Testing and optimizing a biofiltration module that uses a high surface area novel 3D -printed media for microorganism attachment and development as part of a new biofiltration device to enhance nutrient (N and P) removal from urban and agricultural runoff.
Location
Russell Union 2084
Session Format
Oral Presentation
Co-Presenters and Faculty Mentors or Advisors
Mentor- Prof. Francisco Cubas Suazo
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.
Presentation Type and Release Option
Presentation (File Not Available for Download)
Start Date
4-24-2025 1:30 PM
End Date
4-24-2025 2:30 PM
Recommended Citation
Dunn, Sachin, "Testing and optimizing a biofiltration module that uses a high surface area novel 3D -printed media for microorganism attachment and development as part of a new biofiltration device to enhance nutrient (N and P) removal from urban and agricultural runoff." (2025). GS4 Georgia Southern Student Scholars Symposium. 189.
https://digitalcommons.georgiasouthern.edu/research_symposium/2025/2025/189
Testing and optimizing a biofiltration module that uses a high surface area novel 3D -printed media for microorganism attachment and development as part of a new biofiltration device to enhance nutrient (N and P) removal from urban and agricultural runoff.
Russell Union 2084
