Experimental Evaluation of Bio-Carrier Morphology for Improved Agricultural Wastewater Treatment in Attached Growth Systems
Heikal, G., Ahmed, M., Helm, A. (2024). Experimental Evaluation of Bio-Carrier Morphology for Improved Agricultural Wastewater Treatment in Attached Growth Systems. EKB Journal Management System, 48(1), 1-8. doi: 10.21608/eijest.2024.274362.1263
Ghada Heikal; Mostafa Ahmed; Ahmed Helm. "Experimental Evaluation of Bio-Carrier Morphology for Improved Agricultural Wastewater Treatment in Attached Growth Systems". EKB Journal Management System, 48, 1, 2024, 1-8. doi: 10.21608/eijest.2024.274362.1263
Heikal, G., Ahmed, M., Helm, A. (2024). 'Experimental Evaluation of Bio-Carrier Morphology for Improved Agricultural Wastewater Treatment in Attached Growth Systems', EKB Journal Management System, 48(1), pp. 1-8. doi: 10.21608/eijest.2024.274362.1263
Heikal, G., Ahmed, M., Helm, A. Experimental Evaluation of Bio-Carrier Morphology for Improved Agricultural Wastewater Treatment in Attached Growth Systems. EKB Journal Management System, 2024; 48(1): 1-8. doi: 10.21608/eijest.2024.274362.1263

Experimental Evaluation of Bio-Carrier Morphology for Improved Agricultural Wastewater Treatment in Attached Growth Systems

The Egyptian International Journal of Engineering Sciences and Technology
Volume 48, Issue 1, December 2024, Page 1-8  XML PDF (1.26 MB)
Document Type: Original Article
DOI: 10.21608/eijest.2024.274362.1263
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Authors
Ghada Heikal email orcid 1; Mostafa Ahmed2; Ahmed Helm3
1Environmental Engineering Department, Faculty of Engineering, Zagazig University, Zagazig, Egypt
2Department of Civil Engineering, pyramids higher institute for engineering and technology, Egypt.
3Civil Engineering Department, International Academy for Engineering and Media Science
Abstract
In the field of wastewater treatment, the need for efficient and sustainable solutions is perpetual. This study delves into the efficacy of attached growth systems, a burgeoning approach that capitalizes on microbial communities immobilized on various substrates, in addressing diverse wastewater treatment challenges. Biofilm reactors natural tendency to form structured communities on solid surfaces. By investigating the geometry of biocarriers in these systems, this study evaluates the factors influencing treatment efficiency. We employed experimental trials, focusing on media length and surface area, utilizing high-density polyethylene (HDPE) tubing sections of varying dimensions. Results indicate that perforated biocarriers outperform hollow biocarriers, showcasing superior organic matter removal efficiencies, attributed to their larger surface area and enhanced mass transfer capabilities. Additionally, biofilm growth was found to correlate directly with surface area, as greater attachment sites foster denser and more resilient biofilms. The concentration of microbial activity towards the edges of the media suggests their pivotal role in nutrient removal. Overall, this study underscores the significance of biocarrier geometry in enhancing treatment performance and advancing the sustainability of attached growth-based wastewater treatment processes.
Keywords
MBBRs; Nutrients; Biofilm; Bio-carriers; Surface area; Biofilm growth
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