Response Surface Methodology for Treatment of Paper Mill Wastewater by Using Inorganic Polymeric Coagulant

Inorganic polymeric ferric chloride (POFC) coagulant with proposed structure of Fe4 (Cl2.2OH0.8)4 is synthesized using waste materials and characterized by different tools; XRD, FTIR and SEM. In the current work scrutinized efficiency of POFC for paper mill wastewater (PMW) treatment using response...
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Autor*in:	Mohamed Eid M. Ali [verfasserIn] Shimaa M. Abdel Moniem [verfasserIn] Hazem Abdelsalam [verfasserIn] Nabila S. Ammar [verfasserIn] Hanan S. Ibrahim [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2022

Schlagwörter:	rsm ccd paper mill wastewater pofc inorganic polymeric coagulant

Übergeordnetes Werk:	In: Ecological Engineering & Environmental Technology - Polish Society of Ecological Engineering (PTIE), 2021, 23(2022), 5, Seite 153-163
Übergeordnetes Werk:	volume:23 ; year:2022 ; number:5 ; pages:153-163

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.12912/27197050/151939

Katalog-ID:	DOAJ026324687

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520			\|a Inorganic polymeric ferric chloride (POFC) coagulant with proposed structure of Fe4 (Cl2.2OH0.8)4 is synthesized using waste materials and characterized by different tools; XRD, FTIR and SEM. In the current work scrutinized efficiency of POFC for paper mill wastewater (PMW) treatment using response surface methodology (RSM) with central Composite Design (CCD) modeling. Different factors; dose, rapid mixing speed, and rapid mixing time are used for optimize the coagulation process using POFC for treating PMW. The indicators are used for assessing POFC efficiency are turbidity, and chemical oxygen demand (COD) removals. The obtained result of XRD confirms the production of new material of inorganic polymeric coagulants. Based RSM modelling, there is a high correlation between the experimental and predicated removal of turbidity and COD removals. Subsequently, the model is significantly applied for predicating COD and turbidity removals. Conclusively, the obtained results proposed for practical application of POFC coagulant for treatment of paper mill wastewater for COD and turbidity elimination. And the applied RSM with CCD is talented model for optimizing treatment of PMW.
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language	English
source	In Ecological Engineering & Environmental Technology 23(2022), 5, Seite 153-163 volume:23 year:2022 number:5 pages:153-163
sourceStr	In Ecological Engineering & Environmental Technology 23(2022), 5, Seite 153-163 volume:23 year:2022 number:5 pages:153-163
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topic_facet	rsm ccd paper mill wastewater pofc inorganic polymeric coagulant Ecology
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container_title	Ecological Engineering & Environmental Technology
authorswithroles_txt_mv	Mohamed Eid M. Ali @@aut@@ Shimaa M. Abdel Moniem @@aut@@ Hazem Abdelsalam @@aut@@ Nabila S. Ammar @@aut@@ Hanan S. Ibrahim @@aut@@
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callnumber-first	Q - Science
author	Mohamed Eid M. Ali
spellingShingle	Mohamed Eid M. Ali misc QH540-549.5 misc rsm misc ccd misc paper mill wastewater misc pofc misc inorganic polymeric coagulant misc Ecology Response Surface Methodology for Treatment of Paper Mill Wastewater by Using Inorganic Polymeric Coagulant
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topic	misc QH540-549.5 misc rsm misc ccd misc paper mill wastewater misc pofc misc inorganic polymeric coagulant misc Ecology
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title	Response Surface Methodology for Treatment of Paper Mill Wastewater by Using Inorganic Polymeric Coagulant
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title_full	Response Surface Methodology for Treatment of Paper Mill Wastewater by Using Inorganic Polymeric Coagulant
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author_browse	Mohamed Eid M. Ali Shimaa M. Abdel Moniem Hazem Abdelsalam Nabila S. Ammar Hanan S. Ibrahim
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title_sort	response surface methodology for treatment of paper mill wastewater by using inorganic polymeric coagulant
