Refine
Year of publication
- 2017 (262) (remove)
Institute
- Fachbereich Medizintechnik und Technomathematik (67)
- Fachbereich Elektrotechnik und Informationstechnik (37)
- IfB - Institut für Bioengineering (34)
- Fachbereich Luft- und Raumfahrttechnik (33)
- Fachbereich Wirtschaftswissenschaften (32)
- Fachbereich Energietechnik (27)
- INB - Institut für Nano- und Biotechnologien (27)
- Fachbereich Maschinenbau und Mechatronik (24)
- Fachbereich Bauingenieurwesen (14)
- Fachbereich Architektur (13)
Document Type
- Article (109)
- Conference Proceeding (87)
- Part of a Book (34)
- Book (14)
- Other (11)
- Part of a Periodical (2)
- Report (2)
- Contribution to a Periodical (1)
- Doctoral Thesis (1)
- Patent (1)
Keywords
- Autonomous mobile robots (2)
- Gamification (2)
- Industry 4.0 (2)
- MASCOT (2)
- Multi-robot systems (2)
- Smart factory (2)
- 3D nonlinear finite element model (1)
- Acceptance tests (1)
- Ausfachungsmauerwerk (1)
- Automated Optimization (1)
Is part of the Bibliography
- no (262)
Combined with the use of renewable energy sources for
its production, Hydrogen represents a possible alternative gas
turbine fuel for future low emission power generation. Due to
its different physical properties compared to other fuels such
as natural gas, well established gas turbine combustion
systems cannot be directly applied for Dry Low NOx (DLN)
Hydrogen combustion. This makes the development of new
combustion technologies an essential and challenging task
for the future of hydrogen fueled gas turbines.
The newly developed and successfully tested “DLN
Micromix” combustion technology offers a great potential to
burn hydrogen in gas turbines at very low NOx emissions.
Aiming to further develop an existing burner design in terms
of increased energy density, a redesign is required in order to
stabilise the flames at higher mass flows and to maintain low
emission levels.
For this purpose, a systematic design exploration has
been carried out with the support of CFD and optimisation
tools to identify the interactions of geometrical and design
parameters on the combustor performance. Aerodynamic
effects as well as flame and emission formation are observed
and understood time- and cost-efficiently. Correlations
between single geometric values, the pressure drop of the
burner and NOx production have been identified as a result.
This numeric methodology helps to reduce the effort of
manufacturing and testing to few designs for single
validation campaigns, in order to confirm the flame stability
and NOx emissions in a wider operating condition field.
Investigation Of The Seismic Behaviour Of Infill Masonry Using Numerical Modelling Approaches
(2017)
Masonry is a widely spread construction type which is used all over the world for different types of structures. Due to its simple and cheap construction, it is used as non-structural as well as structural element. In frame structures, such as
reinforced concrete frames, masonry may be used as infill. While the bare frame itself is able to carry the loads when it comes to seismic events, the infilled frame is not able to warp freely due to the constrained movement. This restraint results in a complex interaction between the infill and the surrounding frame, which may lead to severe damage to the infill as well as the surrounding frame. The interaction is studied in different projects and effective approaches for the description of the behavior are still lacking. Experimental programs are usually quite expensive, while numerical models, once validated, do offer an efficient approach for the investigation of the interaction when horizontally loaded. In order to study the numerous parameters influencing the seismic load bearing behavior, numerical models may be used. Therefore, this contribution presents a numerical approach for the simulation of infill masonry in reinforced concrete frames. Both parts, the surrounding frame as well as the infill are represented by micro modelling approaches to correctly take into account the different types of failure. The adopted numerical model describes the inelastic behavior of the system, as indicated by the obtained results of the overall structural response as well as the formation of damage in the infilled wall. Comparison of the numerical and experimental results highlights the valuable contribution of numerical simulations in the study and design of infilled frames. As damage of the infill masonry may occur in-plane due to the interaction as well as out-of-plane due to the low vertical load, both directions of loading are investigated.
