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Effective coagulation-flocculation treatment of highly polluted palm oil mill biogas plant wastewater using dual coagulants: Decolourisation, kinetics and phytotoxicity studies
A.Y. Zahrim,
Z.D. Dexter,
C.G. Joseph,
N. Hilal,
Nidal Hilal
Journal of Water Process Engineering, Volume: 16, Pages: 258 - 269
Swansea University Author: Nidal Hilal
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DOI (Published version): 10.1016/j.jwpe.2017.02.005
Abstract
The performance of several chemical coagulants including ferric chloride, calcium lactate, magnesium hydroxide, aluminium chlorohydrate, and polydiallyldimethylammonium chloride (polyDADMAC) were investigated in removing colour of palm oil mill biogas plant wastewater (POMBPW). The results show that...
Published in: | Journal of Water Process Engineering |
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ISSN: | 2214-7144 |
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Elsevier
2017
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URI: | https://cronfa.swan.ac.uk/Record/cronfa32039 |
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2017-03-02T13:13:22.2774648 v2 32039 2017-02-22 Effective coagulation-flocculation treatment of highly polluted palm oil mill biogas plant wastewater using dual coagulants: Decolourisation, kinetics and phytotoxicity studies 3acba771241d878c8e35ff464aec0342 Nidal Hilal Nidal Hilal true false 2017-02-22 FGSEN The performance of several chemical coagulants including ferric chloride, calcium lactate, magnesium hydroxide, aluminium chlorohydrate, and polydiallyldimethylammonium chloride (polyDADMAC) were investigated in removing colour of palm oil mill biogas plant wastewater (POMBPW). The results show that ferric chloride as a sole coagulant can achieve high colour removal of more than 80% without needed for pH adjustment, which indicates the effectiveness of the coagulant to treat palm oil mill biogas plant wastewater (POMBPW).However, dual coagulants i.e. ferric chloride-anionic polyacrylamide (APAM) shows better performance than ferric chloride-polyDADMAC in terms of colour removal, pH, with shorter sedimentation time. The addition of polymer to system not only reduces the ferric chloride dosage, but also increases the colour removal of more than 20%. Comparison between APAM and polyDADMAC as flocculant aids shows that APAM can achieve stable removal at wider pH range and lowest sedimentation time at 20 min while polyDADMAC was at one hour. Both dual coagulants were followed second order kinetic and APAM shows the highest rate over polyDADMAC i.e. 3 × 10−5/PtCo.min and 2 × 10−5/PtCo.min respectively. Addition of polymers reduced phytotoxicity of generated sludge and the sludge has potential to be reused for land application. Journal Article Journal of Water Process Engineering 16 258 269 Elsevier 2214-7144 Biogas; Decolourisation; Palm oil mill; Dual coagulants; Physico-chemical treatment 30 4 2017 2017-04-30 10.1016/j.jwpe.2017.02.005 COLLEGE NANME Science and Engineering - Faculty COLLEGE CODE FGSEN Swansea University 2017-03-02T13:13:22.2774648 2017-02-22T14:25:27.3835926 Faculty of Science and Engineering School of Engineering and Applied Sciences - Uncategorised A.Y. Zahrim 1 Z.D. Dexter 2 C.G. Joseph 3 N. Hilal 4 Nidal Hilal 5 0032039-22022017142947.pdf RevisedYAZ.pdf 2017-02-22T14:29:47.9230000 Output 1233790 application/pdf Accepted Manuscript true 2018-03-02T00:00:00.0000000 false eng |
title |
Effective coagulation-flocculation treatment of highly polluted palm oil mill biogas plant wastewater using dual coagulants: Decolourisation, kinetics and phytotoxicity studies |
spellingShingle |
Effective coagulation-flocculation treatment of highly polluted palm oil mill biogas plant wastewater using dual coagulants: Decolourisation, kinetics and phytotoxicity studies Nidal Hilal |
title_short |
Effective coagulation-flocculation treatment of highly polluted palm oil mill biogas plant wastewater using dual coagulants: Decolourisation, kinetics and phytotoxicity studies |
title_full |
Effective coagulation-flocculation treatment of highly polluted palm oil mill biogas plant wastewater using dual coagulants: Decolourisation, kinetics and phytotoxicity studies |
title_fullStr |
Effective coagulation-flocculation treatment of highly polluted palm oil mill biogas plant wastewater using dual coagulants: Decolourisation, kinetics and phytotoxicity studies |
title_full_unstemmed |
Effective coagulation-flocculation treatment of highly polluted palm oil mill biogas plant wastewater using dual coagulants: Decolourisation, kinetics and phytotoxicity studies |
title_sort |
Effective coagulation-flocculation treatment of highly polluted palm oil mill biogas plant wastewater using dual coagulants: Decolourisation, kinetics and phytotoxicity studies |
author_id_str_mv |
3acba771241d878c8e35ff464aec0342 |
author_id_fullname_str_mv |
3acba771241d878c8e35ff464aec0342_***_Nidal Hilal |
author |
Nidal Hilal |
author2 |
A.Y. Zahrim Z.D. Dexter C.G. Joseph N. Hilal Nidal Hilal |
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Journal of Water Process Engineering |
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16 |
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258 |
publishDate |
2017 |
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Swansea University |
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2214-7144 |
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10.1016/j.jwpe.2017.02.005 |
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Elsevier |
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Faculty of Science and Engineering |
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Faculty of Science and Engineering |
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description |
The performance of several chemical coagulants including ferric chloride, calcium lactate, magnesium hydroxide, aluminium chlorohydrate, and polydiallyldimethylammonium chloride (polyDADMAC) were investigated in removing colour of palm oil mill biogas plant wastewater (POMBPW). The results show that ferric chloride as a sole coagulant can achieve high colour removal of more than 80% without needed for pH adjustment, which indicates the effectiveness of the coagulant to treat palm oil mill biogas plant wastewater (POMBPW).However, dual coagulants i.e. ferric chloride-anionic polyacrylamide (APAM) shows better performance than ferric chloride-polyDADMAC in terms of colour removal, pH, with shorter sedimentation time. The addition of polymer to system not only reduces the ferric chloride dosage, but also increases the colour removal of more than 20%. Comparison between APAM and polyDADMAC as flocculant aids shows that APAM can achieve stable removal at wider pH range and lowest sedimentation time at 20 min while polyDADMAC was at one hour. Both dual coagulants were followed second order kinetic and APAM shows the highest rate over polyDADMAC i.e. 3 × 10−5/PtCo.min and 2 × 10−5/PtCo.min respectively. Addition of polymers reduced phytotoxicity of generated sludge and the sludge has potential to be reused for land application. |
published_date |
2017-04-30T03:39:11Z |
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1763751757812334592 |
score |
11.0302305 |