Your search keyword '"Lotz, Christoph"' showing total 2 results

1. Untersuchungen zu Einflussfaktoren auf die Qualität von Experimenten unter Mikrogravitation im Einstein-Elevator

Author

Lotz, Christoph

Subjects

Mikrogravitation, Schwingungsanalyse, Dewey Decimal Classification::600 | Technik::620 | Ingenieurwissenschaften und Maschinenbau, microgravity, minimale Restbeschleunigung, Mehrkörpermodell, next generation drop tower, multibody simulation, Fallturm nächster Generation, Langstator Linearsynchronmotor, long stator linear synchronous drive, ddc:620, minimum residual acceleration, vibration analysis

Abstract

Die Forschung an physikalischen Grundlageneffekten in Schwerelosigkeit und die Entwicklung weltraumtauglicher Technik für zukünftige Missionen stößt in bestehenden Einrichtungen hinsichtlich ihrer Wiederholrate, Größe und möglicher Nutzlast an ihre Grenzen. Außerdem lassen sich beispielsweise Mond- oder Marsgravitation nicht oder nur mit hohem Aufwand simulieren. Diese Arbeit ist im Rahmen der Entwicklung einer neuartigen Anlage für die Forschung unter Mikrogravitation und anderen Schwerebedingungen mit hoher Wiederholrate entstanden. Das Hauptaugenmerk dieser Arbeit liegt dabei auf der Beschreibung der Anlage und ihrer Komponenten in Hinblick auf ihren Einfluss auf die Restbeschleunigung im Experiment während der Mikrogravitationsphase. Dazu sind die Einzelkomponenten teils in Prüfstandsuntersuchungen, teils in Simulationen analysiert und die ermittelten Einflüsse in einem Mehrkörpermodell zusammengefasst worden. Eine weitergehende Analyse findet im Rahmen erster Versuchsflüge im Einstein-Elevator statt., Research on basic physical effects in microgravity and the development of space-qualified technology for future missions is reaching its limits in existing facilities in terms of repetition rate, size and possible payload. In addition, Lunar or Martian gravity, for example, cannot be simulated or can only be simulated at great expense. This work has been done in the context of the development of a new facility for research under microgravity and other gravity conditions with high repetition rate. The main focus of this work is the description of the facility and its components with respect to their influence on the residual acceleration in the experiment during the microgravity phase. For this purpose, the individual components have been analyzed partly in test bench investigations and partly in simulations. The influences determined have been summarized in a mechanical simulation model. A more detailed analysis will be carried out during the first test flights in the Einstein-Elevator.

Published

2022

2. Einstein-Elevator: A New Facility for Research from µg to 5 g.

Author

Lotz, Christoph, Froböse, Tobias, Wanner, Alexander, Overmeyer, Ludger, and Ertmer, Wolfgang

Subjects

*SPACE research, *MARTIAN gravity, *VACUUM chambers, *REDUCED gravity environments, *EINSTEIN field equations

Abstract

Increasing efforts to move into space have driven the need for new facilities that are capable of simulating weightlessness and other space gravity conditions on Earth. Simulation of weightlessness/microgravity (approximately 10-6 g) is conducted in different earthbound and flightbased facilities, often with poor availability. Other conditions such as lunar or Martian gravity with their partial Earth gravity/hypogravity cannot be performed at a large scale for scientific research on Earth. For multiple Earth gravity/hypergravity, simulation centrifuges are available, but they do not allow the possibility of abrupt acceleration changes. To support this wide range of conditions, a new technique is being developed to combine all of these requirements into a single drop tower facility. Currently under construction, the Einstein-Elevator of the Hannover Institute of Technology at the Leibniz Universität Hannover is an earthbound tool created for simulating micro-, hypo-, and hypergravity research with a high repetition rate. The facility will be capable of performing 100 experiments per day (8-h work shift), each creating 4 s of microgravity. For the first time, statistics can be applied in experiments under space gravity conditions at favorable costs and short mission times. The Einstein-Elevator offers room for large experiments with a diameter up to 1.7 m and a height up to 2 m as well as weights up to 1,000 kg. To perform larger experiments under different gravitational conditions, it was necessary to develop an innovative drive and guide concept. The Einstein- Elevator will be available for general research under different gravity conditions from 2018 onward. [ABSTRACT FROM AUTHOR]

Published

2017