SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4285403795> ?p ?o ?g. }

Showing items 1 to 100 of ±117 with 100 items per page.

W4285403795 endingPage "135683" @default.
W4285403795 startingPage "135683" @default.
W4285403795 abstract "Based on the ultra-low emission demand of SO2 and NOx in flue gas, a new absorption method was proposed to improve the desulfurization and denitrification efficiency and reduce the amount of ozone by using sodium ascorbate as an additive in red mud slurry. Compared with pure red mud slurry, the red mud (RM) + sodium ascorbate (SA) slurry significantly improved the denitrification efficiency from 24% to 84% and the desulfurization efficiency to 98%. Meanwhile, the effects of RM, SA concentration, reaction time and O3/NO molar ratio on desulfurization and denitrification efficiencies were studied. The results showed that the RM + SA composite slurry maintained high efficiencies of desulfurization and denitrification for 240 min under the optimized conditions. As an antioxidant, the introduction of SA inhibited the excessive oxidation of sulfite, and itself could easily react with NO2 through the redox reaction, greatly promoting the absorption of NO2. In addition, the reaction mechanism of the simultaneous removal of SO2 and NO2 by red mud and sodium ascorbic mixed slurry combined was proposed." @default.
W4285403795 created "2022-07-14" @default.
W4285403795 creator A5029695887 @default.
W4285403795 creator A5047737377 @default.
W4285403795 creator A5066978848 @default.
W4285403795 creator A5071992564 @default.
W4285403795 creator A5080041548 @default.
W4285403795 date "2022-11-01" @default.
W4285403795 modified "2023-10-13" @default.
W4285403795 title "Sodium ascorbate as additive in red mud slurry for simultaneous desulfurization and denitrification: Insights into the multiple influence factors and reaction mechanism" @default.
W4285403795 cites W1975093523 @default.
W4285403795 cites W1975208468 @default.
W4285403795 cites W1980417282 @default.
W4285403795 cites W1982750883 @default.
W4285403795 cites W1985725336 @default.
W4285403795 cites W1992972155 @default.
W4285403795 cites W1995820612 @default.
W4285403795 cites W1996284428 @default.
W4285403795 cites W1997484435 @default.
W4285403795 cites W2003974600 @default.
W4285403795 cites W2018401700 @default.
W4285403795 cites W2029172508 @default.
W4285403795 cites W2030797847 @default.
W4285403795 cites W2032158241 @default.
W4285403795 cites W2040256668 @default.
W4285403795 cites W2041073295 @default.
W4285403795 cites W2047668246 @default.
W4285403795 cites W2052643364 @default.
W4285403795 cites W2056052364 @default.
W4285403795 cites W2059539737 @default.
W4285403795 cites W2064855096 @default.
W4285403795 cites W2092074647 @default.
W4285403795 cites W2168974669 @default.
W4285403795 cites W2239267881 @default.
W4285403795 cites W2315841789 @default.
W4285403795 cites W2335397441 @default.
W4285403795 cites W2511621279 @default.
W4285403795 cites W2768433387 @default.
W4285403795 cites W2768745166 @default.
W4285403795 cites W2791019719 @default.
W4285403795 cites W2808473885 @default.
W4285403795 cites W2809788844 @default.
W4285403795 cites W2911355461 @default.
W4285403795 cites W2913341185 @default.
W4285403795 cites W2921033750 @default.
W4285403795 cites W2949910814 @default.
W4285403795 cites W2955520315 @default.
W4285403795 cites W2972763720 @default.
W4285403795 cites W2992437611 @default.
W4285403795 cites W3005536418 @default.
W4285403795 cites W3082534668 @default.
W4285403795 cites W3086736986 @default.
W4285403795 cites W3096437411 @default.
W4285403795 cites W3105182719 @default.
W4285403795 cites W3157326418 @default.
W4285403795 cites W3194599851 @default.
W4285403795 cites W3206267399 @default.
W4285403795 cites W800262169 @default.
W4285403795 doi "https://doi.org/10.1016/j.chemosphere.2022.135683" @default.
W4285403795 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35843437" @default.
W4285403795 hasPublicationYear "2022" @default.
W4285403795 type Work @default.
W4285403795 citedByCount "0" @default.
W4285403795 crossrefType "journal-article" @default.
W4285403795 hasAuthorship W4285403795A5029695887 @default.
W4285403795 hasAuthorship W4285403795A5047737377 @default.
W4285403795 hasAuthorship W4285403795A5066978848 @default.
W4285403795 hasAuthorship W4285403795A5071992564 @default.
W4285403795 hasAuthorship W4285403795A5080041548 @default.
W4285403795 hasConcept C127413603 @default.
W4285403795 hasConcept C147789679 @default.
W4285403795 hasConcept C178790620 @default.
W4285403795 hasConcept C179104552 @default.
W4285403795 hasConcept C185592680 @default.
W4285403795 hasConcept C2780230665 @default.
W4285403795 hasConcept C2781289256 @default.
W4285403795 hasConcept C537181965 @default.
W4285403795 hasConcept C537208039 @default.
W4285403795 hasConcept C68000547 @default.
W4285403795 hasConcept C73593433 @default.
W4285403795 hasConcept C87717796 @default.
W4285403795 hasConcept C94293008 @default.
W4285403795 hasConceptScore W4285403795C127413603 @default.
W4285403795 hasConceptScore W4285403795C147789679 @default.
W4285403795 hasConceptScore W4285403795C178790620 @default.
W4285403795 hasConceptScore W4285403795C179104552 @default.
W4285403795 hasConceptScore W4285403795C185592680 @default.
W4285403795 hasConceptScore W4285403795C2780230665 @default.
W4285403795 hasConceptScore W4285403795C2781289256 @default.
W4285403795 hasConceptScore W4285403795C537181965 @default.
W4285403795 hasConceptScore W4285403795C537208039 @default.
W4285403795 hasConceptScore W4285403795C68000547 @default.
W4285403795 hasConceptScore W4285403795C73593433 @default.
W4285403795 hasConceptScore W4285403795C87717796 @default.
W4285403795 hasConceptScore W4285403795C94293008 @default.
W4285403795 hasFunder F4320321001 @default.
W4285403795 hasFunder F4320335777 @default.
W4285403795 hasLocation W42854037951 @default.