Use of sodium hypochlorite to reduce the concentration of Mn2+ in acid mine waters to improve the water quality of the Yauli River, Junín, Perú

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In the world, most of the underground and surface water supply sources are affected by the presence of manganese Mn2+, which is one of the biggest pollutants and causes an impact on the environment. Underground mining operations generate acidic water, whose pH is between 2 and 6; however, the mining...

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Autores: Castillo Ungaro, Castillo Ungaro, Pulido Capurro, Victor, Cano Coa, Dominga Micaela, Olivera Carhuaz, Edith, Castillo Ungaro, Ricardo
Formato: artículo
Fecha de Publicación:2022
Institución:Universidad Nacional del Altiplano
Repositorio:Revista de Investigaciones Altoandinas
Lenguaje:español
OAI Identifier:oai:ojs.pkp.sfu.ca:article/440
Nivel de acceso:acceso abierto
Materia:Sodium hypochlorite; concentration of Mn2 , Maximum Permissible Limit (LMP); Water quality (category 3); Environmental Quality Standard (ECA).
Hipoclorito de sodio; concentración del Mn2 ; Límite Máximo Permisible; Calidad del agua; Estándar de Calidad Ambiental (ECA).
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network_acronym_str REVALT
network_name_str Revista de Investigaciones Altoandinas
repository_id_str
dc.title.none.fl_str_mv Use of sodium hypochlorite to reduce the concentration of Mn2+ in acid mine waters to improve the water quality of the Yauli River, Junín, Perú
Uso de hipoclorito de sodio para disminuir la concentración de Mn2+ en aguas ácidas de mina para el mejoramiento de la calidad del agua del río Yauli, Junín, Perú
title Use of sodium hypochlorite to reduce the concentration of Mn2+ in acid mine waters to improve the water quality of the Yauli River, Junín, Perú
spellingShingle Use of sodium hypochlorite to reduce the concentration of Mn2+ in acid mine waters to improve the water quality of the Yauli River, Junín, Perú
Castillo Ungaro, Castillo Ungaro
Sodium hypochlorite; concentration of Mn2 , Maximum Permissible Limit (LMP); Water quality (category 3); Environmental Quality Standard (ECA).
Hipoclorito de sodio; concentración del Mn2 ; Límite Máximo Permisible; Calidad del agua; Estándar de Calidad Ambiental (ECA).
title_short Use of sodium hypochlorite to reduce the concentration of Mn2+ in acid mine waters to improve the water quality of the Yauli River, Junín, Perú
title_full Use of sodium hypochlorite to reduce the concentration of Mn2+ in acid mine waters to improve the water quality of the Yauli River, Junín, Perú
title_fullStr Use of sodium hypochlorite to reduce the concentration of Mn2+ in acid mine waters to improve the water quality of the Yauli River, Junín, Perú
title_full_unstemmed Use of sodium hypochlorite to reduce the concentration of Mn2+ in acid mine waters to improve the water quality of the Yauli River, Junín, Perú
title_sort Use of sodium hypochlorite to reduce the concentration of Mn2+ in acid mine waters to improve the water quality of the Yauli River, Junín, Perú
dc.creator.none.fl_str_mv Castillo Ungaro, Castillo Ungaro
Pulido Capurro, Victor
Cano Coa, Dominga Micaela
Olivera Carhuaz, Edith
Castillo Ungaro, Ricardo
Pulido Capurro, Victor
Cano Coa, Dominga Micaela
Olivera Carhuaz, Edith
author Castillo Ungaro, Castillo Ungaro
author_facet Castillo Ungaro, Castillo Ungaro
Pulido Capurro, Victor
Cano Coa, Dominga Micaela
Olivera Carhuaz, Edith
Castillo Ungaro, Ricardo
Cano Coa, Dominga Micaela
Olivera Carhuaz, Edith
author_role author
author2 Pulido Capurro, Victor
Cano Coa, Dominga Micaela
Olivera Carhuaz, Edith
Castillo Ungaro, Ricardo
Cano Coa, Dominga Micaela
Olivera Carhuaz, Edith
author2_role author
author
author
author
author
author
dc.subject.none.fl_str_mv Sodium hypochlorite; concentration of Mn2 , Maximum Permissible Limit (LMP); Water quality (category 3); Environmental Quality Standard (ECA).
