Dataset Restricted Access
Flow field tomography of reactive transport: comparison of β⁺ tracers ¹⁸F, ⁷⁶Br & ¹²⁴I - data publication
Schöngart, Jann;
Kulenkampff, Johannes;
Fischer, Cornelius
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"citation": [
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"@type": "CreativeWork",
"@id": "https://doi.org/10.1016/j.jhydrol.2025.133868"
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"@type": "CreativeWork",
"@id": "https://doi.org/10.14278/rodare.3126"
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"@type": "CreativeWork",
"@id": "https://www.hzdr.de/publications/Publ-41206"
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"@id": "https://doi.org/10.14278/rodare.3961",
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"name": "Flow field tomography of reactive transport: comparison of \u03b2\u207a tracers \u00b9\u2078F, \u2077\u2076Br & \u00b9\u00b2\u2074I - data publication",
"identifier": "https://doi.org/10.14278/rodare.3961",
"creator": [
{
"@type": "Person",
"affiliation": "FWOT",
"name": "Sch\u00f6ngart, Jann",
"@id": "https://orcid.org/0000-0002-9224-6934"
},
{
"@type": "Person",
"affiliation": "FWOT",
"name": "Kulenkampff, Johannes",
"@id": "https://orcid.org/0000-0001-6566-5829"
},
{
"@type": "Person",
"affiliation": "FWOT",
"name": "Fischer, Cornelius",
"@id": "https://orcid.org/0000-0003-2416-6438"
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"datePublished": "2025-09-02",
"description": "<p>Data on two tomographic studies on Berea sandstone as supplemental information of the publication "Flow field tomography of reactive transport: comparison of β\u207a tracers ¹\u2078F, \u2077\u2076Br & ¹²\u2074I" by Jann Schöngart, Johannes Kulenkampff, and Cornelius Fischer<em>. </em></p>\n\n<p>Part of the data published here was used for prior works by <a href=\"https://doi.org/10.1016/j.jhydrol.2025.133868\">Schabernack et al. (2025)</a>. Therefore, the the presented dataset has overlap withthe dataset published in <a href=\"https://doi.org/10.14278/rodare.3126\">Kulenkampff et al. (2024)</a>. This overlap is limited to the µCT data, and the PET data for analysis D_B and D_C.</p>\n\n<p>The data in this publication consists of:<br>\n<br>\n<strong>µCT data</strong></p>\n\n<p>Core_D_after_dissolution_2496x2496x1615.raw: µCT of the inlet section of berea sandstone core D before dissolution as normalized graylevel data, voxel size = 10.032 µm. Format: 3D-array of uInt16, x=1:2496, y=1:2496, z=1:1615.</p>\n\n<p>Core_D_before_dissolution_2307x2329x1452_uint16.raw: µCT of the inlet section of berea sandstone core D after dissolution as normalized graylevel data, voxel size = 10.032 µm. Format: 3D-array of uInt16, x=1:2307, y=1:2329, z=1:1452.</p>\n\n<p><strong>Positron emission tomography data<br>\nAll PET data is stored as three-dimensional binary arrays of floats, with a voxel size of 1.15 mm.</strong></p>\n\n<p>Stored in [subset]_PET_raw.zip: </p>\n\n<p>Uncalibrated positron emission tomography time series (decay corrected). Each image consists of two files - a header file (.hv) and the binary image file (.v). The header file contains information on how to read the binary file, as well as additional information. <br>\nPlease note that not all of the metadata given in the header file (like timestamps, etc.) are generated automatically and not neccessarily accurate.</p>\n\n<p>Stored in [subset]_PET_err.zip: </p>\n\n<p>Relative errors of the PET_raw data, calculated from count rates using poisson statistics. A value of 1 equals 100% error. The volumes are cut to the ROI. The data structure is identical to [samplename]_PET_raw.zip.</p>\n\n<p>Stored in [subset]_PET_corrected.zip: </p>\n\n<p>Positron emission tomography time series, corrected for tracer activity and detector sensitivity fluctuations. Values are in in Bq/voxel. Voxels with relative errors above 100% are discarded. The volumes are cut to the ROI. The data structure is identical to [samplename]_PET_raw.zip.</p>\n\n<p><strong>Flow field data</strong><br>\nstored in [subset]_flowfield.zip: <br>\nFlow Direction_[X]x[Y]x[Z]x1_vec3_double.raw: Flow direction vectors as binary data of the shape [x,y,z,[3]], a three dimensional array of vectors which are stored as double (float64), voxel size = 1.15 mm.</p>\n\n<p>Flow Rate_[X]x[Y]x[Z]x1_double.raw: Flow rates (uncalibrated) as binary data of the shape [x,y,z], a three dimensional array of doubles (float64), voxel size = 1.15 mm.</p>\n\n<p>Porosity_[X]x[Y]x[Z]x1_double.raw: Porosities (uncalibrated) as binary data of the shape [x,y,z], a three dimensional array of doubles (float64), voxel size = 1.15 mm.</p>\n\n<p>Transport Error_[X]x[Y]x[Z]x1_double.raw: A measure of error quantifying the ratio of computed in- and outflow to each voxel. Values close to 0 are better. Stored as binary data of the shape [x,y,z], a three dimensional array of doubles (float64), voxel size = 1.15 mm.</p>\n\n<p>Velocity_[X]x[Y]x[Z]x1_double.raw: Velocities (uncalibrated) as binary data of the shape [x,y,z], a three dimensional array of doubles (float64), voxel size = 1.15 mm.</p>",
"keywords": [
"Positron Emission Tomography",
"Flow Field",
"geoPETFlow",
"Berea",
"18F",
"76Br",
"124I",
"Radiotracer",
"Tomography",
"Clogging",
"Reactive Transport"
],
"url": "https://rodare.hzdr.de/record/3961"
}
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- Publication date:
- September 2, 2025
- DOI:
-
- Keyword(s):
- Positron Emission Tomography Flow Field geoPETFlow Berea 18F 76Br 124I Radiotracer Tomography Clogging Reactive Transport
- Related identifiers:
- Cites:
10.1016/j.jhydrol.2025.133868, 10.14278/rodare.3126, https://www.hzdr.de/publications/Publ-41206 - Identical to:
https://www.hzdr.de/publications/Publ-41791 - Referenced by:
https://www.hzdr.de/publications/Publ-41798 - Communities: