SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2899697322> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W2899697322 endingPage "406" @default.
W2899697322 startingPage "406" @default.
W2899697322 abstract "Mineral carbonation is considered to be the most stable mechanism for the sequestration of CO2. This study comprises a comparative review of the effect of ball milling on the CO2 uptake of ultramafic/mafic lithologies, which are the most promising rocks for the mineralization of CO2. Samples of dunite, pyroxenite, olivine basalt and of a dolerite quarry waste material were previously subjected to ball milling to produce ultrafine powders with enhanced CO2 uptake. The optimum milling conditions were determined through selective CO2 chemisorption followed by temperature-programmed desorption (TPD) experiments, revealing that the CO2 uptake of the studied lithologies can be substantially enhanced via mechanical activation. Here, all these data are compared, demonstrating that the behavior of each rock under the effect of ball milling is predominantly controlled by the mineralogical composition of the starting rock materials. The ball-milled rock with the highest CO2 uptake is the dunite, followed by the olivine basalt, the pyroxenite and the dolerite. The increased CO2 uptake after ball milling is mainly attributed to the reduction of particle size to the nanoscale range, thus creating more adsorption sites per gram basis, as well as to the structural disordering of the constituent silicate minerals." @default.
W2899697322 created "2018-11-16" @default.
W2899697322 creator A5031570888 @default.
W2899697322 creator A5037589329 @default.
W2899697322 creator A5048695928 @default.
W2899697322 creator A5049491368 @default.
W2899697322 creator A5091258830 @default.
W2899697322 date "2018-11-07" @default.
W2899697322 modified "2023-10-12" @default.
W2899697322 title "Ball Milling Effect on the CO2 Uptake of Mafic and Ultramafic Rocks: A Review" @default.
W2899697322 cites W1005925770 @default.
W2899697322 cites W1602414915 @default.
W2899697322 cites W1689976029 @default.
W2899697322 cites W1965592714 @default.
W2899697322 cites W1966260411 @default.
W2899697322 cites W1966355737 @default.
W2899697322 cites W1997785507 @default.
W2899697322 cites W2009428627 @default.
W2899697322 cites W2009882669 @default.
W2899697322 cites W2010012186 @default.
W2899697322 cites W2015661959 @default.
W2899697322 cites W2016140294 @default.
W2899697322 cites W2019083810 @default.
W2899697322 cites W2020041075 @default.
W2899697322 cites W2031295342 @default.
W2899697322 cites W2037180886 @default.
W2899697322 cites W2042016445 @default.
W2899697322 cites W2045108322 @default.
W2899697322 cites W2052055789 @default.
W2899697322 cites W2059093228 @default.
W2899697322 cites W2066507398 @default.
W2899697322 cites W2069495732 @default.
W2899697322 cites W2079086890 @default.
W2899697322 cites W2083912349 @default.
W2899697322 cites W2085429743 @default.
W2899697322 cites W2088985921 @default.
W2899697322 cites W2092718628 @default.
W2899697322 cites W2105481052 @default.
W2899697322 cites W2122940399 @default.
W2899697322 cites W2151123531 @default.
W2899697322 cites W2166941621 @default.
W2899697322 cites W2187897638 @default.
W2899697322 cites W2237763853 @default.
W2899697322 cites W2271612146 @default.
W2899697322 cites W2276026621 @default.
W2899697322 cites W2314365430 @default.
W2899697322 cites W2419142277 @default.
W2899697322 cites W2527154028 @default.
W2899697322 cites W2554962412 @default.
W2899697322 cites W2559950186 @default.
W2899697322 cites W2749754693 @default.
W2899697322 cites W2763435801 @default.
W2899697322 cites W2765785277 @default.
W2899697322 cites W2793933174 @default.
W2899697322 cites W2796660662 @default.
W2899697322 cites W2800818089 @default.
W2899697322 cites W2885375860 @default.
W2899697322 cites W2888812153 @default.
W2899697322 doi "https://doi.org/10.3390/geosciences8110406" @default.
W2899697322 hasPublicationYear "2018" @default.
W2899697322 type Work @default.
W2899697322 sameAs 2899697322 @default.
W2899697322 citedByCount "12" @default.
W2899697322 countsByYear W28996973222019 @default.
W2899697322 countsByYear W28996973222021 @default.
W2899697322 countsByYear W28996973222022 @default.
W2899697322 countsByYear W28996973222023 @default.
W2899697322 crossrefType "journal-article" @default.
W2899697322 hasAuthorship W2899697322A5031570888 @default.
W2899697322 hasAuthorship W2899697322A5037589329 @default.
W2899697322 hasAuthorship W2899697322A5048695928 @default.
W2899697322 hasAuthorship W2899697322A5049491368 @default.
W2899697322 hasAuthorship W2899697322A5091258830 @default.
W2899697322 hasBestOaLocation W28996973221 @default.
W2899697322 hasConcept C120809312 @default.
W2899697322 hasConcept C122792734 @default.
W2899697322 hasConcept C127313418 @default.
W2899697322 hasConcept C127413603 @default.
W2899697322 hasConcept C132186339 @default.
W2899697322 hasConcept C159985019 @default.
W2899697322 hasConcept C161509811 @default.
W2899697322 hasConcept C167284885 @default.
W2899697322 hasConcept C17409809 @default.
W2899697322 hasConcept C191897082 @default.
W2899697322 hasConcept C192562407 @default.
W2899697322 hasConcept C195081551 @default.
W2899697322 hasConcept C199289684 @default.
W2899697322 hasConcept C2776277684 @default.
W2899697322 hasConcept C2777335606 @default.
W2899697322 hasConcept C2780364934 @default.
W2899697322 hasConcept C42360764 @default.
W2899697322 hasConceptScore W2899697322C120809312 @default.
W2899697322 hasConceptScore W2899697322C122792734 @default.
W2899697322 hasConceptScore W2899697322C127313418 @default.
W2899697322 hasConceptScore W2899697322C127413603 @default.
W2899697322 hasConceptScore W2899697322C132186339 @default.
W2899697322 hasConceptScore W2899697322C159985019 @default.
W2899697322 hasConceptScore W2899697322C161509811 @default.