Analysis Of Base Isolated Liquid Storage Tanks With 3D Fsi-Analysis As Well As Simplified Approaches
(2017)
Tanks are preferably designed, for cost-saving reasons, as circular, cylindrical, thin-walled shells. In case of seismic excitation, these constructions are highly vulnerable to stability failures. An earthquake-resistant design of rigidly supported tanks for high seismic loading demands, however, uneconomic wall thicknesses. A cost-effective alternative can be provided by base isolation systems. In this paper, a simplified seismic design procedure for base isolated tanks is introduced, by appropriately modifying the standard mechanical model for flexible, rigidly supported tanks. The non-linear behavior of conventional base isolation systems becomes an integral part of a proposed simplified process, which enables
the assessment of the reduced hydrodynamic forces acting on the tank walls and the corresponding stress distribution. The impulsive and convective actions of the liquid are taken into account. The validity of this approach is evaluated by
employing a non-linear fluid-structure interaction algorithm of finite element method. Special focus is placed on the boundary conditions imposed from the base isolation and the resulting hydrodynamic pressures. Both horizontal and vertical
component of ground motion are considered in order to study the principal effects of the base isolation on the pressure distribution of the tank walls. The induced rocking effects associated with elastomeric bearings are discussed. The results
manifest that base isolated tanks can be designed for seismic loads by means of the proposed procedure with sufficient accuracy, allowing to dispense with numerically expensive techniques.
Silos generally work as storage structures between supply and demand for various goods, and their structural safety has long been of interest to the civil engineering profession. This is especially true for dynamically loaded silos, e.g., in case of seismic excitation. Particularly thin-walled cylindrical silos are highly vulnerable to seismic induced pressures, which can cause critical buckling phenomena of the silo shell. The analysis of silos can be carried out in two different ways. In the first, the seismic loading is modeled through statically equivalent loads acting on the shell. Alternatively, a time history analysis might be carried out, in which nonlinear phenomena due to the filling as well as the interaction between the shell and the granular material are taken into account. The paper presents a comparison of these approaches. The model used for the nonlinear time history analysis considers the granular material by means of the intergranular strain approach for hypoplasticity theory. The interaction effects between the granular material and the shell is represented by contact elements. Additionally, soil–structure interaction effects are taken into account.
Extrem hohe Blitzströme
(2017)
The invention pertains to a CellDrum electrode arrangement for measuring mechanical stress, comprising a mechanical holder (1 ) and a non-conductive membrane (4), whereby the membrane (4) is at least partially fixed at its circumference to the mechanical holder (1), keeping it in place when the membrane (4) may bend due to forces acting on the membrane (4), the mechanical holder (1) and the membrane (4) forming a container, whereby the membrane (1) within the container comprises an cell- membrane compound layer or biological material (3) adhered to the deformable membrane 4 which in response to stimulation by an agent may exert mechanical stress to the membrane (4) such that the membrane bending stage changes whereby the container may be filled with an electrolyte, whereby an electric contact (2) is arranged allowing to contact said electrolyte when filled into to the container, whereby within a predefined geometry to the fixing of the membrane (4) an electrode (7) is arranged, whereby the electrode (7) is electrically insulated with respect to the electric contact (2) as well as said electrolyte, whereby mechanical stress due to an agent may be measured as a change in capacitance.
Genetically humanized mice for proteins involved in drug metabolism and toxicity and mice engrafted with human hepatocytes are emerging as promising in vivo models for improved prediction of the pharmacokinetic, drug–drug interaction, and safety characteristics of compounds in humans. This is an overview on the genetically humanized and chimeric liver-humanized mouse models, which are illustrated with examples of their utility in drug metabolism and toxicity studies. The models are compared to give guidance for selection of the most appropriate model by highlighting advantages and disadvantages to be carefully considered when used for studies in drug discovery and development.
The Pharmacokinetics and Metabolism of Lumiracoxib in Chimeric Humanized and Murinized FRG Mice
(2017)
Small Claims Regulation
(2017)
Names of individuals
(2017)
This chapter introduces performance and acceptance testing and describes state-of-the-art tools, methods, and instruments to assess the plant performance or realize plant acceptance testing. The status of the development of standards for performance assessment is given.
