Warianty tytułu
Języki publikacji
Abstrakty
In order to use alum in large numbers for the treatment of low turbidity water, a novel method has been used to treat low turbidity water using bentonite with a reduced amount of alum. Given that bentonite has a negative charge, it is added to the raw water to give the blocks weight. The weight is then added by joining the blocks together to create massive blocks that settle more quickly. In addition to providing a large surface for organic compound adsorption, it increases the suspension’s weight and particle density. There are between 10 and 50 mg/l of bentonite clay utilized.In the Karbala water treatment plant, the effectiveness of the water quality index (WQI) at turbidity 20NTU (national turbidity unit) using alum alone was subpar (71.16%). Under the same circumstances, the pilot plant’s WQI efficiency was equally low (72%). The turbidity of the water was increased to 120 NTUwhen bentonite was used in the pilot plant, increasing the efficiency of WQI to 97.2%. When bentonite was added to the water, the turbidity was increased to 200 NTU and the WQI efficiency was increased to 98.9%. The usage of bentonite produced a high level of WQI efficiency and a cheap substance free from infections or negative effects.
Słowa kluczowe
Rocznik
Tom
Strony
249--257
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
- College of Engineering, AL-Qasim Green University, Babylon 51031, Iraq
- Faculty of Engineering, University of Kufa, Al-Najaf, Iraq
autor
- Biochemical Engineering Department, Al-khwarizmi College of Engineering, University of Baghdad, Iraq
autor
- College of Engineering, AL-Qasim Green University, Babylon 51031, Iraq
autor
- College of Engineering, AL-Qasim Green University, Babylon 51031, Iraq, ahmednamesamir@yahoo.com
Bibliografia
- 1. Abbas R.N., Abbas A.S. 2022. Kinetics and energetic parameters study of phenol removal from aqueous solution by electro-fenton advanced oxidation using modified electrodes with PbO2 and graphene. Iraqi Journal of Chemical and Petroleum Engineering, 23(2), 1–8.
- 2. Abd-almohi, H.H., Alismaeel, Z.T., M-Ridha, M. J.2022. Study of microbial desalination cell performance; power generation and desalination efficiency using pure oxygen in a cathode chamber, Al-Khwarizmi Engineering Journal, 18(3), 37-47.
- 3. Amirtharajah A., Mills K.M. 1982. Rapid-mix design for mechanisms of alum coagulation. AWWA 74, 210–216.
- 4. Alhayani, B., Abbas, S.T., Mohammed, H.J. et al. 2021. Intelligent secured two-way image transmission using corvus corone module over WSN. Wireless Pers Commun, 120(665-700).
- 5. Cao, C., Zhou, F. Zhang, Z. et al. 2013. Preparation and evaluation of high yield sodium-modified calcium base bentonite. Earth Science Frontiers, 20(5), 220–226.
- 6. Chaturvedi, M.K., Bassin, J.K., 2009. Assessing the water quality index of water treatment plant and bore wells, in Delhi, India. Environmental MonitoringAssessment, 163, 449–453.
- 7. Cohen J.M., Hannah S.A. 1971. Coagulation and Flocculation. Water quality and Treatment 3d. Mc Graw-Hill, New York.
- 8. Driscoll C.T., Letterman R.D. 1995. Factors regulating residual aluminum concentrations in treated water. Environmetric, 6(3), 287-305.
- 9. Fadhil O.H., Eisa M.Y., Salih D.A., Nafeaa Z.R. 2021. Adsorption of indigo carmen dye by using corn leaves as natural adsorbent material. Al-Khwarizmi Engineering Journal, 17(1), 43- 50.
- 10. Hasan H.S., Abdallah A.A., Khan I. et al. 2021. Novel unilateral dental expander appliance (udex): a compound innovative materials.Computers, Materials & Continua, 68(3), 3499–3511.
- 11. Idan F.K., Obyed S.M. 2019. Treatment of waste extract lubricating oil by catalytic cracking process to produce light fractions. Al-Khwarizmi Engineering Journal, 15(2), 100- 107.
- 12. Japan International Cooperation Agency, 2014. Profile on environmental and social considerations in Iraq, Report.
- 13. Joshi D.M., Kumar A., Agrawal N. 2009. Studies on physicochemical parameters to assess the water quality of river Ganga for drinking purpose in Hardwar district. Rasayan Journal Chem, 2(1), 195-203.
- 14. McLachlan D.R.C. 1995. Aluminum and the risk for Alzheimer’s disease. Environmetric, 6(3), 233–275.
- 15. Mishra P.C., Patel R.K. 2001. Quality of drinking water Rourkela, Outside the steel township .journal of Environment and Pollution, 8(2), 165-169.
- 16. Mohammed M.A., Noori W.O., Sabbar H. A. 2020. Application of emulsion liquid membrane process for cationic dye extraction. Iraqi Journal of Chemical and Petroleum Engineering, 21(3), 39–44.
- 17. Murray H.H. 2000. Traditional and new applications for kaolin,smectite, and palygorskite: a general overview. Applied Clay Science, 17, 207–221.
- 18. Pan, J.R., Huang C., Chen S., & Chung, Y.C. 1999. Evaluation of modified chitosan biopolymer for coagulation of colloidal particles. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 147, 359–364.
- 19. Sharma D., Kansal A. 2011. Water quality analysis of RI Yamuna using water quality index in the national capital territory. India.Applied Water Science, 1, 147-157.
- 20. Sabbar H.A., Noori W.O., Naje A.S. 2020. Dye removal by membrane technology for wastewater treatment using a cationic carrier. Pertanika J. Sci. Technol, 28(1), 353-397.
- 21. Weber J.W. 1972. Physicochemical Processes for Water Quality Control. John Wiley & Sons, New York.
- 22. Yi F.C., Yang J. 1999. The properties and preparation of water purifying agent with bentonite Multipurpose Utilization of Mineral Resources, 27–28.
- 23. Zeng X.Q., Liu W. P. 2001.Advance in synthesis of inorgano-organo-montmorillonites and their utilization in water treatment. Techniques and Equipment for Environmental Pollution Control, 2( 2), 9–10.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.baztech-2da52138-8765-4e4d-a36d-f76bbaf01d55