SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2054156952> ?p ?o ?g. }

Showing items 1 to 100 of ±171 with 100 items per page.

W2054156952 endingPage "285" @default.
W2054156952 startingPage "272" @default.
W2054156952 abstract "Arsenopyrite dissolution was studied by means of long-term, stirred and non-stirred flow-through experiments in the pH range of 1 to 9 at 25, 50 and 70 °C and at different input dissolved-O2 concentrations (from 0.2 to 8.7 mg L− 1). At pH lower than 4, aqueous iron, which is mainly in the ferrous form, and arsenic are stoichiometrically released. Sulphur concentrations released were lower than stoichiometrically expected (S/As < 1). X-ray Photoelectron Spectroscopy (XPS) and MicroRaman Spectroscopy surface analyses on reacted and unreacted samples showed an enrichment of the reacted arsenopyrite surface in sulphur and arsenic under acidic conditions. In the light of these results, the steady-state dissolution rates were estimated by the release of arsenic at pH < 4 and were used to derive an empirical dissolution rate law expressed as:Rarsenopyritemolm−2s−125°C=10−7.41±0.47⋅aO20.76±0.11⋅aH+−0.12±0.07where aO2 and aH+ are the activities of hydrogen ions and dissolved oxygen, respectively and their exponents were estimated from multiple linear regression of the dissolution rates. Temperature increase from 25 to 70 °C yields an apparent activation energy for the arsenopyrite oxidation by dissolved oxygen of 18.5 ± 1.6 kJ mol− 1. At pH > 6, aqueous iron is mainly in the ferric form and is depleted as it precipitates as Fe-oxyhydroxide onto arsenopyrite surfaces, yielding Fe/As and Fe/S less than one; between pHs 7 and 9, iron depletion is complete, and sulphur released is more abundant than arsenic released, which is precipitated as As–O phases, as confirmed by MicroRaman spectroscopy. At pHs 6–9, iron-oxyhydroxide phases and arsenic oxide phases upon the arsenopyrite surface provide an effective layer that reduces diffusion of dissolved oxygen and arsenopyrite dissolution. As coating on the arsenopyrite surface becomes the rate-limiting step, the Shrinking Core Model (SCM) allows quantification of the surface dissolution rate, especially from data obtained where the effect of coating was still negligible. The SCM also allowed us to calculate the effective coefficient for oxygen diffusion through the coating, which can vary from 10− 17 to 1.5 · 10− 16 m2 s− 1. The formation of such a coating produced a decrease in arsenic and sulphur release over time and a final surface passivation." @default.
W2054156952 created "2016-06-24" @default.
W2054156952 creator A5042321529 @default.
W2054156952 creator A5042658224 @default.
W2054156952 creator A5050251199 @default.
W2054156952 creator A5061490246 @default.
W2054156952 creator A5063641773 @default.
W2054156952 date "2010-05-01" @default.
W2054156952 modified "2023-10-01" @default.
W2054156952 title "Arsenopyrite dissolution rates in O2-bearing solutions" @default.
W2054156952 cites W1533137732 @default.
W2054156952 cites W1586092561 @default.
W2054156952 cites W1669426553 @default.
W2054156952 cites W1869189968 @default.
W2054156952 cites W1964717314 @default.
W2054156952 cites W1965088478 @default.
W2054156952 cites W1978190071 @default.
W2054156952 cites W1999076322 @default.
W2054156952 cites W2000654750 @default.
W2054156952 cites W2003114122 @default.
W2054156952 cites W2005058406 @default.
W2054156952 cites W2005896402 @default.
W2054156952 cites W2006656385 @default.
W2054156952 cites W2009326133 @default.
W2054156952 cites W2013822772 @default.
W2054156952 cites W2017452059 @default.
W2054156952 cites W2029248012 @default.
W2054156952 cites W2030130737 @default.
W2054156952 cites W2031095798 @default.
W2054156952 cites W2032427174 @default.
W2054156952 cites W2033417901 @default.
W2054156952 cites W2034437601 @default.
W2054156952 cites W2034925069 @default.
W2054156952 cites W2035398278 @default.
W2054156952 cites W2035705686 @default.
W2054156952 cites W2035982646 @default.
W2054156952 cites W2036060540 @default.
W2054156952 cites W2036965645 @default.
W2054156952 cites W2038278227 @default.
W2054156952 cites W2039248487 @default.
W2054156952 cites W2040135180 @default.
W2054156952 cites W2042002857 @default.
W2054156952 cites W2045339130 @default.
W2054156952 cites W2049464075 @default.
W2054156952 cites W2049922945 @default.
W2054156952 cites W2050095767 @default.
W2054156952 cites W2051281131 @default.
W2054156952 cites W2056237133 @default.
W2054156952 cites W2056768619 @default.
W2054156952 cites W2056780536 @default.
W2054156952 cites W2056923774 @default.
W2054156952 cites W2059500172 @default.
W2054156952 cites W2059654323 @default.
W2054156952 cites W2064343777 @default.
W2054156952 cites W2065695070 @default.
W2054156952 cites W2067402557 @default.
W2054156952 cites W2067825375 @default.
W2054156952 cites W2070061376 @default.
W2054156952 cites W2070155685 @default.
W2054156952 cites W2072452921 @default.
W2054156952 cites W2075666869 @default.
W2054156952 cites W2077014756 @default.
W2054156952 cites W2077386242 @default.
W2054156952 cites W2077447926 @default.
W2054156952 cites W2079234634 @default.
W2054156952 cites W2079370292 @default.
W2054156952 cites W2082976109 @default.
W2054156952 cites W2084157685 @default.
W2054156952 cites W2084983188 @default.
W2054156952 cites W2085983458 @default.
W2054156952 cites W2087563157 @default.
W2054156952 cites W2090788454 @default.
W2054156952 cites W2103242138 @default.
W2054156952 cites W2103336100 @default.
W2054156952 cites W2116105765 @default.
W2054156952 cites W2119725471 @default.
W2054156952 cites W2121414962 @default.
W2054156952 cites W2122591311 @default.
W2054156952 cites W2124781550 @default.
W2054156952 cites W2135097486 @default.
W2054156952 cites W2137670296 @default.
W2054156952 cites W2139943305 @default.
W2054156952 cites W2144971286 @default.
W2054156952 cites W2147260869 @default.
W2054156952 cites W2149602337 @default.
W2054156952 cites W2152154525 @default.
W2054156952 cites W2154126969 @default.
W2054156952 cites W2159049505 @default.
W2054156952 cites W2416242066 @default.
W2054156952 doi "https://doi.org/10.1016/j.chemgeo.2010.03.002" @default.
W2054156952 hasPublicationYear "2010" @default.
W2054156952 type Work @default.
W2054156952 sameAs 2054156952 @default.
W2054156952 citedByCount "51" @default.
W2054156952 countsByYear W20541569522012 @default.
W2054156952 countsByYear W20541569522013 @default.
W2054156952 countsByYear W20541569522014 @default.
W2054156952 countsByYear W20541569522015 @default.