Hipoclorito de sodio; concentración del Mn2 ; Límite Máximo Permisible; Calidad del agua; Estándar de Calidad Ambiental (ECA).
topic Sodium hypochlorite; concentration of Mn2 , Maximum Permissible Limit (LMP); Water quality (category 3); Environmental Quality Standard (ECA).
Hipoclorito de sodio; concentración del Mn2 ; Límite Máximo Permisible; Calidad del agua; Estándar de Calidad Ambiental (ECA).
description In the world, most of the underground and surface water supply sources are affected by the presence of manganese Mn2+, which is one of the biggest pollutants and causes an impact on the environment. Underground mining operations generate acidic water, whose pH is between 2 and 6; however, the mining companies do not present methodologies for control. Acid water samples were obtained from the industrial area of the Carahuacra mining production unit (Volcán S.A.A. Mining Company), according to the Water Monitoring Protocol of the National Water Authority (ANA) at 4600 meters above sea level, in the province of Yauli, Junín Region. The acidic water studied has a pH between 3.5 and 5.5 and a Mn2+ concentration of up to 250 mg/L. According to current regulations, the concentration is required to be reduced below 0.2 mg/L (ECA-2017). The objective of this work is proposing the use of sodium hypochlorite (NaClO) as an oxidizing agent to allow its precipitation and separation. Tests were performed at different pH, concentrations (%) and sodium hypochlorite consumption (mg/L); achieving 99.96% Mn2+ removal. The optimum pH range achieved was between 8.5 and 8.8 while the concentration and consumption of sodium hypochlorite was 0.05% or 1.0 mg/L respectively. The present procedure can be applied by other companies to decrease the Mn2+ concentration ion.
publishDate 2022
dc.date.none.fl_str_mv 2022-08-25
dc.type.none.fl_str_mv info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
format article
status_str publishedVersion
dc.identifier.none.fl_str_mv //huajsapata.unap.edu.pe/index.php/ria/article/view/440
10.18271/ria.2022.440
identifier_str_mv //huajsapata.unap.edu.pe/index.php/ria/article/view/440
10.18271/ria.2022.440
dc.language.none.fl_str_mv spa
language spa
dc.relation.none.fl_str_mv //huajsapata.unap.edu.pe/index.php/ria/article/view/440/271
dc.rights.none.fl_str_mv Derechos de autor 2022 Revista de Investigaciones Altoandinas
info:eu-repo/semantics/openAccess
rights_invalid_str_mv Derechos de autor 2022 Revista de Investigaciones Altoandinas
eu_rights_str_mv openAccess
dc.format.none.fl_str_mv application/pdf
dc.publisher.none.fl_str_mv Universidad Nacional del Altiplano
publisher.none.fl_str_mv Universidad Nacional del Altiplano
dc.source.none.fl_str_mv Revista de Investigaciones Altoandinas - Journal of High Andean Research; Vol. 24 No. 3 (2022); 208-219
Revista de Investigaciones Altoandinas - Journal of High Andean Research; Vol. 24 Núm. 3 (2022); 208-219
2306-8582
2313-2957
reponame:Revista de Investigaciones Altoandinas
instname:Universidad Nacional del Altiplano
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instname_str Universidad Nacional del Altiplano
instacron_str UNAP
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reponame_str Revista de Investigaciones Altoandinas
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spelling Use of sodium hypochlorite to reduce the concentration of Mn2+ in acid mine waters to improve the water quality of the Yauli River, Junín, PerúUso de hipoclorito de sodio para disminuir la concentración de Mn2+ en aguas ácidas de mina para el mejoramiento de la calidad del agua del río Yauli, Junín, PerúCastillo Ungaro, Castillo UngaroPulido Capurro, VictorCano Coa, Dominga Micaela Olivera Carhuaz, Edith Castillo Ungaro, RicardoPulido Capurro, VictorCano Coa, Dominga MicaelaOlivera Carhuaz, EdithSodium hypochlorite; concentration