FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3039884057> ?p ?o ?g. }

• W3039884057 endingPage "13424" @default.
• W3039884057 startingPage "13417" @default.
• W3039884057 abstract "Abstract. Oxidation flow reactors (OFRs) complement environmental smog chambers as a portable, low-cost technique for exposing atmospheric compounds to oxidants such as ozone (O3), nitrate (NO3) radicals, and hydroxyl (OH) radicals. OH is most commonly generated in OFRs via photolysis of externally added O3 at λ=254 nm (OFR254) or combined photolysis of O2 and H2O at λ=185 nm plus photolysis of O3 at λ=254 nm (OFR185) using low-pressure mercury (Hg) lamps. Whereas OFR254 radical generation is influenced by [O3], [H2O], and photon flux at λ=254 nm (I254), OFR185 radical generation is influenced by [O2], [H2O], I185, and I254. Because the ratio of photon fluxes, I185:I254, is OFR-specific, OFR185 performance varies between different systems even when constant [H2O] and I254 are maintained. Thus, calibrations and models developed for one OFR185 system may not be applicable to another. To investigate these issues, we conducted a series of experiments in which I185:I254 emitted by Hg lamps installed in an OFR was systematically varied by fusing multiple segments of lamp quartz together that either transmitted or blocked λ=185 nm radiation. Integrated OH exposure (OHexp) values achieved for each lamp type were obtained using the tracer decay method as a function of UV intensity, humidity, residence time, and external OH reactivity (OHRext). Following previous related studies, a photochemical box model was used to develop a generalized OHexp estimation equation as a function of [H2O], [O3], and OHRext that is applicable for I185:I254≈0.001 to 0.1." @default.
• W3039884057 created "2020-07-10" @default.
• W3039884057 creator A5002451633 @default.
• W3039884057 creator A5021332325 @default.
• W3039884057 creator A5051630368 @default.
• W3039884057 date "2020-11-12" @default.
• W3039884057 modified "2023-10-02" @default.
• W3039884057 title "Technical Note: Effect of varying the &lt;i&gt;λ&lt;/i&gt; = 185 and 254 nm photon flux ratio on radical generation in oxidation flow reactors" @default.
• W3039884057 cites W2095169149 @default.
• W3039884057 cites W2108903266 @default.
• W3039884057 cites W2128484041 @default.
• W3039884057 cites W2131595100 @default.
• W3039884057 cites W2170370505 @default.
• W3039884057 cites W2318445405 @default.
• W3039884057 cites W2460739739 @default.
• W3039884057 cites W2592430154 @default.
• W3039884057 cites W2605626298 @default.
• W3039884057 cites W2756564167 @default.
• W3039884057 cites W2770604572 @default.
• W3039884057 cites W2885272282 @default.
• W3039884057 cites W2894547417 @default.
• W3039884057 cites W2923684679 @default.
• W3039884057 cites W3017384361 @default.
• W3039884057 doi "https://doi.org/10.5194/acp-20-13417-2020" @default.
• W3039884057 hasPublicationYear "2020" @default.
• W3039884057 type Work @default.
• W3039884057 sameAs 3039884057 @default.
• W3039884057 citedByCount "9" @default.
• W3039884057 countsByYear W30398840572021 @default.
• W3039884057 countsByYear W30398840572022 @default.
• W3039884057 countsByYear W30398840572023 @default.
• W3039884057 crossrefType "journal-article" @default.
• W3039884057 hasAuthorship W3039884057A5002451633 @default.
• W3039884057 hasAuthorship W3039884057A5021332325 @default.
• W3039884057 hasAuthorship W3039884057A5051630368 @default.
• W3039884057 hasBestOaLocation W30398840571 @default.
• W3039884057 hasConcept C107872376 @default.
• W3039884057 hasConcept C113196181 @default.
• W3039884057 hasConcept C121332964 @default.
• W3039884057 hasConcept C139066938 @default.
• W3039884057 hasConcept C178790620 @default.
• W3039884057 hasConcept C185544564 @default.
• W3039884057 hasConcept C185592680 @default.
• W3039884057 hasConcept C2776778087 @default.
• W3039884057 hasConcept C2778863792 @default.
• W3039884057 hasConcept C508106653 @default.
• W3039884057 hasConcept C54582936 @default.
• W3039884057 hasConcept C68709404 @default.
• W3039884057 hasConcept C75473681 @default.
• W3039884057 hasConceptScore W3039884057C107872376 @default.
• W3039884057 hasConceptScore W3039884057C113196181 @default.
• W3039884057 hasConceptScore W3039884057C121332964 @default.
• W3039884057 hasConceptScore W3039884057C139066938 @default.
• W3039884057 hasConceptScore W3039884057C178790620 @default.
• W3039884057 hasConceptScore W3039884057C185544564 @default.
• W3039884057 hasConceptScore W3039884057C185592680 @default.
• W3039884057 hasConceptScore W3039884057C2776778087 @default.
• W3039884057 hasConceptScore W3039884057C2778863792 @default.
• W3039884057 hasConceptScore W3039884057C508106653 @default.
• W3039884057 hasConceptScore W3039884057C54582936 @default.
• W3039884057 hasConceptScore W3039884057C68709404 @default.
• W3039884057 hasConceptScore W3039884057C75473681 @default.
• W3039884057 hasIssue "21" @default.
• W3039884057 hasLocation W30398840571 @default.
• W3039884057 hasLocation W30398840572 @default.
• W3039884057 hasOpenAccess W3039884057 @default.
• W3039884057 hasPrimaryLocation W30398840571 @default.
• W3039884057 hasRelatedWork W1964208312 @default.
• W3039884057 hasRelatedWork W1973168946 @default.
• W3039884057 hasRelatedWork W1975504879 @default.
• W3039884057 hasRelatedWork W1979898570 @default.
• W3039884057 hasRelatedWork W2001834384 @default.
• W3039884057 hasRelatedWork W2016464025 @default.
• W3039884057 hasRelatedWork W2381969624 @default.
• W3039884057 hasRelatedWork W2949497137 @default.
• W3039884057 hasRelatedWork W3144838135 @default.
• W3039884057 hasRelatedWork W4294991321 @default.
• W3039884057 hasVolume "20" @default.
• W3039884057 isParatext "false" @default.
• W3039884057 isRetracted "false" @default.
• W3039884057 magId "3039884057" @default.
• W3039884057 workType "article" @default.