SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2994268970> ?p ?o ?g. }

Showing items 1 to 100 of ±104 with 100 items per page.

W2994268970 endingPage "116506" @default.
W2994268970 startingPage "116506" @default.
W2994268970 abstract "The chloride (Cl) addition is an effective mercury oxidation technology. However, it is difficult to determine the optimal amount of Cl addition due to the unanswered question of how elemental mercury (Hg0) is oxidized by Cl. This study used the one-dimensional drop furnace and heterogeneous oxidation models to study the reaction mechanism between Hg0 and Cl in the combustion flue gas. This study finds that the Cl and Hg0 oxidation mechanism follows the E-R mechanism. The formed active Cl atom (Cl*) on the active sites directly oxidizes the Hg0 into the Hg2Cl2 or HgCl2. Then the Hg2Cl2 or HgCl2 transfer from active sites into the gas phase. However, when the addition amount exceeds optimum point, the subsequent Cl addition will not further increase the oxidation ratio of Hg0. The optimum point of Cl addition is 40 ppm via solution impregnation addition but it is 400 ppm via HCl gas addition, respectively. Therefore, the solution impregnation is a more effective method to oxidize Hg0 compared with the HCl addition in flue gas. These results provide important guidance on the Cl addition practice in the combustion flue gas." @default.
W2994268970 created "2019-12-13" @default.
W2994268970 creator A5055420452 @default.
W2994268970 creator A5071798264 @default.
W2994268970 creator A5083848380 @default.
W2994268970 date "2020-02-01" @default.
W2994268970 modified "2023-09-24" @default.
W2994268970 title "Modeling the heterogeneous oxidation of elemental mercury by chlorine in flue gas" @default.
W2994268970 cites W1964215789 @default.
W2994268970 cites W1967425038 @default.
W2994268970 cites W1977997384 @default.
W2994268970 cites W1981644098 @default.
W2994268970 cites W1983935017 @default.
W2994268970 cites W1990722355 @default.
W2994268970 cites W2004184584 @default.
W2994268970 cites W2007114939 @default.
W2994268970 cites W2007879748 @default.
W2994268970 cites W2022323482 @default.
W2994268970 cites W2025609302 @default.
W2994268970 cites W2026125208 @default.
W2994268970 cites W2027812362 @default.
W2994268970 cites W2042841256 @default.
W2994268970 cites W2053701986 @default.
W2994268970 cites W2056986629 @default.
W2994268970 cites W2062706465 @default.
W2994268970 cites W2064625789 @default.
W2994268970 cites W2073293325 @default.
W2994268970 cites W2077337633 @default.
W2994268970 cites W2077481266 @default.
W2994268970 cites W2077711283 @default.
W2994268970 cites W2086831643 @default.
W2994268970 cites W2112286899 @default.
W2994268970 cites W2137857890 @default.
W2994268970 cites W2140318959 @default.
W2994268970 cites W2168074416 @default.
W2994268970 cites W2258733486 @default.
W2994268970 cites W2332480623 @default.
W2994268970 cites W2332619279 @default.
W2994268970 cites W2347165009 @default.
W2994268970 cites W2393824817 @default.
W2994268970 cites W2508183921 @default.
W2994268970 cites W2549618048 @default.
W2994268970 cites W2559152590 @default.
W2994268970 cites W2571178540 @default.
W2994268970 cites W314710723 @default.
W2994268970 cites W4231792449 @default.
W2994268970 doi "https://doi.org/10.1016/j.fuel.2019.116506" @default.
W2994268970 hasPublicationYear "2020" @default.
W2994268970 type Work @default.
W2994268970 sameAs 2994268970 @default.
W2994268970 citedByCount "14" @default.
W2994268970 countsByYear W29942689702020 @default.
W2994268970 countsByYear W29942689702021 @default.
W2994268970 countsByYear W29942689702022 @default.
W2994268970 countsByYear W29942689702023 @default.
W2994268970 crossrefType "journal-article" @default.
W2994268970 hasAuthorship W2994268970A5055420452 @default.
W2994268970 hasAuthorship W2994268970A5071798264 @default.
W2994268970 hasAuthorship W2994268970A5083848380 @default.
W2994268970 hasConcept C105923489 @default.
W2994268970 hasConcept C167206829 @default.
W2994268970 hasConcept C178790620 @default.
W2994268970 hasConcept C179104552 @default.
W2994268970 hasConcept C185592680 @default.
W2994268970 hasConcept C199360897 @default.
W2994268970 hasConcept C2777777548 @default.
W2994268970 hasConcept C2778695967 @default.
W2994268970 hasConcept C3019217084 @default.
W2994268970 hasConcept C3020013744 @default.
W2994268970 hasConcept C41008148 @default.
W2994268970 hasConcept C505241676 @default.
W2994268970 hasConceptScore W2994268970C105923489 @default.
W2994268970 hasConceptScore W2994268970C167206829 @default.
W2994268970 hasConceptScore W2994268970C178790620 @default.
W2994268970 hasConceptScore W2994268970C179104552 @default.
W2994268970 hasConceptScore W2994268970C185592680 @default.
W2994268970 hasConceptScore W2994268970C199360897 @default.
W2994268970 hasConceptScore W2994268970C2777777548 @default.
W2994268970 hasConceptScore W2994268970C2778695967 @default.
W2994268970 hasConceptScore W2994268970C3019217084 @default.
W2994268970 hasConceptScore W2994268970C3020013744 @default.
W2994268970 hasConceptScore W2994268970C41008148 @default.
W2994268970 hasConceptScore W2994268970C505241676 @default.
W2994268970 hasFunder F4320321001 @default.
W2994268970 hasLocation W29942689701 @default.
W2994268970 hasOpenAccess W2994268970 @default.
W2994268970 hasPrimaryLocation W29942689701 @default.
W2994268970 hasRelatedWork W2010414678 @default.
W2994268970 hasRelatedWork W2023110114 @default.
W2994268970 hasRelatedWork W2074464422 @default.
W2994268970 hasRelatedWork W2094339390 @default.
W2994268970 hasRelatedWork W2313655474 @default.
W2994268970 hasRelatedWork W2331739337 @default.
W2994268970 hasRelatedWork W2348457645 @default.
W2994268970 hasRelatedWork W2356741410 @default.
W2994268970 hasRelatedWork W2376614665 @default.
W2994268970 hasRelatedWork W2774981502 @default.
W2994268970 hasVolume "262" @default.