FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2017300527> ?p ?o ?g. }

• W2017300527 endingPage "158" @default.
• W2017300527 startingPage "148" @default.
• W2017300527 abstract "Near source modeling is needed to assess primary and secondary pollutant impacts from single sources and single source complexes. Source–receptor relationships need to be resolved from tens of meters to tens of kilometers. Dispersion models are typically applied for near-source primary pollutant impacts but lack complex photochemistry. Photochemical models provide a realistic chemical environment but are typically applied using grid cell sizes that may be larger than the distance between sources and receptors. It is important to understand the impacts of grid resolution and sub-grid plume treatments on photochemical modeling of near-source primary pollution gradients. Here, the CAMx photochemical grid model is applied using multiple grid resolutions and sub-grid plume treatment for SO2 and compared with a receptor mesonet largely impacted by nearby sources approximately 3–17 km away in a complex terrain environment. Measurements are compared with model estimates of SO2 at 4- and 1-km resolution, both with and without sub-grid plume treatment and inclusion of finer two-way grid nests. Annual average estimated SO2 mixing ratios are highest nearest the sources and decrease as distance from the sources increase. In general, CAMx estimates of SO2 do not compare well with the near-source observations when paired in space and time. Given the proximity of these sources and receptors, accuracy in wind vector estimation is critical for applications that pair pollutant predictions and observations in time and space. In typical permit applications, predictions and observations are not paired in time and space and the entire distributions of each are directly compared. Using this approach, model estimates using 1-km grid resolution best match the distribution of observations and are most comparable to similar studies that used dispersion and Lagrangian modeling systems. Model-estimated SO2 increases as grid cell size decreases from 4 km to 250 m. However, it is notable that the 1-km model estimates using 1-km meteorological model input are higher than the 1-km model simulation that used interpolated 4-km meteorology. The inclusion of sub-grid plume treatment did not improve model skill in predicting SO2 in time and space and generally acts to keep emitted mass aloft." @default.
• W2017300527 created "2016-06-24" @default.
• W2017300527 creator A5024586988 @default.
• W2017300527 creator A5033653318 @default.
• W2017300527 creator A5064772142 @default.
• W2017300527 date "2014-12-01" @default.
• W2017300527 modified "2023-10-02" @default.
• W2017300527 title "Photochemical grid model performance with varying horizontal grid resolution and sub-grid plume treatment for the Martins Creek near-field SO2 study" @default.
• W2017300527 cites W1971485533 @default.
• W2017300527 cites W1972222097 @default.
• W2017300527 cites W1984330584 @default.
• W2017300527 cites W1988402032 @default.
• W2017300527 cites W1989445238 @default.
• W2017300527 cites W1995475800 @default.
• W2017300527 cites W1997132789 @default.
• W2017300527 cites W2004731026 @default.
• W2017300527 cites W2027561202 @default.
• W2017300527 cites W2028979275 @default.
• W2017300527 cites W2036256427 @default.
• W2017300527 cites W2056308410 @default.
• W2017300527 cites W2068888756 @default.
• W2017300527 cites W2070927991 @default.
• W2017300527 cites W2073945818 @default.
• W2017300527 cites W2084710179 @default.
• W2017300527 cites W2108613548 @default.
• W2017300527 cites W2118402580 @default.
• W2017300527 cites W2131695253 @default.
• W2017300527 cites W2150124228 @default.
• W2017300527 cites W2163213569 @default.
• W2017300527 cites W2168795429 @default.
• W2017300527 cites W2173447521 @default.
• W2017300527 cites W2173632050 @default.
• W2017300527 cites W2178483954 @default.
• W2017300527 cites W2179285023 @default.
• W2017300527 cites W2180415739 @default.
• W2017300527 cites W2324376043 @default.
• W2017300527 doi "https://doi.org/10.1016/j.atmosenv.2014.09.064" @default.
• W2017300527 hasPublicationYear "2014" @default.
• W2017300527 type Work @default.
• W2017300527 sameAs 2017300527 @default.
• W2017300527 citedByCount "9" @default.
• W2017300527 countsByYear W20173005272014 @default.
• W2017300527 countsByYear W20173005272015 @default.
• W2017300527 countsByYear W20173005272016 @default.
• W2017300527 countsByYear W20173005272017 @default.
• W2017300527 countsByYear W20173005272018 @default.
• W2017300527 countsByYear W20173005272021 @default.
• W2017300527 countsByYear W20173005272023 @default.
• W2017300527 crossrefType "journal-article" @default.
• W2017300527 hasAuthorship W2017300527A5024586988 @default.
• W2017300527 hasAuthorship W2017300527A5033653318 @default.
• W2017300527 hasAuthorship W2017300527A5064772142 @default.
• W2017300527 hasConcept C120665830 @default.
• W2017300527 hasConcept C121332964 @default.
• W2017300527 hasConcept C127313418 @default.
• W2017300527 hasConcept C13280743 @default.
• W2017300527 hasConcept C153294291 @default.
• W2017300527 hasConcept C161840515 @default.
• W2017300527 hasConcept C177562468 @default.
• W2017300527 hasConcept C187691185 @default.
• W2017300527 hasConcept C205649164 @default.
• W2017300527 hasConcept C2775835907 @default.
• W2017300527 hasConcept C2775840915 @default.
• W2017300527 hasConcept C2983008078 @default.
• W2017300527 hasConcept C39432304 @default.
• W2017300527 hasConcept C58640448 @default.
• W2017300527 hasConceptScore W2017300527C120665830 @default.
• W2017300527 hasConceptScore W2017300527C121332964 @default.
• W2017300527 hasConceptScore W2017300527C127313418 @default.
• W2017300527 hasConceptScore W2017300527C13280743 @default.
• W2017300527 hasConceptScore W2017300527C153294291 @default.
• W2017300527 hasConceptScore W2017300527C161840515 @default.
• W2017300527 hasConceptScore W2017300527C177562468 @default.
• W2017300527 hasConceptScore W2017300527C187691185 @default.
• W2017300527 hasConceptScore W2017300527C205649164 @default.
• W2017300527 hasConceptScore W2017300527C2775835907 @default.
• W2017300527 hasConceptScore W2017300527C2775840915 @default.
• W2017300527 hasConceptScore W2017300527C2983008078 @default.
• W2017300527 hasConceptScore W2017300527C39432304 @default.
• W2017300527 hasConceptScore W2017300527C58640448 @default.
• W2017300527 hasLocation W20173005271 @default.
• W2017300527 hasOpenAccess W2017300527 @default.
• W2017300527 hasPrimaryLocation W20173005271 @default.
• W2017300527 hasRelatedWork W1829798180 @default.
• W2017300527 hasRelatedWork W1981054329 @default.
• W2017300527 hasRelatedWork W1990491024 @default.
• W2017300527 hasRelatedWork W2020356831 @default.
• W2017300527 hasRelatedWork W2029370884 @default.
• W2017300527 hasRelatedWork W205618214 @default.
• W2017300527 hasRelatedWork W2060888470 @default.
• W2017300527 hasRelatedWork W2090806720 @default.
• W2017300527 hasRelatedWork W2095533739 @default.
• W2017300527 hasRelatedWork W746083040 @default.
• W2017300527 hasVolume "99" @default.
• W2017300527 isParatext "false" @default.
• W2017300527 isRetracted "false" @default.
• W2017300527 magId "2017300527" @default.
• W2017300527 workType "article" @default.