in body weight as potential supplementary outcome parameters for thromboembolic stroke in rats

BACKGROUND: Since several neuroprotectives failed to reproduce promising preclinical results under clinical conditions, efforts emerged to implement clinically relevant endpoints in animal stroke studies. Thereby, insufficient attention was given on autonomic reactions due to experimental stroke, although clinical trials reported on high functional and prognostic impact. This study focused on autonomic consequences and body weight changes in a translational relevant stroke model and investigated interrelations to different outcome measurements. METHODS: Forty-eight rats underwent thromboembolic middle cerebral artery occlusion (MCAO) while recording heart rate (HR) and mean arterial pressure (MAP). After assessing early functional impairment (Menzies score), animals were assigned to control procedure or potentially neuroprotective treatment with normobaric (NBO) or hyperbaric oxygen (HBO). Four or 24 hours after ischemia onset, functional impairment was re-assessed and FITC-albumin administered intravenously obtaining leakage-related blood–brain barrier (BBB) impairment. Body weight was documented prior to MCAO and 4 or 24 hours after ischemia onset. RESULTS: During MCAO, HR was found to increase significantly while MAP decreased. The amount of changes in HR was positively correlated with early functional impairment (P = 0.001): Severely affected animals provided an increase of 15.2 compared to 0.8 beats/minute in rats with low impairment (P = 0.048). Regarding body weight, a decrease of 9.4% within 24 hours after MCAO occurred, but treatment-specific alterations showed no significant correlations with respective functional or BBB impairment. CONCLUSIONS: Future studies should routinely include autonomic parameters to allow inter-group comparisons and better understanding of autonomic reactions due to experimental stroke. Prospectively, autonomic consequences might represent a useful outcome parameter enhancing the methodological spectrum of preclinical stroke studies