19.0 KB of tabular data from a wind–sand two-phase flow study investigating overturning loads on standalone photovoltaic panels. The dataset, authored by Di Hu and last updated in April 2026, likely contains results on the effects of wind speed, direction, panel tilt, and ground clearance. These results can guide support design and safety assessments for PV structures in sandy environments.
Use Cases
- Training predictive models for overturning load based on wind speed and direction parameters mentioned in the description
- Optimizing panel tilt angle and ground clearance for structural safety based on the study's investigated factors
- Benchmarking aerodynamic and particle collision forces for PV panel support design in desert environments
Strengths
- Data is focused on a specific, high-impact engineering problem: overturning safety of PV panels in sandy environments
- Released under a permissive CC-BY-4.0 license, allowing for broad reuse and modification
- File is provided in the widely compatible XLSX format, accessible with common tools
Limitations
- Row count is unknown, which may limit suitability assessment for machine learning tasks
- Column-level documentation is absent; field semantics must be inferred after download
- The dataset is very small at 19.0 KB, indicating a limited scope of experimental results
Provenance
- Source
- figshare, authored by Di Hu
- Collection Method
- Generated via a wind–sand two-phase flow approach for investigating coupled overturning loads
- Time Range
- null
- Freshness
- Last updated 2026-04-27 03:26:40; freshness should be verified
- Geography
- Desert and Gobi regions (inferred from the study's environmental focus)