SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3087857234> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W3087857234 endingPage "128430" @default.
W3087857234 startingPage "128430" @default.
W3087857234 abstract "Non-thermal plasma (NTP) has developed into an emerging end-of-pipe technology for treating volatile organic compounds (VOCs) present in unhygienic point source of air streams. In this work, NTP oxidation of low-concentration ethyl acetate was performed in a coaxial double dielectric barrier discharge reactor. The effects of initial ethyl acetate concentration, gas flow rate, and external electrode length on ethyl acetate degradation were systematically investigated as a function of discharge power. In addition, detailed real-time and online proton transfer reaction mass spectrometry analysis was used to identify the transient species formation and transition in the various NTP oxidation periods of ethyl acetate. Based on the analysis of organic by-products, the degradation mechanism was speculated and the major reaction channels were presented. This study would deepen the understanding of plasma degradation of VOCs and reveal the plasma-chemical mechanism." @default.
W3087857234 created "2020-10-01" @default.
W3087857234 creator A5012909716 @default.
W3087857234 creator A5025984207 @default.
W3087857234 creator A5033848652 @default.
W3087857234 creator A5039773551 @default.
W3087857234 creator A5042780171 @default.
W3087857234 creator A5042877596 @default.
W3087857234 creator A5050810877 @default.
W3087857234 date "2021-02-01" @default.
W3087857234 modified "2023-10-05" @default.
W3087857234 title "Real-time analysis of intermediate products from non-thermal plasma degradation of ethyl acetate in air using PTR-MS: Performance evaluation and mechanism study" @default.
W3087857234 cites W1967580612 @default.
W3087857234 cites W1972807887 @default.
W3087857234 cites W1974451390 @default.
W3087857234 cites W1977433355 @default.
W3087857234 cites W1995444285 @default.
W3087857234 cites W2001302923 @default.
W3087857234 cites W2002834300 @default.
W3087857234 cites W2011685958 @default.
W3087857234 cites W2031758032 @default.
W3087857234 cites W2033238649 @default.
W3087857234 cites W2034680675 @default.
W3087857234 cites W2043908688 @default.
W3087857234 cites W2046320809 @default.
W3087857234 cites W2047457654 @default.
W3087857234 cites W2048258453 @default.
W3087857234 cites W2048409597 @default.
W3087857234 cites W2068862631 @default.
W3087857234 cites W2076061177 @default.
W3087857234 cites W2082068703 @default.
W3087857234 cites W2088222608 @default.
W3087857234 cites W2094816391 @default.
W3087857234 cites W2154867670 @default.
W3087857234 cites W2158881143 @default.
W3087857234 cites W2186173975 @default.
W3087857234 cites W2290977575 @default.
W3087857234 cites W2521968352 @default.
W3087857234 cites W2547701125 @default.
W3087857234 cites W2607359772 @default.
W3087857234 cites W2609163652 @default.
W3087857234 cites W2622969108 @default.
W3087857234 cites W2754544911 @default.
W3087857234 cites W2757526448 @default.
W3087857234 cites W2762596685 @default.
W3087857234 cites W2771618966 @default.
W3087857234 cites W2783334197 @default.
W3087857234 cites W2802666121 @default.
W3087857234 cites W2820790895 @default.
W3087857234 cites W2883411725 @default.
W3087857234 cites W2884822746 @default.
W3087857234 cites W2890584202 @default.
W3087857234 cites W2898243628 @default.
W3087857234 cites W2901598246 @default.
W3087857234 cites W2903512661 @default.
W3087857234 cites W2907793761 @default.
W3087857234 cites W2910984700 @default.
W3087857234 cites W2911454893 @default.
W3087857234 cites W2940404679 @default.
W3087857234 cites W2943925084 @default.
W3087857234 cites W2946160603 @default.
W3087857234 cites W2963385021 @default.
W3087857234 cites W2966410261 @default.
W3087857234 cites W2979601454 @default.
W3087857234 cites W758717768 @default.
W3087857234 doi "https://doi.org/10.1016/j.chemosphere.2020.128430" @default.
W3087857234 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33002801" @default.
W3087857234 hasPublicationYear "2021" @default.
W3087857234 type Work @default.
W3087857234 sameAs 3087857234 @default.
W3087857234 citedByCount "9" @default.
W3087857234 countsByYear W30878572342020 @default.
W3087857234 countsByYear W30878572342021 @default.
W3087857234 countsByYear W30878572342022 @default.
W3087857234 countsByYear W30878572342023 @default.
W3087857234 crossrefType "journal-article" @default.
W3087857234 hasAuthorship W3087857234A5012909716 @default.
W3087857234 hasAuthorship W3087857234A5025984207 @default.
W3087857234 hasAuthorship W3087857234A5033848652 @default.
W3087857234 hasAuthorship W3087857234A5039773551 @default.
W3087857234 hasAuthorship W3087857234A5042780171 @default.
W3087857234 hasAuthorship W3087857234A5042877596 @default.
W3087857234 hasAuthorship W3087857234A5050810877 @default.
W3087857234 hasConcept C107872376 @default.
W3087857234 hasConcept C121332964 @default.
W3087857234 hasConcept C13674155 @default.
W3087857234 hasConcept C147789679 @default.
W3087857234 hasConcept C162356407 @default.
W3087857234 hasConcept C17525397 @default.
W3087857234 hasConcept C185592680 @default.
W3087857234 hasConcept C2779679103 @default.
W3087857234 hasConcept C2779858419 @default.
W3087857234 hasConcept C41008148 @default.
W3087857234 hasConcept C43617362 @default.
W3087857234 hasConcept C62520636 @default.
W3087857234 hasConcept C76155785 @default.
W3087857234 hasConcept C82706917 @default.
W3087857234 hasConcept C89448510 @default.