SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2742446232> ?p ?o ?g. }

Showing items 1 to 100 of ±124 with 100 items per page.

W2742446232 endingPage "688" @default.
W2742446232 startingPage "679" @default.
W2742446232 abstract "Up to now, the heat flux to a load in a reheating furnace has been subdivided, at most, into two parts: a convective part and a radiative part, which is a combination of solid body and gas radiation. This study presents a novel method to distinguish between solid body radiation and gas radiation within the radiative part of the heat flux. The method is computationally efficient and can be performed in a short period of time. The method was used to investigate two furnaces: a 115 kW lab-scale furnace and an 18 MW industrial reheating furnace, using oxidizers with different oxygen concentrations. The CFD results of the lab-scale furnace were compared to measurements and showed good agreement. Both simulation and the experiment showed that the furnace efficiency increased with increasing oxygen concentrations in the oxidizer. For both furnaces, the investigation revealed that the radiation emitted by the walls was by far the largest contributor to the total heat flux, while the contribution of gas radiation was minor. This method can be used to optimize the design of reheating furnaces in the future." @default.
W2742446232 created "2017-08-17" @default.
W2742446232 creator A5031932158 @default.
W2742446232 creator A5040084745 @default.
W2742446232 creator A5062871844 @default.
W2742446232 creator A5081287098 @default.
W2742446232 date "2017-12-01" @default.
W2742446232 modified "2023-10-18" @default.
W2742446232 title "Comparison between solid body and gas radiation in high temperature furnaces under different oxygen enrichments" @default.
W2742446232 cites W1455098601 @default.
W2742446232 cites W1813576013 @default.
W2742446232 cites W1849564050 @default.
W2742446232 cites W1972064878 @default.
W2742446232 cites W1975391064 @default.
W2742446232 cites W1988632593 @default.
W2742446232 cites W2006982695 @default.
W2742446232 cites W2013149641 @default.
W2742446232 cites W2016380160 @default.
W2742446232 cites W2018099816 @default.
W2742446232 cites W2024945256 @default.
W2742446232 cites W2027004602 @default.
W2742446232 cites W2030419508 @default.
W2742446232 cites W2032777079 @default.
W2742446232 cites W2047710483 @default.
W2742446232 cites W2055307036 @default.
W2742446232 cites W2061553541 @default.
W2742446232 cites W2062857993 @default.
W2742446232 cites W2066534865 @default.
W2742446232 cites W2068050241 @default.
W2742446232 cites W2075382851 @default.
W2742446232 cites W2079725065 @default.
W2742446232 cites W2081109939 @default.
W2742446232 cites W2084997064 @default.
W2742446232 cites W2092279139 @default.
W2742446232 cites W2092297305 @default.
W2742446232 cites W2093471541 @default.
W2742446232 cites W2114041390 @default.
W2742446232 cites W2116716192 @default.
W2742446232 cites W2152818141 @default.
W2742446232 cites W2160434514 @default.
W2742446232 cites W2337216833 @default.
W2742446232 cites W2339940014 @default.
W2742446232 cites W2415468678 @default.
W2742446232 cites W2539774088 @default.
W2742446232 cites W2569924466 @default.
W2742446232 cites W987537630 @default.
W2742446232 doi "https://doi.org/10.1016/j.applthermaleng.2017.08.054" @default.
W2742446232 hasPublicationYear "2017" @default.
W2742446232 type Work @default.
W2742446232 sameAs 2742446232 @default.
W2742446232 citedByCount "11" @default.
W2742446232 countsByYear W27424462322018 @default.
W2742446232 countsByYear W27424462322019 @default.
W2742446232 countsByYear W27424462322020 @default.
W2742446232 countsByYear W27424462322021 @default.
W2742446232 countsByYear W27424462322022 @default.
W2742446232 countsByYear W27424462322023 @default.
W2742446232 crossrefType "journal-article" @default.
W2742446232 hasAuthorship W2742446232A5031932158 @default.
W2742446232 hasAuthorship W2742446232A5040084745 @default.
W2742446232 hasAuthorship W2742446232A5062871844 @default.
W2742446232 hasAuthorship W2742446232A5081287098 @default.
W2742446232 hasConcept C10899652 @default.
W2742446232 hasConcept C116915560 @default.
W2742446232 hasConcept C120665830 @default.
W2742446232 hasConcept C121332964 @default.
W2742446232 hasConcept C127413603 @default.
W2742446232 hasConcept C153385146 @default.
W2742446232 hasConcept C159188206 @default.
W2742446232 hasConcept C178790620 @default.
W2742446232 hasConcept C185592680 @default.
W2742446232 hasConcept C191897082 @default.
W2742446232 hasConcept C192562407 @default.
W2742446232 hasConcept C39432304 @default.
W2742446232 hasConcept C50517652 @default.
W2742446232 hasConcept C540031477 @default.
W2742446232 hasConcept C548081761 @default.
W2742446232 hasConcept C57879066 @default.
W2742446232 hasConcept C68130645 @default.
W2742446232 hasConcept C68709404 @default.
W2742446232 hasConcept C74902906 @default.
W2742446232 hasConcept C89394759 @default.
W2742446232 hasConcept C97355855 @default.
W2742446232 hasConceptScore W2742446232C10899652 @default.
W2742446232 hasConceptScore W2742446232C116915560 @default.
W2742446232 hasConceptScore W2742446232C120665830 @default.
W2742446232 hasConceptScore W2742446232C121332964 @default.
W2742446232 hasConceptScore W2742446232C127413603 @default.
W2742446232 hasConceptScore W2742446232C153385146 @default.
W2742446232 hasConceptScore W2742446232C159188206 @default.
W2742446232 hasConceptScore W2742446232C178790620 @default.
W2742446232 hasConceptScore W2742446232C185592680 @default.
W2742446232 hasConceptScore W2742446232C191897082 @default.
W2742446232 hasConceptScore W2742446232C192562407 @default.
W2742446232 hasConceptScore W2742446232C39432304 @default.
W2742446232 hasConceptScore W2742446232C50517652 @default.
W2742446232 hasConceptScore W2742446232C540031477 @default.
W2742446232 hasConceptScore W2742446232C548081761 @default.