Optimization of rice husk ash, Moringa oleifera powder, biochar, and okra seed powder for turbidity and color removal in the Turag and Buriganga Rivers using response surface methodology

Optimization of rice husk ash, Moringa oleifera powder, biochar, and okra seed powder for turbidity and color removal in the Turag and Buriganga Rivers using response surface methodology

Water pollution from untreated industrial and municipal effluents poses a growing concern in developing countries, particularly in major rivers such as the Turag and Buriganga in Bangladesh. This study evaluates the use of natural coagulants, including Rice Husk Ash (RHA), Moringa oleifera powder (M...

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Main Authors: Md. Habibur Rahman Bejoy Khan, Tahmeed Ahmed, Amimul Ahsan, Md. Rezaul Karim, Fuad Bin Nazrul, Chowdhury Sakif Ahbab, Md. Wali Ullah Riman, Md. Tajbiul Haque Auni, Md. Reduan Rahman
Format: Article
Language:English
Published: Elsevier 2025-06-01
Series:Results in Engineering
Subjects:
Natural coagulants
Turbidity removal
Rice husk ash
Moringa oleifera
Response surface methodology
Sustainable water treatment
Online Access:http://www.sciencedirect.com/science/article/pii/S2590123025008552
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Summary:Water pollution from untreated industrial and municipal effluents poses a growing concern in developing countries, particularly in major rivers such as the Turag and Buriganga in Bangladesh. This study evaluates the use of natural coagulants, including Rice Husk Ash (RHA), Moringa oleifera powder (MOP), Biochar (BC), and Okra Seed Powder (OSP), to remove turbidity and color from polluted waters. Using Response Surface Methodology (RSM), optimal coagulant dosages and post-filtration durations were identified. The study also assessed adsorption kinetics using the pseudo-second-order kinetic model. Results revealed that RHA and MOP achieved superior removal efficiencies compared to BC and OSP. For the Turag River, RHA removed 67.38 % of color and 55.75 % of turbidity at an optimal dosage of 20 mg/L and a 2-hour post-filtration duration. MOP achieved 66.26 % turbidity removal and 55.85 % color removal under the same conditions. In contrast, the Buriganga River required higher dosages and longer post-filtration durations due to its higher pollutant load. RHA achieved 61.79 % color removal and 33.87 % turbidity removal at 40 mg/L and 4 h. BC and OSP performed modestly, with maximum color removal efficiencies of 38.39 % and 33.78 %, respectively, under similar conditions. The pseudo-second-order kinetic model (R² > 0.9) confirmed chemisorption as the dominant mechanism. RSM regression models highlighted significant interaction effects between dosage and duration, emphasizing the importance of source-specific treatment strategies. These findings establish natural coagulants as cost-effective, sustainable alternatives to conventional treatment methods. Further research should focus on scalability, long-term impacts, and integration with other technologies to enhance performance in real-world applications.
ISSN:2590-1230

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