Blackout : Wenn bei uns allen das Licht ausgeht
Inhaltsverzeichnis:
06 Wenn im Elfenbeinturm das Licht ausgeht: Zur gesellschaftlichen Verantwortung der Wissenschaft
12 Mekka der Solarforschung: Das Solar-Institut Jülich feiert Jubiläum- und blick nach vorn
16 Hinter den Steinen: FH Aachen und die Stiftung Smart Building entwickeln gemeinsam den neuen Studiengang Smart Building Engineering
18 Die Biogaspioniere: Das Institut NOWUM-Energy sucht neue Perspektiven für die Energieerzeugung
22 Elektrisierend: Studentin entwirft Tapuya-Bühne für Electrisize Festival
24 keep calm and don´t panic
26 Der Markt als Experimentierfeld: Die Wirtschaft wandelt sich - die FH mischt in der Gründerszene mit
30 Mit einem Studium in ein neues Leben: Betreuungskonzept für Geflüchtete an der FH Aachen
32 Spuren im Staub
34 Auf Archimedes´ Spuren: Studierende stechen mit Betonkanus in See
36 "Ich investiere in Menschen": Interview mit Alexander Wilden, Inhaber der schwartz Gruppe mit Hauptsitz in Simmerath
40 Wie im richtigen Leben: 10 Jahre pro8: Rückblick und Ausblick
42 Zwei Kreuze für die Christuskirche: Entwürfe von Architekturstudienden werden umgesetzt
44 Eine gute Ausbildung ist prkatisch: Florian Kessel macht grenzüberschreitende Karriere
46 Er will das Feuer weitergeben: Holzbaupionier Prof. Hermann Blumer lehrt an der FH
50 Aufwind für innovative Lehre: Fünf Projekte im Rahmen des SQSL-Programms ausgezeichnet
51 Der einsame Turm: Kopfnuss
52 Vom Winde verweht: Benedikt Lösch kommt bei der Segelweltmeisterschaft auf Rang 28
54 Wüstensand und fliegende Roboter: Team des MASKOR-Instituts erreicht Finalrunde beim MBZIRC-Wettbewerb
56 Die Rattan-Revolution: Das Start-up "out for space" erfindet den Werkstoff neu
Dimensionen 1-2017 : Magazin der FH Aachen University of Applied Sciences - Struktur und Freiheit
(2017)
Inhalt Dimensionen 01-2017:
6 Struktur und Freiheit : Wie die Digitalisierung die Lehre beeinflusst
12 Wie wir in Zukunft konsumieren : Vom intelligenten Kühlschrank bis zur selbst gedruckten Brille
16 Baby unter Beobachtung : Forscher der FH decken massive Sicherheitsmängel bei Babymonitoringsystem auf
18 "In unserem Auge ist viel los" : Anissa Frank hat sich in ihrer Bachelorarbeit mit dem Phänomenen des kreisrunden Makulaloches beschäftigt
20 #totallove : Was kommt nach dem "Hotel Total"?
24 Das graue Wunder : Dirk Thal, Leon Bockstegers und Erick Regehr sind überzeugt: "Beton kann mehr"
26 Auftrieb : Zwei FH-Innovationen landen beim Luftfahrtkonzern Airbus
30 Ich möchte die Kunst demokratisieren : David Gerards bietet Künstlern mit dem "Poebel" eine Plattform
32 Zwischen Orient und Okzident : Unterwegs in Marokko
38 Einfach genau hinhören und horchen : Interview mit Prof. Dr. Hans-Joachim Blome zum Thema Gravitationswellen
42 Die Entdeckung eines Architekten : Auf den Spuren des Architekten Leonardo da Vinci
46 Über den Dächern von Chicago
48 Eine Prothese aus dem 3D-Drucker : Studierende engagieren sich für ein Projekt, das vielen Menschen in Krisenregionen helfen kann
50 Ist der Tod das Ende unserer Persönlichkeit? Prof. Dr. Walter van Laack ist Experte auf dem Gebiet Nahtoderfahrungen
52 Von Aachen in die ganze Welt : Die Summer Schools sind der Exportschlager der FH Aachen
59 Ein Stipendium zum Geburtstag
60 Keine Chance für Shimmy
58 Kopfnuss
61 Neues Buch über Prof. Rudold Schwarz
62 Silber beim PR-Bild-Award
63 Impressum
Vorbemerkung vor § 1353
(2017)
Einleitung vor § 1297
(2017)
Vorbemerkung vor § 1297
(2017)
Unwirksamkeit von Allgemeinverbindlicherklärungen des Tarifvertrages über das Sozialkassenverfahren
(2017)
Doppelte Abfindung für Arbeitnehmer: Abfindung gemäß § 1 a KSchG und Abfindung gemäß Sozialplan
(2017)
Reinigungsprozesse in der Lebensmittelindustrie. Entwicklung eines Demonstrators zur Überwachung
(2017)
Development and Testing of a Low NOX Micromix Combustion Chamber for an Industrial Gas Turbine
(2017)
The Micromix combustion principle, based on cross-flow mixing of air and hydrogen, promises low emission applications in future gas turbines. The Micromix combustion takes place in several hundreds of miniaturized diffusion-type micro-flames. The major advantage is the inherent safety against flash-back and low NOx-emissions due to a very short residence time of reactants in the flame region. The paper gives insight into the Micromix design and scaling procedure for different energy densities and the interaction of scaling laws and key design drivers in gas turbine integration. Numerical studies, experimental testing, gas turbine integration and interface considerations are evaluated. The aerodynamic stabilization of the miniaturized flamelets and the resulting flow field, flame structure and NOx formation are analysed experimentally and numerically. The results show and confirm the successful adaption of the low NOx Micromix characteristics for a range of different nozzle sizes, energy densities and thermal power output.
