Extraction of ammonium nickel sulfate hexahydrate by hydrometallurgical process from the hyperaccumulating plant Odontarrhena muralis – case study from Serbia

Extraction of ammonium nickel sulfate hexahydrate by hydrometallurgical process from the hyperaccumulating plant Odontarrhena muralis – case study from Serbia

Phytomining is a new promising technique that is based on using hyperaccumulating plants which biomass is utilized as a bio-ore for metal extraction. The Ni-hyperaccumulating species Odontarrhena muralis is widely distributed on ultramafic soils in Serbia, and could be a promising candid...

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Autores principales: Marković Branislav, Ranđelović Dragana, Jovanović Gvozden, Tomović Gordana, Jakovljević Ksenija, Mišljenović Tomica, Sokić Miroslav
Formato: article
Lenguaje:EN
SR
Publicado: Association of Chemical Engineers of Serbia 2021
Materias:
phytomining
bio-ore
leaching
nickel extraction
Chemical technology
TP1-1185
Acceso en línea:https://doaj.org/article/2c3cdd4a83f7435981062b87a6198134
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spelling oai:doaj.org-article:2c3cdd4a83f7435981062b87a61981342021-11-10T07:28:22ZExtraction of ammonium nickel sulfate hexahydrate by hydrometallurgical process from the hyperaccumulating plant Odontarrhena muralis – case study from Serbia0367-598X2217-742610.2298/HEMIND210701027Mhttps://doaj.org/article/2c3cdd4a83f7435981062b87a61981342021-01-01T00:00:00Zhttp://www.doiserbia.nb.rs/img/doi/0367-598X/2021/0367-598X2105285M.pdfhttps://doaj.org/toc/0367-598Xhttps://doaj.org/toc/2217-7426Phytomining is a new promising technique that is based on using hyperaccumulating plants which biomass is utilized as a bio-ore for metal extraction. The Ni-hyperaccumulating species Odontarrhena muralis is widely distributed on ultramafic soils in Serbia, and could be a promising candidate for Ni agromining. In the present study, efficiency of a hydrometallurgical process for Ni recovery using biomass of O. muralis wild population through the synthesis of Ni salts from plant ash in the form of ammonium nickel sulfate hexahydrate, Ni(NH4)2(SO4)2 6H2O – (ANSH) was assessed. The average Ni content in the plant from ultramafic sites in West Serbia was up to 3.300 g kg-1. The mass yield of ANSH crystals from the crude ash was ~12 % with the average purity of 73 % were obtained. By optimizing the purification process before precipitation of ANSH crystals, it is possible to obtain salt crystals of higher purity, which increases the economic profitability of this process. The results of this preliminary study on wild population of O. muralis show the increased potential for implementation of phytomining practices as an alternative way of Ni extraction on ultramafic sites in Serbia.Marković BranislavRanđelović DraganaJovanović GvozdenTomović GordanaJakovljević KsenijaMišljenović TomicaSokić MiroslavAssociation of Chemical Engineers of Serbiaarticlephytominingbio-oreleachingnickel extractionChemical technologyTP1-1185ENSRHemijska Industrija , Vol 75, Iss 5, Pp 285-296 (2021)
institution DOAJ
collection DOAJ
language EN
SR
topic phytomining
bio-ore
leaching
nickel extraction
Chemical technology
TP1-1185
spellingShingle phytomining
bio-ore
leaching
nickel extraction
Chemical technology
TP1-1185
Marković Branislav
Ranđelović Dragana
Jovanović Gvozden
Tomović Gordana
Jakovljević Ksenija
Mišljenović Tomica
Sokić Miroslav
Extraction of ammonium nickel sulfate hexahydrate by hydrometallurgical process from the hyperaccumulating plant Odontarrhena muralis – case study from Serbia
description Phytomining is a new promising technique that is based on using hyperaccumulating plants which biomass is utilized as a bio-ore for metal extraction. The Ni-hyperaccumulating species Odontarrhena muralis is widely distributed on ultramafic soils in Serbia, and could be a promising candidate for Ni agromining. In the present study, efficiency of a hydrometallurgical process for Ni recovery using biomass of O. muralis wild population through the synthesis of Ni salts from plant ash in the form of ammonium nickel sulfate hexahydrate, Ni(NH4)2(SO4)2 6H2O – (ANSH) was assessed. The average Ni content in the plant from ultramafic sites in West Serbia was up to 3.300 g kg-1. The mass yield of ANSH crystals from the crude ash was ~12 % with the average purity of 73 % were obtained. By optimizing the purification process before precipitation of ANSH crystals, it is possible to obtain salt crystals of higher purity, which increases the economic profitability of this process. The results of this preliminary study on wild population of O. muralis show the increased potential for implementation of phytomining practices as an alternative way of Ni extraction on ultramafic sites in Serbia.
format article
author Marković Branislav
Ranđelović Dragana
Jovanović Gvozden
Tomović Gordana
Jakovljević Ksenija
Mišljenović Tomica
Sokić Miroslav
author_facet Marković Branislav
Ranđelović Dragana
Jovanović Gvozden
Tomović Gordana
Jakovljević Ksenija
Mišljenović Tomica
Sokić Miroslav
author_sort Marković Branislav
title Extraction of ammonium nickel sulfate hexahydrate by hydrometallurgical process from the hyperaccumulating plant Odontarrhena muralis – case study from Serbia
title_short Extraction of ammonium nickel sulfate hexahydrate by hydrometallurgical process from the hyperaccumulating plant Odontarrhena muralis – case study from Serbia
title_full Extraction of ammonium nickel sulfate hexahydrate by hydrometallurgical process from the hyperaccumulating plant Odontarrhena muralis – case study from Serbia
title_fullStr Extraction of ammonium nickel sulfate hexahydrate by hydrometallurgical process from the hyperaccumulating plant Odontarrhena muralis – case study from Serbia
title_full_unstemmed Extraction of ammonium nickel sulfate hexahydrate by hydrometallurgical process from the hyperaccumulating plant Odontarrhena muralis – case study from Serbia
title_sort extraction of ammonium nickel sulfate hexahydrate by hydrometallurgical process from the hyperaccumulating plant odontarrhena muralis – case study from serbia
publisher Association of Chemical Engineers of Serbia
publishDate 2021
url https://doaj.org/article/2c3cdd4a83f7435981062b87a6198134
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