Potassium-bearing species in fertiliser obtained by hydrothermal modification of glauconitic siltstones with calcium hydroxide

The hydrothermal dissolution of a Brazilian glauconitic siltstone, known as Verdete, in the presence of calcium hydroxide was studied using conventional and rotary furnaces. The objective was to assess the behaviour of Verdete, a mixture of micas and K-feldspar, in response to reaction with calcium...

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Veröffentlicht in:	Mineral processing and extractive metallurgy (2018) 2022-04, Vol.131 (2), p.145-157
Hauptverfasser:	Peixoto, Rodrigo A. O., Oliveira, Kátia D., Ávila-Neto, Cícero N.
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Sprache:	eng
Schlagworte:	alkaline dissolution calcium hydroxide hydrothermal treatment K-feldspar micas potassium extraction
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container_title	Mineral processing and extractive metallurgy (2018)
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creator	Peixoto, Rodrigo A. O. Oliveira, Kátia D. Ávila-Neto, Cícero N.
description	The hydrothermal dissolution of a Brazilian glauconitic siltstone, known as Verdete, in the presence of calcium hydroxide was studied using conventional and rotary furnaces. The objective was to assess the behaviour of Verdete, a mixture of micas and K-feldspar, in response to reaction with calcium hydroxide to recover potassium-bearing soluble species. The hydrothermal procedure generated Ca-, Si- and Al-bearing insoluble products with defined crystalline structure (hydrogrossular and tobermorite), resulting from the breakdown of K-feldspar. The use of citric acid as extracting agent led to potassium recoveries up to 300% greater than in cases where the extracting agent was water, due to the formation of an insoluble and amorphous layer (containing mostly K, Mg and Fe) between Verdete and the alkaline solution. Altered feldspar, as well as possibly potassium-substituted tobermorites, may have the potential to release potassium (and other elements) in the long term, while the amorphous layer is responsible for faster release in the short term.
doi_str_mv	10.1080/25726641.2020.1843383
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The use of citric acid as extracting agent led to potassium recoveries up to 300% greater than in cases where the extracting agent was water, due to the formation of an insoluble and amorphous layer (containing mostly K, Mg and Fe) between Verdete and the alkaline solution. 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O.</au><au>Oliveira, Kátia D.</au><au>Ávila-Neto, Cícero N.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Potassium-bearing species in fertiliser obtained by hydrothermal modification of glauconitic siltstones with calcium hydroxide</atitle><jtitle>Mineral processing and extractive metallurgy (2018)</jtitle><date>2022-04-03</date><risdate>2022</risdate><volume>131</volume><issue>2</issue><spage>145</spage><epage>157</epage><pages>145-157</pages><issn>2572-6641</issn><eissn>2572-665X</eissn><abstract>The hydrothermal dissolution of a Brazilian glauconitic siltstone, known as Verdete, in the presence of calcium hydroxide was studied using conventional and rotary furnaces. The objective was to assess the behaviour of Verdete, a mixture of micas and K-feldspar, in response to reaction with calcium hydroxide to recover potassium-bearing soluble species. The hydrothermal procedure generated Ca-, Si- and Al-bearing insoluble products with defined crystalline structure (hydrogrossular and tobermorite), resulting from the breakdown of K-feldspar. The use of citric acid as extracting agent led to potassium recoveries up to 300% greater than in cases where the extracting agent was water, due to the formation of an insoluble and amorphous layer (containing mostly K, Mg and Fe) between Verdete and the alkaline solution. 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subjects	alkaline dissolution calcium hydroxide hydrothermal treatment K-feldspar micas potassium extraction
title	Potassium-bearing species in fertiliser obtained by hydrothermal modification of glauconitic siltstones with calcium hydroxide
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