Refine
Year of publication
- 2015 (58) (remove)
Document Type
- Article (reviewed) (30)
- Conference Proceeding (14)
- Patent (6)
- Part of a Book (4)
- Book (3)
- Article (unreviewed) (1)
Conference Type
- Konferenzartikel (11)
- Konferenz-Abstract (1)
- Konferenz-Poster (1)
- Sonstiges (1)
Language
- English (42)
- German (15)
- Other language (1)
Has Fulltext
- no (58)
Is part of the Bibliography
- yes (58) (remove)
Keywords
- Bauteil (3)
- Dünnschichtchromatographie (3)
- Finite-Elemente-Methode (3)
- Mikrostruktur (3)
- Polymere (3)
- Strömungsmechanik (3)
- Aktivierung (2)
- Alexander von Humboldt (2)
- Brennstoffzelle (2)
- Durchfluss (2)
Institute
- Fakultät Maschinenbau und Verfahrenstechnik (M+V) (58) (remove)
Open Access
- Closed Access (23)
- Open Access (16)
- Bronze (6)
- Closed (1)
- Diamond (1)
Poröse Massen oder Formkörper aus anorganischen polymeren und deren Herstellung (EP000002958875A1)
(2015)
Nasschemische Behandlungsanlage zum elektrochemischen Beschichten von flachen Substraten (1) mit Beschichtungsmaterial, mit einem Becken zur Aufnahme eines Elektrolyten, und mit Transportmitteln, mit welchen die flachen Substrate (1) horizontal durch den Elektrolyten transportierbar sind, sowie mit mindestens einem Kontaktelement (2), welches eine Welle (4) mit Drehachse (5) und eine zum Abrollen auf dem Substrat (1) geeignete zylindrische Umfangsfläche aufweist, wobei die Umfangsfläche mindestens ein elektrisch isoliertes Segment (3B) und mindestens ein elektrisch leitendes Segment (3A) umfasst, das mit einer Stromquelle (6) umpolbar verbindbar ist, wobei die Drehachse (5) des Kontaktelements (2) oberhalb der Oberfläche des Elektrolyten positioniert ist, und wobei das Kontaktelement (2) als Verbrauchselektrode ausgestaltet ist.
Messschraube zur Ermittlung von Schraubenbelastungen, die einen Schraubenkopf (8) und einen Schraubenschaft (9) mit einem oberen Schaftbereich (7) aufweist, der bei bestimmungsgemäßer Benutzung der Schraube nicht an einem Objekt anliegt, wobei mindestens zwei Dehnungsmesssensoren so im Schraubenschaft (9) angeordnet und dehnungskinematisch mit dem Schraubenschaft (9) gekoppelt sind, dass sie Dehnungswerte im Schraubenschaft (9) erfassen, aus denen über konstitutive Materialgesetze Belastungen in mehr als einer Achse im oberen Schaftbereich (7) bestimmt werden können, wobei die Dehnungsmesssensoren als faseroptische Sensoren an mehreren Stellen entlang mindestens einer optischen Faser (1) ausgebildet sind.
The main focus of this chapter is the theoretical and instrumental processes that underpin densitometric methods widely used in thin-layer chromatography (TLC). Densitometric methods include UV–vis, luminescence and fluorescence optical measurements as well as infrared and Raman spectroscopic measurements. The chapter is divided in two general parts: a theoretical part and a practical part. The systems for direct radioactivity measurements and the combination of TLC with mass spectrometry are also discussed. All these systems allow measuring an intensity distribution directly on a TLC plate. We call this “in situ detection” because no analyte is removed from the plate.
A two-dimensional single-phase model is developed for the steady-state and transient analysis of polymer electrolyte membrane fuel cells (PEMFC). Based on diluted and concentrated solution theories, viscous flow is introduced into a phenomenological multi-component modeling framework in the membrane. Characteristic variables related to the water uptake are discussed. A Butler–Volmer formulation of the current-overpotential relationship is developed based on an elementary mechanism of electrochemical oxygen reduction. Validated by using published V–I experiments, the model is then used to analyze the effects of operating conditions on current output and water management, especially net water transport coefficient along the channel. For a power PEMFC, the long-channel configuration is helpful for internal humidification and anode water removal, operating in counterflow mode with proper gas flow rate and humidity. In time domain, a typical transient process with closed anode is also investigated.
The state-of-the-art electrochemical impedance spectroscopy (EIS) calculations have not yet started from fully multi-dimensional modeling. For a polymer electrolyte membrane fuel cell (PEMFC) with long flow channel, the impedance plot shows a multi-arc characteristic and some impedance arcs could merge. By using a step excitation/Fourier transform algorithm, an EIS simulation is implemented for the first time based on the full 2D PEMFC model presented in the first part of this work. All the dominant transient behaviors are able to be captured. A novel methodology called ‘configuration of system dynamics’, which is suitable for any electrochemical system, is then developed to resolve the physical meaning of the impedance spectra. In addition to the high-frequency arc due to charge transfer, the Nyquist plots contain additional medium/low-frequency arcs due to mass transfer in the diffusion layers and along the channel, as well as a low-frequency arc resulting from water transport in the membrane. In some case, the impedance spectra appear partly inductive due to water transport, which demonstrates the complexity of the water management of PEMFCs and the necessity of physics-based calculations.
This paper focuses on the microstructure-dependent inelastic behavior of lamellar gray cast iron. It comprises the reconstruction of three dimensional volume elements by use of the serial sectioning method for the materials GJL-150, GJL-250 and GJL-350. The obtained volume elements are prepared for the numerical analyses by means of finite-element method. In the finite-element analysis, the metallic matrix is modeled with an elastic–plastic deformation law. The graphite inclusions are modeled nonlinear elastic with a decreasing value of Young’s modulus for increasing tensile loading. Thus, the typical tension–compression asymmetry of this material class can be described. The stress–strain curves obtained with the microstructure-based finite-element models agree well with experimental curves of tension and compression tests. Besides the analysis of the whole volume element, the scatter of the stress–strain response in smaller statistical volume elements is investigated. Furthermore, numerical studies are performed to reduce computational costs.
The transformation of the building energy sector to a highly efficient, clean, decentralised and intelligent system requires innovative technologies like microscale trigeneration and thermally activated building structures (TABS) to pave the way ahead. The combination of such technologies however presents a scientific and engineering challenge. Scientific challenge in terms of developing optimal thermo-electric load management strategies based on overall energy system analysis and an engineering challenge in terms of implementing these strategies through process planning and control. Initial literature research has pointed out the need for a multiperspective analysis in a real life laboratory environment. To this effect an investigation is proposed wherein an analytical model of a microscale trigeneration system integrated with TABS will be developed and compared with a real life test-rig corresponding to building management systems. Data from the experimental analysis will be used to develop control algorithms using model predictive control for achieving the thermal comfort of occupants in the most energy efficient and grid reactive manner. The scope of this work encompasses adsorption cooling based microscale trigeneration systems and their deployment in residential and light commercial buildings.
Grundzüge der Strömungslehre
(2015)
Dieses erfolgreiche, didaktisch ausgereifte Lehrbuch wurde im Bereich der Übungsaufgaben erweitert. Leserhinweise wurden eingearbeitet. Es zeichnet sich durch eine prägnant kurze, mathematisch verständliche und anwendbare Einführung in die Grundlagen aus und hilft dem Leser, sein Verständnis durch Übungen mit kompletten Lösungen zu vertiefen.