Abbas, M. N., Al-Tameemi, I. M., Hasan, M. B., & Al-Madhhachi, A. S. T. (2020). Chemical Removal of Cobalt and Lithium in Contaminated Soils using Promoted White Eggshells with Different Catalysts. S Afr J Chem Eng., 35; 23-32.
Antov, M. G., Šćiban, M. B., & Petrović, N. J. J. B. t. (2010). Proteins from common bean (Phaseolus vulgaris) seed as a natural coagulant for potential application in water turbidity removal. j.biortech., 101(7); 2167-2172.
Antov, M. G., Šćiban, M. B., & Prodanović, J. M. (2012). Evaluation of the efficiency of natural coagulant obtained by ultrafiltration of common bean seed extract in water turbidity removal. Ecological Engineering, 49, 48-52.
APHA (American Public Health Association), (1998), “Standard Methods for the Examination of Water and Wastewater”, 20th. APHA, AWWA, WEF, Washington DC, USA.
Bondy, S. C. (2016). Low levels of aluminum can lead to behavioral and morphological changes associated with Alzheimer’s disease and age-related neurodegeneration. Neuro Toxicology., 52; 222–229.
Bradford, M. M. (1976). A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal. Biochem., 72 (1-2); 248–254.
Braga, N., Rodrigues, F., Oliveira, M.B.P.P. (2014). Castanea sativa by-products: A review on added value and sustainable application. Nat. Prod. Res. 29, 1–18.
Cho, M.-H., Lee, C.-H., & Lee, S. (2006). Effect of flocculation conditions on membrane permeability in coagulation–microfiltration. Desalination, 191(1); 386-396.
Choy, S. Y., Prasad, K. N., Wu, T. Y., Raghunandan, M. E., & Ramanan, R. N. (2016). Performance of conventional starches as natural coagulants for turbidity removal. Ecological Engineering, 94, 352-364.
Dhivya, S., Ramesh, S. T., Gandhimathi, R., & Nidheesh, P. V. (2017). Performance of Natural Coagulant Extracted from Plantago ovata Seed for the Treatment of Turbid Water. Water, Air, & Soil Pollution, 228(11); 423.
Du, Q., Wei, H., Li, A., & Yang, H. (2017). Evaluation of the starch-based flocculants on flocculation of hairwork wastewater. The Science of the total environment, 601, 1628.
Folens, K., Huysman, S., Van Hulle, S., & Du Laing, G. (2017). Chemical and economic optimization of the coagulation-flocculation process for silver removal and recovery from industrial wastewater. Separation and Purification Technology, 179; 145-151.
Foroughi, M., Chavoshi, S., Bagheri, M., Yetilmezsoy, K., & Samadi, M. T. (2018). Alum-based sludge (AbS) recycling for turbidity removal in drinking water treatment: an insight into statistical, technical and health-related standpoints. Journal of Material Cycles and Waste Management, 1-19.
Ghernaout, D. (2013). The hydrophilic/hydrophobic ratio vs. dissolvedorganics removal by coagulation – A review. J. King Saud Univ. Sci., 26(3); 169-180.
Hasan, M. B., Al-Tameemi, I. M., & Abbas, M. N. (2021). Orange Peels as a Sustainable Material for Treating Water Polluted with Antimony. JEE., 22(2); 25-35.
Huang, M., Liu, Z., Li, A., & Yang, H. (2017). Dual functionality of a graft starch flocculant: Flocculation and antibacterial performance. Journal of Environmental Management, 196, 63-71.
Krishnaiah, D., Bono, A., Sarbatly, R., & Anisuzzaman, S. M. (2015). Antioxidant activity and total phenolic content of an isolated Morinda citrifolia L. methanolic extract from Poly-ethersulphone (PES) membrane separator. J. King Saud Univ. Eng. Sci., 27(1); 63-67.
Kukić, D. V., Šćiban, M. B., Prodanović, J. M., Tepić, A. N., & Vasić, M. A. (2015). Extracts of fava bean (Vicia faba L.) seeds as natural coagulants. Ecological Engineering, 84, 229-232.
Liu, Z., Huang, M., Li, A., & Yang, H. (2017). Flocculation and antimicrobial properties of a cationized starch. Water research, 119, 57-66.
Marialuisa, F., Alessandro, V., Simona, P., Serena, C., Monica, I. C., Christian, Z., & Severina, P. (2022). Castanea sativa Mill. Leaf: UHPLC-HR MS/MS Analysis and Effects on In Vitro Rumen Fermentation and Methanogenesis. Molecules, 27 (24); 8662.
Mohana, M. H., Hammood, Z. A., & Hasan, M. B. (2020). Pomegranate peel as adsorbent for Zn removal from aqueous media. J.Green Eng., 10(5); 2257-2266.
Oladoja, N. A. (2015). Headway on natural polymeric coagulants in water and wastewater treatment operations. Journal of Water Process Engineering, 6, 174-192.
S´ciban, M., Klasnja, M., Antov, M., & Skrbi´c, B. (2009). Removal of water turbidity by natural coagulants obtained from chestnut and acorn. Bioresour. Technol., 100(24); 6639–6643.
Savi, B., & Lee, D. W. (2016). Investigation of Self-Assembly Processes for Chitosan-Based Coagulant-Flocculant systems: A Mini-Review. Int. J. Mol. Sci., 17(10); 1662.
Shamsnejati, S., Chaibakhsh, N., Pendashteh, A. R., & Hayeripour, S. (2015). Mucilaginous seed of Ocimum basilicum as a natural coagulant for textile wastewater treatment. Industrial Crops and Products, 69, 40-47.
Shokoohi, R., Asgari, G., Leili, M., Khiadani, M., Foroughi, M., & Hemmat, M. S. (2017). Modelling of moving bed biofilm reactor (MBBR) efficiency on hospital wastewater (HW) treatment: a comprehensive analysis on BOD and COD removal. International Journal of Environmental Science and Technology, 14(4); 841-852.
Subramonian, W., Wu, T. Y., & Chai, S. P. (2014). A comprehensive study on coagulant performance and floc characterization of natural Cassia obtusifolia seed gum in treatment of raw pulp and paper mill effluent. Industrial Crops and Products, 61, 317-324.
Teh, C. Y., Wu, T. Y., & Juan, J. C. (2014). Optimization of agro-industrial wastewater treatment using unmodified rice starch as a natural coagulant. Industrial Crops and Products, 56, 17-26.
Vishali, S., & Karthikeyan, R. (2014). Cactus opuntia (ficus-indica): An eco-friendly alternative coagulant in the treatment of paint effluent. Desalin. Water Treat., 56(6); 1489–1497.
Witek-Krowiak, A., Chojnacka, K., Podstawczyk, D., Dawiec, A., & Pokomeda, K. (2014). Application of response surface methodology and artificial neural network methods in modelling and optimization of biosorption process. Bioresource Technology, 160, 150-160.
Wu, H., Liu, Z., Yang, H., & Li, A. (2016). Evaluation of chain architectures and charge properties of various starch-based flocculants for flocculation of humic acid from water. Water research, 96, 126-135.
Zahrim, A. Y., Tizaoui, C., & Hilal, N. (2011). Coagulation with polymers for nanofiltration pre-treatment of highly concentrated dyes: A review. Desalination., 266 (1-3); 1–16.
Zia, F., Zia, K. M., Zuber, M., Kamal, S., & Aslam, N. (2015). Starch based polyurethanes: a critical review updating recent literature. Carbohydrate polymers, 134, 784-798.