Effects of pre-ozonation and chemical coagulation on the removal of turbidity, color, TOC, and chlorophyll a from drinking water

Masoomi, Bahman; Jaafarzadeh, Neemat; Tabatabaie, Tayebeh; Kouhgardi, Esmaeil; Jorfi, Sahand

doi:10.15171/ehem.2019.06

Cited by 8 publications

(3 citation statements)

References 20 publications

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“…As a result of these mechanisms, the amount of turbidity was also significantly reduced. The released ions (Al 3+ , H + , and OH -) based on electric charge neutralization mechanism neutralized the electric charge of the particles and thus coagulation process was formed (35). The removal efficiency of any pollutant directly depends on the concentration of ions presented in the solution and reaction time.…”

Section: Discussionmentioning

confidence: 99%

Evaluation of the efficiency of electrocoagulation process in removing cyanide, nitrate, turbidity, and chemical oxygen demand from landfill leachate

Amouei

Pouramir

Asgharnia

et al. 2021

Environ Health Eng Manag

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Background: Leachate contains toxic and non-biodegradable substances that are not easily treated by conventional treatment methods. This study investigated the effect of pH, current density, and reaction time parameters on the removal of cyanide (CN- ), nitrate (NO3- ), turbidity, and chemical oxygen demand (COD) from leachate by electrocoagulation process. Methods: This study was an experimental one with direct current using four parallel bipolar aluminum electrodes with 90% purity. The length, width, and thickness of the electrodes were 5 cm, 10 cm, and 2 mm, respectively. There were 6 holes with a diameter of 0.7 cm on each of the electrodes. The samples were prepared from the old leachate of solid waste landfill in Ghaemshahr, Iran. Results: In this study, at a current density of 33 mA/cm2 and a time of 60 minutes, the optimum removal efficiency of cyanide (100 %) was obtained at pH 5.5 and pH 10. Moreover, the maximum removal of nitrate (99.65 %) and turbidity (86.41 %) were at pH 5.5 and pH 8.3, respectively and the highest removal efficiency of COD (83.14 %) was obtained at pH 10. Conclusion: The results showed that the removal of cyanide, nitrate, turbidity, and COD increases with increasing current density and reaction time. Due to the proper removal of nitrate and cyanide from leachate by electrocoagulation, nitrate and cyanide amounts were less than the allowable contamination level. Based on the results, electrocoagulation is considered an efficient and effective method for removing nitrate and cyanide from old leachate of municipal solid wastes.

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Section: Discussionmentioning

confidence: 99%

Evaluation of the efficiency of electrocoagulation process in removing cyanide, nitrate, turbidity, and chemical oxygen demand from landfill leachate

Amouei

Pouramir

Asgharnia

et al. 2021

Environ Health Eng Manag

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“…Berdasarkan hasil penelitian Yan & Wu (2014) menambahkan bahwa adanya kemungkinan dari saturasi air terhadap ozon (sehingga tidak menghasilkan cukup radikal hidroksil) yang menginduksi senyawa organik terlarut dan meningkatkan warna. Di sisi lain, jika suhu >35℃ dapat menyebabkan ozon cenderung sulit terlarut dan kurang efektif menyisihkan warna (Masoomi et al, 2019). Dapat disederhanakan bahwa penyisihan warna dengan ozonasi bergantung pada radikal hidroksil yang tercipta (Bismo, 2010).…”

Section: Gambar 5 Perubahan Warna Setelah Proses Ozonasiunclassified

“…Dapat dikatakan bahwa penyisihan warna paling optimal mampu dicapai saat dosis ozon rendah. Nilai tersebut sedikit lebih besar dari hasil penelitian Masoomi et al (2019) yang hanya mampu menyisihkan warna 32,13% dengan konsentrasi ozon 5g/jam setelah 20 menit.…”

Section: Gambar 5 Perubahan Warna Setelah Proses Ozonasiunclassified

Preozonasi Sebagai Pretreatment Air Baku: Studi Kasus Instalasi Pengolahan Air Minum (IPAM) Ngagel I Kota Surabaya

Ibnu Luthfi Saud,

Nurhayati

2023

envirotek

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Semakin menurunnya kualitas air sungai sebagai air baku air minum membawa tantangan tersendiri bagi PDAM agar instalasi pengolahan air (IPA) yang ada tetap bisa mengolah air dengan baik. Salah satu yang dapat dilakukan adalah dengan melakukan pretreatment sebelum air diolah di IPA. Salah satu teknologi pretreatment yang dapat diterapkan adalah preoksidasi dengan menggunakan ozon yang disebut dengan preozonasi. Penelitian ini bertujuan untuk menganalisis pengaruh penambahan preozonasi, sebagai bentuk pretreatment air baku, terhadap perubahan parameter pH, warna, kekeruhan, TSS, COD, dan amonia. Metedologi dalam penelitian ini adalah dengan menginjeksi ozon ke dalam sampel air (effluent bak prasedimentasi IPAM Ngagel I) dengan variasi laju alir (1, 2, dan 3 L/min) serta variasi waktu kontak (10, 20, dan 30 menit). Berdasarkan penelitian yang dilakukan, didapatkan bahwa preozonasi mampu menyisihkan kekeruhan (3%), warna (4%), TSS (0%), COD (26%), dan amonia (35%) serta pH yang sedikit meningkat (mendekati kondisi netral). Penyisihan tersebut didapatkan dengan cukup menggunakan variasi laju alir sebesar 2,6 L/min dan waktu kontak selama 30 menit. Preozonasi signifikan dalam menyisihkan parameter kimia (COD dan amonia) dan tidak terlalu berpengaruh terhadap parameter fisik (kekeruhan, warna, dan TSS). Dengan penambahan preozonasi ini diharapkan dapat meringankan beban pengolahan selanjutnya yaitu unit koagulasi dan flokulasi sehingga dapat mengurangi konsumsi koagulan

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An improved CFD modeling approach applied for the simulation of gas–liquid interaction in the ozone contactor along with structure optimization

Chen

Yao

Jiang

et al. 2020

Chemical Engineering Journal

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Effects of pre-ozonation and chemical coagulation on the removal of turbidity, color, TOC, and chlorophyll a from drinking water

Cited by 8 publications

References 20 publications

Evaluation of the efficiency of electrocoagulation process in removing cyanide, nitrate, turbidity, and chemical oxygen demand from landfill leachate

Evaluation of the efficiency of electrocoagulation process in removing cyanide, nitrate, turbidity, and chemical oxygen demand from landfill leachate

Preozonasi Sebagai Pretreatment Air Baku: Studi Kasus Instalasi Pengolahan Air Minum (IPAM) Ngagel I Kota Surabaya

An improved CFD modeling approach applied for the simulation of gas–liquid interaction in the ozone contactor along with structure optimization

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