callnumber	QH540-549.5
title_auth	Response Surface Methodology for Treatment of Paper Mill Wastewater by Using Inorganic Polymeric Coagulant
abstract	Inorganic polymeric ferric chloride (POFC) coagulant with proposed structure of Fe4 (Cl2.2OH0.8)4 is synthesized using waste materials and characterized by different tools; XRD, FTIR and SEM. In the current work scrutinized efficiency of POFC for paper mill wastewater (PMW) treatment using response surface methodology (RSM) with central Composite Design (CCD) modeling. Different factors; dose, rapid mixing speed, and rapid mixing time are used for optimize the coagulation process using POFC for treating PMW. The indicators are used for assessing POFC efficiency are turbidity, and chemical oxygen demand (COD) removals. The obtained result of XRD confirms the production of new material of inorganic polymeric coagulants. Based RSM modelling, there is a high correlation between the experimental and predicated removal of turbidity and COD removals. Subsequently, the model is significantly applied for predicating COD and turbidity removals. Conclusively, the obtained results proposed for practical application of POFC coagulant for treatment of paper mill wastewater for COD and turbidity elimination. And the applied RSM with CCD is talented model for optimizing treatment of PMW.
abstractGer	Inorganic polymeric ferric chloride (POFC) coagulant with proposed structure of Fe4 (Cl2.2OH0.8)4 is synthesized using waste materials and characterized by different tools; XRD, FTIR and SEM. In the current work scrutinized efficiency of POFC for paper mill wastewater (PMW) treatment using response surface methodology (RSM) with central Composite Design (CCD) modeling. Different factors; dose, rapid mixing speed, and rapid mixing time are used for optimize the coagulation process using POFC for treating PMW. The indicators are used for assessing POFC efficiency are turbidity, and chemical oxygen demand (COD) removals. The obtained result of XRD confirms the production of new material of inorganic polymeric coagulants. Based RSM modelling, there is a high correlation between the experimental and predicated removal of turbidity and COD removals. Subsequently, the model is significantly applied for predicating COD and turbidity removals. Conclusively, the obtained results proposed for practical application of POFC coagulant for treatment of paper mill wastewater for COD and turbidity elimination. And the applied RSM with CCD is talented model for optimizing treatment of PMW.
abstract_unstemmed	Inorganic polymeric ferric chloride (POFC) coagulant with proposed structure of Fe4 (Cl2.2OH0.8)4 is synthesized using waste materials and characterized by different tools; XRD, FTIR and SEM. In the current work scrutinized efficiency of POFC for paper mill wastewater (PMW) treatment using response surface methodology (RSM) with central Composite Design (CCD) modeling. Different factors; dose, rapid mixing speed, and rapid mixing time are used for optimize the coagulation process using POFC for treating PMW. The indicators are used for assessing POFC efficiency are turbidity, and chemical oxygen demand (COD) removals. The obtained result of XRD confirms the production of new material of inorganic polymeric coagulants. Based RSM modelling, there is a high correlation between the experimental and predicated removal of turbidity and COD removals. Subsequently, the model is significantly applied for predicating COD and turbidity removals. Conclusively, the obtained results proposed for practical application of POFC coagulant for treatment of paper mill wastewater for COD and turbidity elimination. And the applied RSM with CCD is talented model for optimizing treatment of PMW.
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title_short	Response Surface Methodology for Treatment of Paper Mill Wastewater by Using Inorganic Polymeric Coagulant
url	https://doi.org/10.12912/27197050/151939 https://doaj.org/article/2d0ece0380cb407ba043d156b875c16b http://www.ecoeet.com/Response-Surface-Methodology-for-Treatment-of-Paper-Mill-Wastewater-by-Using-Inorganic,151939,0,2.html https://doaj.org/toc/2719-7050
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up_date	2024-07-03T20:20:25.095Z
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