陈 (2026) Overland flow dynamics on a cracked soil slope under drying-wetting cycles: insights from infrared thermal imaging

Identification

• Journal: Mendeley Data
• Year: 2026
• Date: 2026-04-14
• Authors: 婷婷 陈
• DOI: 10.17632/2hmdkgfrc4.1

Research Groups

Nanjing University

Short Summary

This dataset provides experimental measurements of overland flow dynamics on a cracked soil slope under drying-wetting cycles, offering data for insights into these complex hydrological processes.

Objective

• To provide a comprehensive dataset of experimental measurements to investigate overland flow dynamics on cracked soil slopes subjected to drying-wetting cycles, utilizing infrared thermal imaging techniques.

Study Configuration

• Spatial Scale: Laboratory-scale cracked soil slope.
• Temporal Scale: Measurements collected over multiple drying-wetting cycles.

Methodology and Data

• Models used: Not applicable (dataset description).
• Data sources: Experimental measurements from a laboratory setup, including data likely derived from infrared thermal imaging.

Main Results

• The dataset contains detailed experimental measurements of overland flow dynamics on a cracked soil slope under varying drying-wetting conditions.

Contributions

• Provides a novel and specific dataset for studying the intricate interactions between soil cracking, drying-wetting cycles, and overland flow, which can be used to validate models or develop new understanding in soil hydrology.

Funding

• Not specified in the provided text.

Citation

@article{陈2026Overland,
  author = {陈, 婷婷},
  title = {Overland flow dynamics on a cracked soil slope under drying-wetting cycles: insights from infrared thermal imaging},
  journal = {Mendeley Data},
  year = {2026},
  doi = {10.17632/2hmdkgfrc4.1},
  url = {https://doi.org/10.17632/2hmdkgfrc4.1}
}