SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200302054> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W4200302054 endingPage "133433" @default.
W4200302054 startingPage "133433" @default.
W4200302054 abstract "With the development of phytoremediation for soil contamination, disposal of phytoremediation plant becomes a serious problem. Thermochemical conversion of phytoremediation plant can greatly reduce the volume and mass, meanwhile the clean and reusable utilization is realized. As one of the thermochemical conversion technologies, chemical looping (CL) offers a carbon negative way for clean utilization of biomass. In this technology, CaO has binary roles of heavy metal solidification and CO2 sorption for gasification enhancement. To assess the CaO pathway in CL of phytoremediation plant, two different CL processes are constructed and comparatively studied based on thermodynamic evaluation. The effects of different operating parameters on the products of gasifier (GR) and reduction reactor (RR) are compared and discussed. Results demonstrated that the CaO addition in GR is beneficial to the production of pure combustible gases. Increasing RR temperature can promote the chemical looping reactions in RR. Under lower temperature, CaO in RR can consume more CO2 leading to CO2 free environment. When it is higher than 850 °C, there is no effect of CaO in RR. Increasing the amount of OC in system can enhance the conversion of combustible gases. When αOC is higher than 0.3, the OC is reduced to a mixed state of Fe3O4 and FeO. When the CaO circulates only between GR and calciner, pure CO2 can be captured at the outlet of calciner. Existence of CaO is beneficial to retain Cd and Zn in solid phases. When the gasification temperature increases from 500 °C to 800 °C, the Cd(g) increases while Cd decreases in both CL1 and CL2. For a long lifetime of OC, CaO is suggested to circulates between GR and calciner." @default.
W4200302054 created "2021-12-31" @default.
W4200302054 creator A5013080021 @default.
W4200302054 creator A5018151964 @default.
W4200302054 creator A5020079903 @default.
W4200302054 creator A5024618532 @default.
W4200302054 creator A5062017281 @default.
W4200302054 date "2022-04-01" @default.
W4200302054 modified "2023-10-16" @default.
W4200302054 title "Thermodynamic evaluation on chemical looping conversion of Cd- and Zn-contained phytoremediation plant with different CaO pathways" @default.
W4200302054 cites W1994743524 @default.
W4200302054 cites W2003611777 @default.
W4200302054 cites W2020315032 @default.
W4200302054 cites W2057299096 @default.
W4200302054 cites W2212862212 @default.
W4200302054 cites W2329827842 @default.
W4200302054 cites W2461104719 @default.
W4200302054 cites W2523268126 @default.
W4200302054 cites W2592841829 @default.
W4200302054 cites W2615333633 @default.
W4200302054 cites W2770076845 @default.
W4200302054 cites W2775185835 @default.
W4200302054 cites W2781911656 @default.
W4200302054 cites W2784350055 @default.
W4200302054 cites W2792133216 @default.
W4200302054 cites W2793101648 @default.
W4200302054 cites W2793166930 @default.
W4200302054 cites W2802789281 @default.
W4200302054 cites W2887775724 @default.
W4200302054 cites W2888529116 @default.
W4200302054 cites W2889770876 @default.
W4200302054 cites W2892677796 @default.
W4200302054 cites W2896083576 @default.
W4200302054 cites W2897133033 @default.
W4200302054 cites W2897168277 @default.
W4200302054 cites W2898291221 @default.
W4200302054 cites W2899740735 @default.
W4200302054 cites W2941447070 @default.
W4200302054 cites W2955388741 @default.
W4200302054 cites W2955521281 @default.
W4200302054 cites W2966818719 @default.
W4200302054 cites W2969767739 @default.
W4200302054 cites W2979724548 @default.
W4200302054 cites W2981188248 @default.
W4200302054 cites W2981204638 @default.
W4200302054 cites W2981921567 @default.
W4200302054 cites W2988878475 @default.
W4200302054 cites W2996853455 @default.
W4200302054 cites W2999493880 @default.
W4200302054 cites W2999503768 @default.
W4200302054 cites W2999528593 @default.
W4200302054 cites W3009861179 @default.
W4200302054 cites W3017295650 @default.
W4200302054 cites W3026495449 @default.
W4200302054 cites W3035561373 @default.
W4200302054 cites W3040518693 @default.
W4200302054 cites W3043136730 @default.
W4200302054 cites W3044697879 @default.
W4200302054 cites W3083207554 @default.
W4200302054 cites W3085101993 @default.
W4200302054 cites W3093981556 @default.
W4200302054 cites W3107715616 @default.
W4200302054 cites W3108805905 @default.
W4200302054 cites W3112070256 @default.
W4200302054 cites W3123438422 @default.
W4200302054 cites W3123960322 @default.
W4200302054 cites W3185525139 @default.
W4200302054 cites W3203032861 @default.
W4200302054 doi "https://doi.org/10.1016/j.chemosphere.2021.133433" @default.
W4200302054 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34968514" @default.
W4200302054 hasPublicationYear "2022" @default.
W4200302054 type Work @default.
W4200302054 citedByCount "3" @default.
W4200302054 countsByYear W42003020542023 @default.
W4200302054 crossrefType "journal-article" @default.
W4200302054 hasAuthorship W4200302054A5013080021 @default.
W4200302054 hasAuthorship W4200302054A5018151964 @default.
W4200302054 hasAuthorship W4200302054A5020079903 @default.
W4200302054 hasAuthorship W4200302054A5024618532 @default.
W4200302054 hasAuthorship W4200302054A5062017281 @default.
W4200302054 hasConcept C107872376 @default.
W4200302054 hasConcept C111368507 @default.
W4200302054 hasConcept C115540264 @default.
W4200302054 hasConcept C127313418 @default.
W4200302054 hasConcept C127413603 @default.
W4200302054 hasConcept C150394285 @default.
W4200302054 hasConcept C15229330 @default.
W4200302054 hasConcept C158089330 @default.
W4200302054 hasConcept C178790620 @default.
W4200302054 hasConcept C185592680 @default.
W4200302054 hasConcept C2084832 @default.
W4200302054 hasConcept C2776053758 @default.
W4200302054 hasConcept C518851703 @default.
W4200302054 hasConcept C548081761 @default.
W4200302054 hasConcept C58445606 @default.
W4200302054 hasConcept C63797996 @default.
W4200302054 hasConceptScore W4200302054C107872376 @default.
W4200302054 hasConceptScore W4200302054C111368507 @default.