Bioconvective MHD Flow of Hybrid Nanofluid over a Riga Plate
by Ruchika Mehta·Updated 1mo ago
53.7 KB2files
Available on 1 platform
Sign in to view source links and access this dataset
Description
A computational study of two-dimensional steady bioconvective magnetohydrodynamic flow for a tangent hyperbolic hybrid nanofluid. The dataset, authored by Ruchika Mehta and shared under CC-BY-4.0, models flow over a stretching Riga plate with Cu-Al2O3 nanoparticles in water, considering thermal radiation, joule heating, and Darcy-Forchheimer porous medium effects. The 53.7 KB dataset, last updated in May 2026, contains files generated from similarity transformations of governing partial differential equations.
Use Cases
Validating numerical solvers for magnetohydrodynamic (MHD) flows based on the described governing equations.
Studying heat transfer enhancement in hybrid nanofluids based on the inclusion of Cu-Al2O3 nanoparticles.
Analyzing the combined effects of thermal radiation and joule heating on fluid flow and temperature profiles.
Investigating flow resistance and behavior in porous media using the Darcy-Forchheimer model described.
Strengths
Dataset is openly shared under a permissive CC-BY-4.0 license.
Specific physical phenomena are modeled, including thermal radiation, joule heating, and activation energy.
Files are provided in common formats (DOCX, XLSX) for accessibility.
Limitations
The dataset is very small at 53.7 KB, indicating limited scope or a highly specialized case study.
Row count and column-level documentation are absent, requiring manual inspection after download.
Description metadata is limited; actual data quality and structure require verification.
Provenance
Source
figshare
Collection Method
Results from computational analysis using similarity transformations on governing equations.
Freshness
Last updated 2026-05-05 09:28:58
Data is provided in DOCX and XLSX formats, which may require specific software to open and parse.