Removal of Mg2+, K+, SO4-2 Ions from Seawater by Precipitation Method

Removal of Mg2+, K+, SO4-2 Ions from Seawater by Precipitation Method

Removal of Mg2+, K+, and SO4-2 ions in seawater has been successfully done by precipitation in a mixing tank method. This study aims to remove the content of magnesium ions (Mg+), potassium (K+) and sulfate (SO4-2) in sea water with the addition of chemicals disodium phosphate (1.2 % volume), calciu...

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Main Authors: Pujiastuti Caecilia, Sumada Ketut, Ngatilah Yustina, Hadi Prasetyo
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:MATEC Web of Conferences
Subjects:
sea water
disodium phosphate
calcium chloride
precipitation
removal ions
Online Access:http://dx.doi.org/10.1051/matecconf/20165801022
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spelling doaj-7a3f74acf6404fe7b1bab417d4fe8d1e2021-04-02T06:50:58ZengEDP SciencesMATEC Web of Conferences2261-236X2016-01-01580102210.1051/matecconf/20165801022matecconf_bisstech2016_01022Removal of Mg2+, K+, SO4-2 Ions from Seawater by Precipitation MethodPujiastuti CaeciliaSumada KetutNgatilah YustinaHadi PrasetyoRemoval of Mg2+, K+, and SO4-2 ions in seawater has been successfully done by precipitation in a mixing tank method. This study aims to remove the content of magnesium ions (Mg+), potassium (K+) and sulfate (SO4-2) in sea water with the addition of chemicals disodium phosphate (1.2 % volume), calcium chloride (2 % volume) and sodium hydroxide (2% volume). Stirring is performed at 100 rpm and the pH solution is adjusted to 9. Disodium phosphate serves to bind magnesium ions and potassium, CaCl2 serves to bind the sulfate ion, while sodium hydroxide is used to adjust the pH of the solution mixture and also reacted with magnesium ions. In total, the removal efficiencies of Mg2+, K+ and SO4-2 ions in seawater were 97%, 96%, and 92%, respectively. The precipitated solids contains component of PO4- (14.5%), Mg2+(13.8%), SO4-2 (28.2%), Ca2+ (24.1%) and K+ (1.9%) ions.http://dx.doi.org/10.1051/matecconf/20165801022sea waterdisodium phosphatecalcium chlorideprecipitationremoval ions
collection DOAJ
language English
format Article
sources DOAJ
author Pujiastuti Caecilia
Sumada Ketut
Ngatilah Yustina
Hadi Prasetyo
spellingShingle Pujiastuti Caecilia
Sumada Ketut
Ngatilah Yustina
Hadi Prasetyo
Removal of Mg2+, K+, SO4-2 Ions from Seawater by Precipitation Method
MATEC Web of Conferences
sea water
disodium phosphate
calcium chloride
precipitation
removal ions
author_facet Pujiastuti Caecilia
Sumada Ketut
Ngatilah Yustina
Hadi Prasetyo
author_sort Pujiastuti Caecilia
title Removal of Mg2+, K+, SO4-2 Ions from Seawater by Precipitation Method
title_short Removal of Mg2+, K+, SO4-2 Ions from Seawater by Precipitation Method
title_full Removal of Mg2+, K+, SO4-2 Ions from Seawater by Precipitation Method
title_fullStr Removal of Mg2+, K+, SO4-2 Ions from Seawater by Precipitation Method
title_full_unstemmed Removal of Mg2+, K+, SO4-2 Ions from Seawater by Precipitation Method
title_sort removal of mg2+, k+, so4-2 ions from seawater by precipitation method
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2016-01-01
description Removal of Mg2+, K+, and SO4-2 ions in seawater has been successfully done by precipitation in a mixing tank method. This study aims to remove the content of magnesium ions (Mg+), potassium (K+) and sulfate (SO4-2) in sea water with the addition of chemicals disodium phosphate (1.2 % volume), calcium chloride (2 % volume) and sodium hydroxide (2% volume). Stirring is performed at 100 rpm and the pH solution is adjusted to 9. Disodium phosphate serves to bind magnesium ions and potassium, CaCl2 serves to bind the sulfate ion, while sodium hydroxide is used to adjust the pH of the solution mixture and also reacted with magnesium ions. In total, the removal efficiencies of Mg2+, K+ and SO4-2 ions in seawater were 97%, 96%, and 92%, respectively. The precipitated solids contains component of PO4- (14.5%), Mg2+(13.8%), SO4-2 (28.2%), Ca2+ (24.1%) and K+ (1.9%) ions.
topic sea water
disodium phosphate
calcium chloride
precipitation
removal ions
url http://dx.doi.org/10.1051/matecconf/20165801022
work_keys_str_mv AT pujiastuticaecilia removalofmg2kso42ionsfromseawaterbyprecipitationmethod
AT sumadaketut removalofmg2kso42ionsfromseawaterbyprecipitationmethod
AT ngatilahyustina removalofmg2kso42ionsfromseawaterbyprecipitationmethod
AT hadiprasetyo removalofmg2kso42ionsfromseawaterbyprecipitationmethod
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