Ranson, Pierre
(2017)
Patte, Pierre
(2017)
Peyre, Antoine-Francois
(2017)
Peyre, Marie-Josephe
(2017)
The methodological discourse of mixed-methods research offers general procedures to combine quantitative and qualitative methods for investigating complex fields of research such as higher education. However, integrating different methods still poses considerable challenges. To move beyond general recommendations for mixed-methods research, this chapter proposes to discuss methodological issues with respect to a particular research domain. Taking current studies on the transition to higher education as an example, the authors first provide an overview of the potentials and limitations of quantitative and qualitative methods in the research domain. Second, they show the need for a conceptual framework grounded in the theory of the research object to guide the integration of different methods and findings. Finally, an example study that investigates transition with regard to the interplay of the individual student and the institutional context serves to illustrate the guiding role of theory. The framework integrates different theoretical perspectives on transition, informs the selection of the research methods, and defines the nexus of the two strands that constitute the mixed-methods design. As the interplay of individual and context is of concern for teaching and learning in general, the example presented may be fruitful for the wider field of higher education research.
Für Auftragschweißaufgaben existiert eine Vielzahl an verfahrenstechnischen
Prozessvarianten, die je nach Charakteristik und Anwendungsfall
ausgewählt werden. Ein Nachteil der vorwiegend verwendeten Metall-
Schutzgasschweißprozesse (MSG) für das Auftragschweißen ist durch die
direkte Kopplung von Drahtvorschub zu Energieeintrag gegeben. Die vorgestellte
Zweidraht-Prozessvariante kann durch die Ausbildung eines übertragenen
und eines nicht-übertragenen Lichtbogens die elektrische Leistung
beider Lichtbögen variieren und damit einen direkten Einfluss auf
die Prozessgrößen Abschmelzleistung und Aufschmelzgrad nehmen. Im
Speziellen besteht über die Entkopplung von Drahtvorschub zu Schweißstromstärke
die Möglichkeit eines niederenergetischen Betriebs trotz hoher
Drahtvorschubgeschwindigkeit. Damit lassen sich Aufschmelzgrade
unter 2% umsetzen und Abschmelzleistungen bis zu 15 kg/h realisieren.
Herausgeber: Prof. Dipl.-Ing. Thomas Tünnemann
Katalog Layout; Thilo Haas, Matthias Funken
Lektorat: Gerd Götschen
Titelbild: Kevin Osterkamp
Fotos, Yvonne Albers | Fotografin und die jeweiligen Verfasserinnen
Impressum | Inhalt 01
Team | Die Besetzung 03
Thomas Tünnemann | Neo Forma 05
Projekte
Carolin Grün | Fare Luce 07
Anke Mannshausen | Tetto Galleggiante 11
Kevin Osterkamp | Azione e Reazione 15
Collin Hackenbroich | Fuori Dentro 21
Lynn Thomas | La Tramoggia 25
Miriam Azzab | l‘Incontro 29
Jonas Wübbe | Le Scale 35
Matthias Funken | Il Laboratorio 39
Moran Dorner | La Via 43
Thilo Haas | Le Scale Vicino 47
Frank Drehsen | Dietro l‘Angelo 51
Felix Fischer | La Capella 55
Thomas Tünnemann | Basilica di Argento 59
Esra Ulutas | Arco Rotondo di Speranza 63
Jana Tillmanns | Punto di Rottura 67
Henri Boh | Il Portale 71
Paul Brüggentisch | Silenzio in Movimento 75
Hermann Stuzmann | Scale Antincendio 79
Atmosphärisches
Auf die Küche | Kulinarisches 81
Carpe Diem | Fotografisches 87