Detecting accelerometric nonlinearities in the international space station

Sáez, Núria; Gavaldà, Jna.; Ruíz, Xavier; Shevtsova, Valentina

doi:10.1016/j.actaastro.2014.06.025

Cited by 10 publications

(4 citation statements)

References 27 publications

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“…Because the short-time Fourier transform uses 2048 points, the frequency resolution in all cases is approximately 1 mHz. Note that, since the signals associated with high ΔT values (particularly, ΔT = 40 K) and rapid melting are shorter, the spectral analysis of these cases is more difficult [63][64][65][66]. Fig.…”

Section: Spectral Contentmentioning

confidence: 99%

Three-Dimensional Effects During Thermocapillary-Driven Melting of Pcms in Cuboidal Containers in Microgravity

Šeta,

Salgado Sanchez,

Dubert

et al. 2023

Preprint

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Section: Spectral Contentmentioning

confidence: 99%

Three-Dimensional Effects During Thermocapillary-Driven Melting of Pcms in Cuboidal Containers in Microgravity

Šeta,

Salgado Sanchez,

Dubert

et al. 2023

Preprint

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“…may affect the diffusion-controlled processes depending on the duration of the pulse [20,21]. Regularly, accelerometric data are analyzed only for a few runs per experiment [22,23].…”

Section: Temperature Controlmentioning

confidence: 99%

Data quality assessment of Diffusion Coefficient Measurements in ternary mIXtures 4 (DCMIX4) experiment

et al. 2020

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Thermodiffusion, which leads to a component separation in a mixture due to the thermal gradient, still does not have an unambiguous microscopic picture. Therefore, experimental studies, especially in convection free environment, are important. As part of the 4th campaign on the DCMIX project, thermodiffusion experiments on three compositions of the toluene-methanol-cyclohexane ternary mixture, on a mixture of fullerene-tetrahydronaphthalene-toluene and on a mixture of polystyrene-toluene-cyclohexane have been performed in microgravity conditions on board the International Space Station. A binary mixture of polystyrene-toluene has been filled into the companion cell for the campaign. The Selectable Optical Diagnostics Instrument (SODI), wich is a two-wavelength Mach-Zehnder interferometer for the ternary mixtures, plus a monochromatic Mach-Zehnder interferometer for the binary mixture, has been used in order to obtain the temperature and the concentration fields in the cells. Precisely, it is a 5-steps phase-shifting interferometry technique which is implemented with SODI, producing by means of laser illumination a set of 5 phase-shifted images of between them as function of the time. A total of 58 runs of various durations and at different mean temperatures have been conducted. Here, we evaluate the contrast of the interferograms, the quality in the phase stepping, the stability of the thermal regulation of the experiments and the level of environmental disturbances on board the space station during the campaign.

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“…In the frame of a postflight study, the vibrational environment (g-jitter) recorded by the SAMS instrument during the IVIDIL experiment was analyzed [33][34][35] as well as its possible influence of the Soret separation [36]. The study shows that during experimental runs, there were no major perturbations of the microgravity environment.…”

Section: Development Of Mean Flow Under the Action Of Periodic Forcingmentioning

confidence: 99%

G-Jitter, Vibrations, Diffusion: The IVIDIL Experiment

Shevtsova¹,

Melnikov²,

Gaponenko³

et al. 2020

Preparation of Space Experiments

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Experiments aboard the International Space Station (ISS) provide a large but still limited amount of data. A complete set of data is usually returned to Earth on a flash disk a few months later, by which time the experimental facility has already been put into storage or trashed. Thus, scientists have no possibility to repeat the experiment, even if some ambiguities are later found. Therefore, onboard experiments require careful preparation on the ground with multiple tests in the laboratory and in parabolic flights, if possible. Furthermore, during postflight analysis, it is important to clarify all unknown sources of errors. One of the most obvious sources of perturbations on the ISS is g-jitter. Here, we present the preparation and implementation of the Influence of Vibrations on Diffusion in Liquids (IVIDIL) experiment on the ISS, which studied the effect of random g-jitter and given vibrations on diffusion-controlled experiments in liquid mixtures. Since diffusion in liquids is a slow process, only vibrational effects were examined in parabolic flights. A methodology for the analysis of diffusion and thermodiffusion processes was developed in the laboratory.

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Detecting accelerometric nonlinearities in the international space station

Cited by 10 publications

References 27 publications

Three-Dimensional Effects During Thermocapillary-Driven Melting of Pcms in Cuboidal Containers in Microgravity

Three-Dimensional Effects During Thermocapillary-Driven Melting of Pcms in Cuboidal Containers in Microgravity

Data quality assessment of Diffusion Coefficient Measurements in ternary mIXtures 4 (DCMIX4) experiment

G-Jitter, Vibrations, Diffusion: The IVIDIL Experiment

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