An efficient and economical treatment for batik textile wastewater containing high levels of silicate and organic pollutants using a sequential process of acidification, magnesium oxide, and palm shell-based activated carbon application

Considering the chemical properties of batik effluents, an efficient and economical treatment process was established to treat batik wastewater containing not only high levels of Si and chemical oxygen demand (COD), but also toxic heavy metals. After mixing the effluents obtained from the boiling an...

Full description

Saved in:
Bibliographic Details
Main Authors: Birgani, P.M., Ranjbar, N., Abdullah, R.C., Wong, K.T., Lee, G., Ibrahim, Shaliza, Park, C., Yoon, Y., Jang, Min
Format: Article
Published: Elsevier 2016
Subjects:
Online Access:http://eprints.um.edu.my/17434/
http://dx.doi.org/10.1016/j.jenvman.2016.09.066
Tags: Add Tag
No Tags, Be the first to tag this record!
id my.um.eprints.17434
record_format eprints
spelling my.um.eprints.174342019-03-13T04:45:33Z http://eprints.um.edu.my/17434/ An efficient and economical treatment for batik textile wastewater containing high levels of silicate and organic pollutants using a sequential process of acidification, magnesium oxide, and palm shell-based activated carbon application Birgani, P.M. Ranjbar, N. Abdullah, R.C. Wong, K.T. Lee, G. Ibrahim, Shaliza Park, C. Yoon, Y. Jang, Min TA Engineering (General). Civil engineering (General) Considering the chemical properties of batik effluents, an efficient and economical treatment process was established to treat batik wastewater containing not only high levels of Si and chemical oxygen demand (COD), but also toxic heavy metals. After mixing the effluents obtained from the boiling and soaking steps in the batik process, acidification using concentrated hydrochloric acid (conc. HCl) was conducted to polymerize the silicate under acidic conditions. Consequently, sludge was produced and floated. XRD and FT-IR analyses showed that wax molecules were coordinated by hydrogen bonding with silica (SiO2). The acidification process removed ∼78–95% of COD and ∼45–50% of Si, depending on the pH. In the next stage, magnesium oxide (MgO) was applied to remove heavy metals completely and almost 90% of the Si in the liquid phase. During this step, about 70% of COD was removed in the hydrogel that arose as a consequence of the crosslinking characteristics of the formed nano-composite, such as magnesium silicate or montmorillonite. The hydrogel was composed mainly of waxes with polymeric properties. Then, the remaining Si (∼300 mg/L) in the wastewater combined with the effluents from the rinsing steps was further treated using 50 mg/L MgO. As a final step, palm-shell activated carbon (PSAC) was used to remove the remaining COD to < 50 mg/L at pH 3. Overall, the sequential process of acidification and MgO/PSAC application developed could serve as an economical and effective treatment option for treating heavily polluted batik effluents. Elsevier 2016 Article PeerReviewed Birgani, P.M. and Ranjbar, N. and Abdullah, R.C. and Wong, K.T. and Lee, G. and Ibrahim, Shaliza and Park, C. and Yoon, Y. and Jang, Min (2016) An efficient and economical treatment for batik textile wastewater containing high levels of silicate and organic pollutants using a sequential process of acidification, magnesium oxide, and palm shell-based activated carbon application. Journal of Environmental Management, 184. pp. 229-239. ISSN 0301-4797 http://dx.doi.org/10.1016/j.jenvman.2016.09.066 doi:10.1016/j.jenvman.2016.09.066
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic TA Engineering (General). Civil engineering (General)
spellingShingle TA Engineering (General). Civil engineering (General)
Birgani, P.M.
Ranjbar, N.
Abdullah, R.C.
Wong, K.T.
Lee, G.
Ibrahim, Shaliza
Park, C.
Yoon, Y.
Jang, Min
An efficient and economical treatment for batik textile wastewater containing high levels of silicate and organic pollutants using a sequential process of acidification, magnesium oxide, and palm shell-based activated carbon application
description Considering the chemical properties of batik effluents, an efficient and economical treatment process was established to treat batik wastewater containing not only high levels of Si and chemical oxygen demand (COD), but also toxic heavy metals. After mixing the effluents obtained from the boiling and soaking steps in the batik process, acidification using concentrated hydrochloric acid (conc. HCl) was conducted to polymerize the silicate under acidic conditions. Consequently, sludge was produced and floated. XRD and FT-IR analyses showed that wax molecules were coordinated by hydrogen bonding with silica (SiO2). The acidification process removed ∼78–95% of COD and ∼45–50% of Si, depending on the pH. In the next stage, magnesium oxide (MgO) was applied to remove heavy metals completely and almost 90% of the Si in the liquid phase. During this step, about 70% of COD was removed in the hydrogel that arose as a consequence of the crosslinking characteristics of the formed nano-composite, such as magnesium silicate or montmorillonite. The hydrogel was composed mainly of waxes with polymeric properties. Then, the remaining Si (∼300 mg/L) in the wastewater combined with the effluents from the rinsing steps was further treated using 50 mg/L MgO. As a final step, palm-shell activated carbon (PSAC) was used to remove the remaining COD to < 50 mg/L at pH 3. Overall, the sequential process of acidification and MgO/PSAC application developed could serve as an economical and effective treatment option for treating heavily polluted batik effluents.
format Article
author Birgani, P.M.
Ranjbar, N.
Abdullah, R.C.
Wong, K.T.
Lee, G.
Ibrahim, Shaliza
Park, C.
Yoon, Y.
Jang, Min
author_facet Birgani, P.M.
Ranjbar, N.
Abdullah, R.C.
Wong, K.T.
Lee, G.
Ibrahim, Shaliza
Park, C.
Yoon, Y.
Jang, Min
author_sort Birgani, P.M.
title An efficient and economical treatment for batik textile wastewater containing high levels of silicate and organic pollutants using a sequential process of acidification, magnesium oxide, and palm shell-based activated carbon application
title_short An efficient and economical treatment for batik textile wastewater containing high levels of silicate and organic pollutants using a sequential process of acidification, magnesium oxide, and palm shell-based activated carbon application
title_full An efficient and economical treatment for batik textile wastewater containing high levels of silicate and organic pollutants using a sequential process of acidification, magnesium oxide, and palm shell-based activated carbon application
title_fullStr An efficient and economical treatment for batik textile wastewater containing high levels of silicate and organic pollutants using a sequential process of acidification, magnesium oxide, and palm shell-based activated carbon application
title_full_unstemmed An efficient and economical treatment for batik textile wastewater containing high levels of silicate and organic pollutants using a sequential process of acidification, magnesium oxide, and palm shell-based activated carbon application
title_sort efficient and economical treatment for batik textile wastewater containing high levels of silicate and organic pollutants using a sequential process of acidification, magnesium oxide, and palm shell-based activated carbon application
publisher Elsevier
publishDate 2016
url http://eprints.um.edu.my/17434/
http://dx.doi.org/10.1016/j.jenvman.2016.09.066
_version_ 1643690416017506304
score 13.211869