SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2231312191> ?p ?o ?g. }

Showing items 1 to 100 of ±118 with 100 items per page.

W2231312191 endingPage "35" @default.
W2231312191 startingPage "28" @default.
W2231312191 abstract "High-temperature ESPs are proposed to improve energy efficiency and avoid damage to downstream equipment in integrated gasification combined cycle and pressurized fluidized-bed combustion. In this study, the effects of temperature and pressure on negative corona discharge characteristics were compared. Gas temperature varied from 373K to 1073K, and pressure varied from 30kPa to 100kPa to achieve the same gas density. The additional corona current ΔIt induced by high temperature was calculated, and the additional ion current ΔIi and electron current ΔIe were studied. A wire-type electrode, a spiral electrode, a ribbon electrode, and four gas compositions (N2/CO2/SO2/air) were investigated in the plate-type discharge configuration. Results show that corona current increases more rapidly with increasing gas temperature than that with decreasing pressure at the same gas density. The current density is 0.87mA/m at 973K and atmosphere pressure, which is higher than 0.45mA/m at 30.9kPa and room temperature. An additional temperature effect on corona discharge is proposed apart from the decrease of gas density as temperature increases. ΔIt increases with increasing temperature because of enhanced molecule kinetic energy and ionization rate. The electron-carried current is important at temperatures above 873K. ΔIe/ΔIt increases from 0 to 0.941 when temperature increases from 773K to 973K. Compared with the ΔIt of wire and spiral electrodes, the ΔIt of ribbon electrode is significantly larger because of the enhanced electron avalanche and secondary electron emission. Negative corona discharge does not occur in N2, and corona onset voltages are in the following sequence: CO2>SO2 (6000ppm)>air, which is determined by gas molecule ionization energy. ΔIt/IP is smaller in gas atmosphere with strong electronegativity." @default.
W2231312191 created "2016-06-24" @default.
W2231312191 creator A5000645218 @default.
W2231312191 creator A5021523921 @default.
W2231312191 creator A5028102871 @default.
W2231312191 creator A5032264029 @default.
W2231312191 creator A5035118503 @default.
W2231312191 creator A5049592860 @default.
W2231312191 creator A5051768328 @default.
W2231312191 creator A5072203192 @default.
W2231312191 date "2016-02-01" @default.
W2231312191 modified "2023-10-16" @default.
W2231312191 title "An experimental study on the effects of temperature and pressure on negative corona discharge in high-temperature ESPs" @default.
W2231312191 cites W1485984438 @default.
W2231312191 cites W1606677874 @default.
W2231312191 cites W1977106088 @default.
W2231312191 cites W1977337313 @default.
W2231312191 cites W1982810068 @default.
W2231312191 cites W1994675662 @default.
W2231312191 cites W1997276984 @default.
W2231312191 cites W1997332295 @default.
W2231312191 cites W1999003422 @default.
W2231312191 cites W2014732589 @default.
W2231312191 cites W2015562871 @default.
W2231312191 cites W2019375718 @default.
W2231312191 cites W2020135552 @default.
W2231312191 cites W2022295794 @default.
W2231312191 cites W2025849812 @default.
W2231312191 cites W2050561879 @default.
W2231312191 cites W2051824373 @default.
W2231312191 cites W2052181079 @default.
W2231312191 cites W2052719285 @default.
W2231312191 cites W2053605070 @default.
W2231312191 cites W2056201960 @default.
W2231312191 cites W2067882537 @default.
W2231312191 cites W2069653149 @default.
W2231312191 cites W2073160896 @default.
W2231312191 cites W2082093090 @default.
W2231312191 cites W2087405713 @default.
W2231312191 cites W2091038991 @default.
W2231312191 cites W2092061082 @default.
W2231312191 cites W2102911495 @default.
W2231312191 cites W2125749533 @default.
W2231312191 cites W2129774432 @default.
W2231312191 cites W2136308764 @default.
W2231312191 cites W2137895338 @default.
W2231312191 cites W2162590970 @default.
W2231312191 cites W2198884367 @default.
W2231312191 cites W2226638570 @default.
W2231312191 cites W2321035116 @default.
W2231312191 cites W3126016592 @default.
W2231312191 cites W4251838053 @default.
W2231312191 doi "https://doi.org/10.1016/j.apenergy.2015.11.040" @default.
W2231312191 hasPublicationYear "2016" @default.
W2231312191 type Work @default.
W2231312191 sameAs 2231312191 @default.
W2231312191 citedByCount "50" @default.
W2231312191 countsByYear W22313121912016 @default.
W2231312191 countsByYear W22313121912017 @default.
W2231312191 countsByYear W22313121912018 @default.
W2231312191 countsByYear W22313121912019 @default.
W2231312191 countsByYear W22313121912020 @default.
W2231312191 countsByYear W22313121912021 @default.
W2231312191 countsByYear W22313121912022 @default.
W2231312191 countsByYear W22313121912023 @default.
W2231312191 crossrefType "journal-article" @default.
W2231312191 hasAuthorship W2231312191A5000645218 @default.
W2231312191 hasAuthorship W2231312191A5021523921 @default.
W2231312191 hasAuthorship W2231312191A5028102871 @default.
W2231312191 hasAuthorship W2231312191A5032264029 @default.
W2231312191 hasAuthorship W2231312191A5035118503 @default.
W2231312191 hasAuthorship W2231312191A5049592860 @default.
W2231312191 hasAuthorship W2231312191A5051768328 @default.
W2231312191 hasAuthorship W2231312191A5072203192 @default.
W2231312191 hasConcept C119599485 @default.
W2231312191 hasConcept C121332964 @default.
W2231312191 hasConcept C127413603 @default.
W2231312191 hasConcept C165801399 @default.
W2231312191 hasConcept C192562407 @default.
W2231312191 hasConcept C2776779350 @default.
W2231312191 hasConcept C2779900269 @default.
W2231312191 hasConcept C39432304 @default.
W2231312191 hasConcept C57879066 @default.
W2231312191 hasConcept C6025432 @default.
W2231312191 hasConcept C87355193 @default.
W2231312191 hasConceptScore W2231312191C119599485 @default.
W2231312191 hasConceptScore W2231312191C121332964 @default.
W2231312191 hasConceptScore W2231312191C127413603 @default.
W2231312191 hasConceptScore W2231312191C165801399 @default.
W2231312191 hasConceptScore W2231312191C192562407 @default.
W2231312191 hasConceptScore W2231312191C2776779350 @default.
W2231312191 hasConceptScore W2231312191C2779900269 @default.
W2231312191 hasConceptScore W2231312191C39432304 @default.
W2231312191 hasConceptScore W2231312191C57879066 @default.
W2231312191 hasConceptScore W2231312191C6025432 @default.
W2231312191 hasConceptScore W2231312191C87355193 @default.
W2231312191 hasFunder F4320321001 @default.
W2231312191 hasFunder F4320336125 @default.