SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2807763721> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W2807763721 endingPage "175" @default.
W2807763721 startingPage "165" @default.
W2807763721 abstract "The fast depletion of sulfide PGM-bearing minerals and the deteriorating socio-political environments in most primary PGM producing countries have triggered interest in exploring the recovery of these metals from high-chromium PGM-bearing oxidized ores – sometimes contain relatively high marketable PGM values – which have proven to be more difficult to process by conventional metallurgical practice which involves grinding, milling, froth flotation into a sulfide concentrate, smelting and matte production and chemical refining. This paper reports the results of an extensive evaluation campaign performed in both acidic sulfuric and chloride media. Leach tests were conducted in either a single-stage or a two-stage process and the results are compared and contrasted. Using a high-chromium PGM oxidized mineralized ore, the hybrid pyro-hydrometallurgical and low-temperature single-stage salt chlorination process proved successful for simultaneously and efficiently leaching Cu, Ni, Pt and Pd without the need and/or addition of further oxidizing agents. The technique is expected to be a direct treatment route from flotation concentrate to PGM refinery feed. Various chlorinating agents, including CaCl2, MgCl2, SnCl2 and AlCl3, were tested. A CaCl2 and MgCl2 mixture acted synergistically for simultaneous dissolution of both Pt and Pd, achieving 99.7% Pt and 100% Pd recovery when thermally calcined at 650 °C, at a heating rate of 5.42 °C/minute for 6 h, and then leached at 90 °C for a minimum of 3 h in 6 M HCl. Copper and nickel extraction were lower but had not plateaued even after 24 h reaching 75.4 and 90.9% extraction respectively. It was also observed that when MgCl2 was used on its own, it dissolves more platinum than palladium, while the opposite was true using CaCl2. The leaching process was controlled by surface chemical reactions with a determined activation energy of 46 kJ/mol. The dissolution rate was limited by the ratio of HCl volume-to-solid content. The recovery mechanism of Pt from PtAs2 and some recommendations for future prospects have been suggested." @default.
W2807763721 created "2018-06-21" @default.
W2807763721 creator A5009240474 @default.
W2807763721 creator A5024912807 @default.
W2807763721 creator A5025252966 @default.
W2807763721 creator A5056974217 @default.
W2807763721 date "2018-08-01" @default.
W2807763721 modified "2023-10-03" @default.
W2807763721 title "Atmospheric leach process of high-chromitite PGM-bearing oxidized mineralized ore through a single-stage and two-stage techniques" @default.
W2807763721 cites W1965616586 @default.
W2807763721 cites W1973050396 @default.
W2807763721 cites W1974114729 @default.
W2807763721 cites W1977915060 @default.
W2807763721 cites W1980055983 @default.
W2807763721 cites W1980568941 @default.
W2807763721 cites W1983674235 @default.
W2807763721 cites W1986026132 @default.
W2807763721 cites W1998272180 @default.
W2807763721 cites W1999483413 @default.
W2807763721 cites W2001436812 @default.
W2807763721 cites W2011553140 @default.
W2807763721 cites W2014576137 @default.
W2807763721 cites W2027693394 @default.
W2807763721 cites W2033471158 @default.
W2807763721 cites W2036786906 @default.
W2807763721 cites W2036963839 @default.
W2807763721 cites W2041191112 @default.
W2807763721 cites W2041990171 @default.
W2807763721 cites W2049087834 @default.
W2807763721 cites W2055079834 @default.
W2807763721 cites W2060086857 @default.
W2807763721 cites W2063665079 @default.
W2807763721 cites W2080254462 @default.
W2807763721 cites W2086783198 @default.
W2807763721 cites W2088534936 @default.
W2807763721 cites W2090960033 @default.
W2807763721 cites W2100089147 @default.
W2807763721 cites W2140788783 @default.
W2807763721 cites W2144514993 @default.
W2807763721 cites W2183250513 @default.
W2807763721 cites W2473819224 @default.
W2807763721 cites W2611588277 @default.
W2807763721 cites W2613045689 @default.
W2807763721 cites W2651748417 @default.
W2807763721 cites W2718119802 @default.
W2807763721 cites W2749144217 @default.
W2807763721 cites W2756720688 @default.
W2807763721 cites W2767603579 @default.
W2807763721 cites W2798206712 @default.
W2807763721 cites W29027375 @default.
W2807763721 cites W4211002405 @default.
W2807763721 doi "https://doi.org/10.1016/j.mineng.2018.05.007" @default.
W2807763721 hasPublicationYear "2018" @default.
W2807763721 type Work @default.
W2807763721 sameAs 2807763721 @default.
W2807763721 citedByCount "5" @default.
W2807763721 countsByYear W28077637212019 @default.
W2807763721 countsByYear W28077637212020 @default.
W2807763721 countsByYear W28077637212022 @default.
W2807763721 crossrefType "journal-article" @default.
W2807763721 hasAuthorship W2807763721A5009240474 @default.
W2807763721 hasAuthorship W2807763721A5024912807 @default.
W2807763721 hasAuthorship W2807763721A5025252966 @default.
W2807763721 hasAuthorship W2807763721A5056974217 @default.
W2807763721 hasConcept C127313418 @default.
W2807763721 hasConcept C140327455 @default.
W2807763721 hasConcept C147789679 @default.
W2807763721 hasConcept C151730666 @default.
W2807763721 hasConcept C157247726 @default.
W2807763721 hasConcept C159390177 @default.
W2807763721 hasConcept C159750122 @default.
W2807763721 hasConcept C161790260 @default.
W2807763721 hasConcept C178790620 @default.
W2807763721 hasConcept C185592680 @default.
W2807763721 hasConcept C191897082 @default.
W2807763721 hasConcept C192562407 @default.
W2807763721 hasConcept C23923706 @default.
W2807763721 hasConcept C2776989079 @default.
W2807763721 hasConcept C2778188036 @default.
W2807763721 hasConcept C2779743592 @default.
W2807763721 hasConcept C2780596425 @default.
W2807763721 hasConcept C2781150389 @default.
W2807763721 hasConcept C39432304 @default.
W2807763721 hasConcept C511782168 @default.
W2807763721 hasConcept C544778455 @default.
W2807763721 hasConcept C55493867 @default.
W2807763721 hasConcept C7082614 @default.
W2807763721 hasConcept C77176794 @default.
W2807763721 hasConcept C77928131 @default.
W2807763721 hasConcept C88380143 @default.
W2807763721 hasConcept C90982505 @default.
W2807763721 hasConceptScore W2807763721C127313418 @default.
W2807763721 hasConceptScore W2807763721C140327455 @default.
W2807763721 hasConceptScore W2807763721C147789679 @default.
W2807763721 hasConceptScore W2807763721C151730666 @default.
W2807763721 hasConceptScore W2807763721C157247726 @default.
W2807763721 hasConceptScore W2807763721C159390177 @default.
W2807763721 hasConceptScore W2807763721C159750122 @default.