1 to 4 of 4 Results
Jul 29, 2024
Rautenbach, Ryan; Buntkiel, Lukas; Schäfer, Jan; Hofmann, Sebastian, 2024, "Processes data and code for Dynamics of Lagrangian Sensor Particles", https://doi.org/10.18419/DARUS-4238, DaRUS, V1
This repository entails the data and Pythoncode for the publication "Dynamics of Lagrangian Sensor Particles: The Effect of Non-Homogeneous Mass Distribution" in the journal "Processes". In the following a brief introduction and guide based on the folders in the repository is laid out. More code specific instructions can be found in the respective... |
Apr 23, 2024
Hofmann, Sebastian; Buntkiel, Lukas; Rautenbach, Ryan; Gaugler, Lena; Ma, Yifan; Haase, Ingrid; Fitschen, Jürgen; Wucherpfennig, Thomas; Reinecke, Sebastian; Hoffmann, Marko; Takors, Ralf; Hampel, Uwe; Schlüter, Michael, 2024, "Data for: Experimental Analysis of Lifelines in a 15,000 L Bioreactor by Means of Lagrangian Sensor Particles", https://doi.org/10.18419/DARUS-3768, DaRUS, V1
The DaRUS repository entails the raw files, result files and the MATLAB codes for the publication "Experimental Analysis of Lifelines in a 15,000 L Bioreactor by Means of Lagrangian Sensor Particles" in the journal "Chemical Engineering Research and Design". This study employs Lagrangian Sensor Particles (LSPs) with a diameter of 40 mm equipped wit... |
Mar 13, 2023
Hofmann, Sebastian; Rautenbach, Ryan, 2023, "Code for: Experimental Investigations of the Flow-Following Capabilities and Hydrodynamic Characteristics of Lagrangian Sensor Particles With Respect to Their Centre of Mass", https://doi.org/10.18419/DARUS-3314, DaRUS, V1
Data for 2D Lagrangian Particle tracking and evaluation for their hydrodynamic characteristics ## Abstract This dataset entails PYTHON code for fluid mechanic evaluation of Lagrangian Particles with the "Consensus-Based tracking with Selective Rejection of Tracklets" (CSRT) algorithm in the "OpenCV" library, written by Ryan Rautenbach in the framew... |
Apr 29, 2022
Hofmann, Sebastian; Kamp, Maximilian, 2022, "Code for: Experimental Investigation of the Flow Behavior of Lagrangian LED Particles in a 200 L Bioreactor", https://doi.org/10.18419/DARUS-2811, DaRUS, V1
This dataset entails MATLAB code that implements the following topics: (1) Bioreactor calibration by means of a calibration target, (2) Image preprocessing, (3) Lagrangian LED Particle recognition, (4) Image distortion removal and translation into real space and (5) Particle track recognition. The code was written by Maximilian Kamp in the context... |