of Mn2 , Maximum Permissible Limit (LMP); Water quality (category 3); Environmental Quality Standard (ECA).Hipoclorito de sodio; concentración del Mn2 ; Límite Máximo Permisible; Calidad del agua; Estándar de Calidad Ambiental (ECA).In the world, most of the underground and surface water supply sources are affected by the presence of manganese Mn2+, which is one of the biggest pollutants and causes an impact on the environment. Underground mining operations generate acidic water, whose pH is between 2 and 6; however, the mining companies do not present methodologies for control. Acid water samples were obtained from the industrial area of the Carahuacra mining production unit (Volcán S.A.A. Mining Company), according to the Water Monitoring Protocol of the National Water Authority (ANA) at 4600 meters above sea level, in the province of Yauli, Junín Region. The acidic water studied has a pH between 3.5 and 5.5 and a Mn2+ concentration of up to 250 mg/L. According to current regulations, the concentration is required to be reduced below 0.2 mg/L (ECA-2017). The objective of this work is proposing the use of sodium hypochlorite (NaClO) as an oxidizing agent to allow its precipitation and separation. Tests were performed at different pH, concentrations (%) and sodium hypochlorite consumption (mg/L); achieving 99.96% Mn2+ removal. The optimum pH range achieved was between 8.5 and 8.8 while the concentration and consumption of sodium hypochlorite was 0.05% or 1.0 mg/L respectively. The present procedure can be applied by other companies to decrease the Mn2+ concentration ion.En el mundo gran parte de las fuentes de abastecimiento de agua subterránea y superficiales se ven afectadas por la presencia de manganeso (Mn2+) que es uno de los mayores contaminantes y causa impacto en el medio ambiente Las labores mineras subterráneas generan aguas ácidas, cuyo pH está entre 2 y 6; sin embargo, las compañías mineras no presentan metodologías para el control. Para el desarrollo del presente trabajo, se obtuvieron muestras de agua ácida desde la bocamina del área industrial de la unidad de producción minera Carahuacra (Compañía Minera Volcán S.A.A.), de acuerdo al Protocolo de Monitoreo de Aguas de la Autoridad Nacional del Agua (ANA), a los 4600 msnm, en la provincia de Yauli, Región Junín. El agua ácida estudiada tiene un pH entre 3.5 a 5.5 y una concentración de Mn2+ hasta 250 mg/L. Para cumplir con la normativa vigente, se requiere reducir la concentración por debajo de 0.2 mg/L (ECA-2017). El objetivo de la investigación es proponer el uso de hipoclorito de sodio (NaClO) como un agente oxidante para permitir su precipitación y separación.  Se realizaron pruebas a diferentes pH, concentraciones (%) y consumos de hipoclorito de sodio (mg/L); lográndose una remoción de 99.96% de Mn2+. El rango óptimo de pH logrado está entre 8.5 y 8.8 mientras que la concentración y consumo del hipoclorito de sodio, responden a 0.05% y 1.0 mg/L respectivamente. El presente procedimiento puede ser aplicado por otras compañías para   disminuir el ion Mn2+.Universidad Nacional del Altiplano2022-08-25info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdf//huajsapata.unap.edu.pe/index.php/ria/article/view/44010.18271/ria.2022.440Revista de Investigaciones Altoandinas - Journal of High Andean Research; Vol. 24 No. 3 (2022); 208-219Revista de Investigaciones Altoandinas - Journal of High Andean Research; Vol. 24 Núm. 3 (2022); 208-2192306-85822313-2957reponame:Revista de Investigaciones Altoandinasinstname:Universidad Nacional del Altiplanoinstacron:UNAPspa//huajsapata.unap.edu.pe/index.php/ria/article/view/440/271Derechos de autor 2022 Revista de Investigaciones Altoandinasinfo:eu-repo/semantics/openAccessoai:ojs.pkp.sfu.ca:article/4402022-08-31T17:41:55Z
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