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  • The Pennsylvania State University
  • University Park, PA
  • X @WeiZhiWater

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WeiZhiWater/README.md

Wei Zhi

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I am an assistant research professor in the Department of Civil & Environmental Engineering at Penn State University, University Park. My research interests focus on Critical Zone Science and Watershed Hydro-biogeochemistry. More specifically, I am interested in understanding how water moves and interacts with other components in natural environments. Ultimately, I aim to understand and forecast water quantity and quality at the watershed- and continental-scale, using both the process-based reactive transport model and the data-driven machine (deep) learning model.


Academic Profiles:


Research

Continential-scale water quality modelling & analysis

  • 2021, From Hydrometeorology to River Water Quality: Can a Deep Learning Model Predict Dissolved Oxygen at the Continental Scale?
  • 2020, The Shallow and Deep Hypothesis: Subsurface Vertical Chemical Contrasts Shape Nitrate Export Patterns from Different Land Uses

Watershed-scale hydro-biogeochemicy & reactive transport modelling

Wetland biogeochemistry, nitrogen transformation, and microbial community analysis

  • 2015, Enhanced Long-term Nitrogen Removal and Its Quantitative Molecular Mechanism in Tidal Flow Constructed Wetlands
  • 2014, Quantitative Response Relationships Between Nitrogen Transformation Rates and Nitrogen Functional Genes in a Tidal Flow Constructed Wetland under C/N Ratio Constraints
  • 2014, Methods for understanding microbial community structures and functions in microbial fuel cells: A review
  • 2012, Constructed wetlands, 1991ā€“2011: A review of research development, current trends, and future directions

Pinned Loading

  1. PSUmodeling/BioRT-Flux-PIHM PSUmodeling/BioRT-Flux-PIHM Public

    Watershed Biogeochemistry Model (the biogeochemical reactive transport model of PIHM family code)

    C 7 8

  2. Significant-stream-chemistry-response-to-temperature-variations-in-a-mountain-watershed Significant-stream-chemistry-response-to-temperature-variations-in-a-mountain-watershed Public

    High-elevation mountain regions, central to global freshwater supply, are experiencing more rapid warming than low-elevation locations. High-elevation streams are therefore potentially critical indā€¦

    MATLAB 1

  3. CAMELS-Chem-DO-dataset CAMELS-Chem-DO-dataset Public

    The newly developed dataset, CAMELS-Chem, compiles USGS water chemistry and instantaneous discharge from 1980 through 2014 in 493 headwater catchments. It includes common stream water chemistry relā€¦

    1 2

  4. The-Shallow-and-Deep-hypothesis-Subsurface-Vertical-Chemical-Contrasts-Shape-Nitrate-Export-Pattern The-Shallow-and-Deep-hypothesis-Subsurface-Vertical-Chemical-Contrasts-Shape-Nitrate-Export-Pattern Public

    This work tests the shallow and deep hypothesis: subsurface vertical chemical contrasts regulate nitrate export patterns under different land use conditions. We synthesized data from 228 watershedsā€¦

    1