12,681 to 12,690 of 13,103 Results
Jan 25, 2022 -
Hydrogen Safety: Pressure Peaking Phenomena-ignited releases
MATLAB Data - 40.6 MB -
MD5: 3e3f0f256263aa92ae01a9bdcceb86dd
HTE341USN0027READ191111.mat |
Jan 25, 2022 -
Hydrogen Safety: Pressure Peaking Phenomena-ignited releases
MATLAB Data - 40.2 MB -
MD5: 55994389aa6d6a60a6a736c8c79bee0e
HTE341USN0028READ191111.mat |
Jan 25, 2022 -
Hydrogen Safety: Pressure Peaking Phenomena-ignited releases
MATLAB Data - 40.5 MB -
MD5: d93dab6ece1ea477825d35de4ff56344
HTE341USN0029READ191111.mat |
Jan 25, 2022 -
Hydrogen Safety: Pressure Peaking Phenomena-ignited releases
MATLAB Data - 41.2 MB -
MD5: 6012e3a7e92c43dced63312288f46425
HTE341USN0030READ191111.mat |
Jan 25, 2022 -
Hydrogen Safety: Pressure Peaking Phenomena-ignited releases
MATLAB Data - 41.8 MB -
MD5: 62d0637fe5ed0710589bb5b0482f82bd
HTE341USN0031READ191111.mat |
Jan 25, 2022 -
Hydrogen Safety: Pressure Peaking Phenomena-ignited releases
MS Word - 14.9 KB -
MD5: facce8660a5be2c5738449f323968086
Readme_Hydrogen safety- Pressure Peaking Phenomena-ignited releases.docx |
Jan 25, 2022 - University of South-Eastern Norway
Lach Agnieszka; Gaathaug Andre Vagner, 2022, "Hydrogen safety: Pressure Peaking Phenomena-unignited releases", https://doi.org/10.23642/USN.17932439, DataverseNO, V1
DATASET MIGRATED FROM FIGSHARE: The aim of this study was to validate a model for predicting overpressure arising from accidental hydrogen releases in areas with limited ventilation. Experiments were performed in a large-scale setup that included a steel-reinforced container of volume 14.9 m3 and variable ventilation areas and mass flow rates. The... |
MS Word - 17.8 KB -
MD5: afdab417756bb52ef4295db801c73451
File handling guide.docx |
MS Excel Spreadsheet - 59.5 KB -
MD5: f7b41a7944c3f31395ae530867f892bc
HTE242USN00002CONC190621.xlsx |
MATLAB Data - 116.8 MB -
MD5: 3fa8e2abfb36834002534a1b4465b1cb
HTE242USN_00002_READ190621.mat |
