EXP 1-1 Measurement Data and Results: Difference between revisions
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R S F=\frac{D_{v 0.9}-D_{v 0.1}}{D_{v 0.5}} | R S F=\frac{D_{v 0.9}-D_{v 0.1}}{D_{v 0.5}} | ||
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characterises the droplet size span with respect to the median diameter. Values Dv0.1, Dv0.5 (mass mean diameter, MMD), and Dv0.9 represent a diameter below which volumetric fractions 0.1, 0.5 and 0.9 of the total droplet volume in measurement point occurs; see '''Figure 2''', right. <br/> | |||
The PDA results are processed to show the variation of mean droplet velocity <math>v_{m}</math> and droplet diameter <math>D_{20}</math> along the Y-axis for single X and Z positions in '''Figure 14'''. Y-axis profiles of <math>D_{10}</math> and <math>D_{32}</math> are similarly shown in '''Figure 10''' of [2]. That paper also reports 2D surface plots of <math>D_{10}</math> or Y-axis profiles of droplet counts and droplet collision rates along the Y-axis for different <math>q</math> values in '''Figures 11, 12 and 13''', respectively. | |||
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Revision as of 16:55, 14 May 2023
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Measurement data/results
Numerical data from the PDA measurements, together with image type data from HSC are available for this test case.
Measurement data from PDA
Measurement data exported directly from the PDA software are provided as a set of .txt files. These contain raw, unprocessed information exported from the PDA system. The data are arranged in directories, where each directory contains a single airflow velocity case with a number of files for all the measured positions (Figure 10). Each data file contains raw information from a single-point measurement. The first five rows give the experiment description. Here only the fourth row is important, which documents the measurement position. The following rows document individual droplets sampled; each droplet is reported on a separate line. The first column addresses the sample number (Row#), followed by its arrival time to the measurement volume (AT, [ms]), the transit time through the measurement volume (TT, [µs]), velocity in Z-direction (LDA1, [m/s]), velocity in Y-direction (LDA4, [m/s]), a phase shift between photomultipliers 1 and 2 (U12, [°]), a phase shift between photomultipliers 1 and 3 (U13, [°]), and droplet diameter (D, [µm]).
Of practical importance are the LDA1 and LDA4, which give information on the droplet velocity in 2D and can be used for the calculation of droplet velocity magnitude (in 2D) and its motion direction. The D allows the calculation of droplet surface and volume.
The data in rows can be analysed and filtered in different ways to produce the size and velocity histograms, calculate the mean velocity or mean diameters, droplet concentration or other statistical moments as described in [59]. The velocity of the smallest droplets allows for estimating the local air velocity [62].
The AT adds the temporal information, which is useful for the analysis of steadiness [63], [64] and mean and turbulent kinetic energies in the spray [4] or frequency spectra. The columns of U12 and U13 give system information from photomultipliers which are primarily used by the measurement system for the calculation of D, and following the relation between U12 and U13 allows for droplet size validation to be done during the measurement [65]. It has no direct data assimilation for common users but might be used by advanced users if more sophisticated processing is required.
These multiple files of raw data were processed into Excel spreadsheet processed_data.xlsx to show the statistical data in each measurement position (columns A, B and C), number of droplets sampled (D), velocity validation (E), mean droplet velocity in Z-direction (F), mean droplet velocity in Y-direction (G), spherical validation (H), diameters (I), (J), (K), and relative diameter span factor, (L). The mean droplet velocity and diameters were calculated according to Eq. (3) and (6), respectively, in [59] and Equation (4). The relative span factor
characterises the droplet size span with respect to the median diameter. Values Dv0.1, Dv0.5 (mass mean diameter, MMD), and Dv0.9 represent a diameter below which volumetric fractions 0.1, 0.5 and 0.9 of the total droplet volume in measurement point occurs; see Figure 2, right.
The PDA results are processed to show the variation of mean droplet velocity and droplet diameter along the Y-axis for single X and Z positions in Figure 14. Y-axis profiles of and are similarly shown in Figure 10 of [2]. That paper also reports 2D surface plots of or Y-axis profiles of droplet counts and droplet collision rates along the Y-axis for different values in Figures 11, 12 and 13, respectively.
Contributed by: Ondrej Cejpek, Milan Maly, Ondrej Hajek, Jan Jedelsky — Brno University of Technology
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