SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200329560> ?p ?o ?g. }

Showing items 1 to 100 of ±132 with 100 items per page.

W4200329560 endingPage "112541" @default.
W4200329560 startingPage "112541" @default.
W4200329560 abstract "Chemical absorption-biological reduction (CABR) process is an attractive method for NOX removal and Fe(II)EDTA regeneration is important to sustain high NOX removal. In this study a sustainable and eco-friendly sulfur cycling-mediated Fe(II)EDTA regeneration method was incorporated in the integrated biological flue gas desulfurization (FGD)-CABR system. Here, we investigated the NOX and SO2 removal efficiency of the system under three different flue gas flows (100 mL/min, 500 mL/min, and 1000 mL/min) and evaluated the feasibility of chemical Fe(III)EDTA reduction by sulfide in series of batch tests. Our results showed that complete SO2 removal was achieved at all the tested scenarios with sulfide, thiosulfate and S0 accumulation in the solution. Meanwhile, the total removal efficiency of NOX achieved ∼100% in the system, of which 3.2%-23.3% was removed in spray scrubber and 76.7%-96.5% in EGSB reactor along with no N2O emission. The optimal pH and S2-/Fe(III)EDTA for Fe(II)EDTA regeneration and S0 recovery was 8.0 and 1:2. The microbial community analysis results showed that the cooperation of heterotrophic denitrifier (Saprospiraceae_uncultured and Dechloromonas) and iron-reducing bacteria (Klebsiella and Petrimonas) in EGSB reactor and sulfide-oxidizing, nitrate-reducing bacteria (Azoarcus and Pseudarcobacter) in spray scrubber contributed to the efficient removal of NOX in flue gas." @default.
W4200329560 created "2021-12-31" @default.
W4200329560 creator A5000775569 @default.
W4200329560 creator A5016518424 @default.
W4200329560 creator A5040295597 @default.
W4200329560 creator A5052090956 @default.
W4200329560 creator A5069084441 @default.
W4200329560 creator A5073284312 @default.
W4200329560 creator A5081118693 @default.
W4200329560 creator A5090194647 @default.
W4200329560 date "2022-04-01" @default.
W4200329560 modified "2023-10-12" @default.
W4200329560 title "Simultaneous removal of NOX and SO2 from flue gas in an integrated FGD-CABR system by sulfur cycling-mediated Fe(II)EDTA regeneration" @default.
W4200329560 cites W1530731540 @default.
W4200329560 cites W1556116257 @default.
W4200329560 cites W1969996364 @default.
W4200329560 cites W1983426960 @default.
W4200329560 cites W1999705192 @default.
W4200329560 cites W2007701725 @default.
W4200329560 cites W2034696339 @default.
W4200329560 cites W2042467154 @default.
W4200329560 cites W2047275384 @default.
W4200329560 cites W2054727731 @default.
W4200329560 cites W2068975114 @default.
W4200329560 cites W2077534756 @default.
W4200329560 cites W2079770289 @default.
W4200329560 cites W2080494418 @default.
W4200329560 cites W2080834735 @default.
W4200329560 cites W2081243203 @default.
W4200329560 cites W2149157476 @default.
W4200329560 cites W2162032641 @default.
W4200329560 cites W2167016531 @default.
W4200329560 cites W2318227841 @default.
W4200329560 cites W2319998294 @default.
W4200329560 cites W2322704502 @default.
W4200329560 cites W2324078025 @default.
W4200329560 cites W2399571872 @default.
W4200329560 cites W2591868793 @default.
W4200329560 cites W2626087633 @default.
W4200329560 cites W2791815158 @default.
W4200329560 cites W2794241951 @default.
W4200329560 cites W2810139262 @default.
W4200329560 cites W2889939491 @default.
W4200329560 cites W2894592871 @default.
W4200329560 cites W2945600753 @default.
W4200329560 cites W2952060672 @default.
W4200329560 cites W2962603907 @default.
W4200329560 cites W2977509590 @default.
W4200329560 cites W2990362038 @default.
W4200329560 cites W3020826254 @default.
W4200329560 cites W3036433633 @default.
W4200329560 cites W3082071678 @default.
W4200329560 cites W3082248566 @default.
W4200329560 cites W3095845868 @default.
W4200329560 cites W3119991964 @default.
W4200329560 cites W3134343967 @default.
W4200329560 cites W3134587606 @default.
W4200329560 cites W3136606609 @default.
W4200329560 cites W3137773909 @default.
W4200329560 cites W3160202303 @default.
W4200329560 cites W3164663397 @default.
W4200329560 cites W3171666475 @default.
W4200329560 cites W3194563455 @default.
W4200329560 cites W842864722 @default.
W4200329560 doi "https://doi.org/10.1016/j.envres.2021.112541" @default.
W4200329560 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34915032" @default.
W4200329560 hasPublicationYear "2022" @default.
W4200329560 type Work @default.
W4200329560 citedByCount "13" @default.
W4200329560 countsByYear W42003295602022 @default.
W4200329560 countsByYear W42003295602023 @default.
W4200329560 crossrefType "journal-article" @default.
W4200329560 hasAuthorship W4200329560A5000775569 @default.
W4200329560 hasAuthorship W4200329560A5016518424 @default.
W4200329560 hasAuthorship W4200329560A5040295597 @default.
W4200329560 hasAuthorship W4200329560A5052090956 @default.
W4200329560 hasAuthorship W4200329560A5069084441 @default.
W4200329560 hasAuthorship W4200329560A5073284312 @default.
W4200329560 hasAuthorship W4200329560A5081118693 @default.
W4200329560 hasAuthorship W4200329560A5090194647 @default.
W4200329560 hasConcept C105923489 @default.
W4200329560 hasConcept C107053047 @default.
W4200329560 hasConcept C107872376 @default.
W4200329560 hasConcept C167206829 @default.
W4200329560 hasConcept C178790620 @default.
W4200329560 hasConcept C179104552 @default.
W4200329560 hasConcept C185592680 @default.
W4200329560 hasConcept C203032635 @default.
W4200329560 hasConcept C2776384668 @default.
W4200329560 hasConcept C2780447027 @default.
W4200329560 hasConcept C2780596425 @default.
W4200329560 hasConcept C2781090017 @default.
W4200329560 hasConcept C518881349 @default.
W4200329560 hasConcept C68000547 @default.
W4200329560 hasConcept C77176794 @default.
W4200329560 hasConcept C79225920 @default.
W4200329560 hasConceptScore W4200329560C105923489 @default.
W4200329560 hasConceptScore W4200329560C107053047 @default.