FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1990944471> ?p ?o ?g. }

• W1990944471 endingPage "2006" @default.
• W1990944471 startingPage "2000" @default.
• W1990944471 abstract "Increasing coke gasification rate can lowers the temperature of the thermal reserve zone, resulting in a decrease of carbon consumption and a reduction of the reducing agent rate of blast furnaces. To achieve this increase, the enhancement of coke reactivity itself or the close arrangement of iron ore and carbonaceous materials has been investigated in Japan. Against this, RCA, Reactive Coke Agglomerate, having a high carbon content, has been developed, and it was found that the agglomerate mixed-in sinter layer had two functions: one having high reducibility itself and the other enhancing the reduction of the surrounding sinter. As a result of the two functions, a significant decrease of the temperature of the thermal reserve zone and an increase of gas utilization by using the agglomerate mixed-in sinter layer in a BIS test was achieved. As for the strength after reaction, disintegration was fairly small in comparison with that of the sinter both in the laboratory scale test and in a basket test using a plant's vertical probe. Long-term plant trials have been conducted at the Oita Works No. 2 Blast Furnace with a maximum use of 54 kg/tHM. It was found that RCA could lower the temperature of the thermal reserve zone and carbon consumption in a commercial blast furnace. Carbon consumption was decreased along the relationship of 0.36 kgC/tHM per 1 kgC/tHM of input carbon from RCA." @default.
• W1990944471 created "2016-06-24" @default.
• W1990944471 creator A5013802192 @default.
• W1990944471 creator A5051780556 @default.
• W1990944471 creator A5060246088 @default.
• W1990944471 creator A5076340186 @default.
• W1990944471 date "2012-01-01" @default.
• W1990944471 modified "2023-10-10" @default.
• W1990944471 title "Decrease in Carbon Consumption of a Commercial Blast Furnace by Using Carbon Composite Iron Ore" @default.
• W1990944471 cites W1998869766 @default.
• W1990944471 cites W2002449592 @default.
• W1990944471 cites W2003257165 @default.
• W1990944471 cites W2006909437 @default.
• W1990944471 cites W2063004968 @default.
• W1990944471 cites W2332976797 @default.
• W1990944471 cites W2512667636 @default.
• W1990944471 doi "https://doi.org/10.2355/isijinternational.52.2000" @default.
• W1990944471 hasPublicationYear "2012" @default.
• W1990944471 type Work @default.
• W1990944471 sameAs 1990944471 @default.
• W1990944471 citedByCount "40" @default.
• W1990944471 countsByYear W19909444712014 @default.
• W1990944471 countsByYear W19909444712015 @default.
• W1990944471 countsByYear W19909444712016 @default.
• W1990944471 countsByYear W19909444712017 @default.
• W1990944471 countsByYear W19909444712018 @default.
• W1990944471 countsByYear W19909444712019 @default.
• W1990944471 countsByYear W19909444712020 @default.
• W1990944471 countsByYear W19909444712021 @default.
• W1990944471 countsByYear W19909444712022 @default.
• W1990944471 countsByYear W19909444712023 @default.
• W1990944471 crossrefType "journal-article" @default.
• W1990944471 hasAuthorship W1990944471A5013802192 @default.
• W1990944471 hasAuthorship W1990944471A5051780556 @default.
• W1990944471 hasAuthorship W1990944471A5060246088 @default.
• W1990944471 hasAuthorship W1990944471A5076340186 @default.
• W1990944471 hasBestOaLocation W19909444711 @default.
• W1990944471 hasConcept C104779481 @default.
• W1990944471 hasConcept C129955480 @default.
• W1990944471 hasConcept C140205800 @default.
• W1990944471 hasConcept C159985019 @default.
• W1990944471 hasConcept C175783084 @default.
• W1990944471 hasConcept C191897082 @default.
• W1990944471 hasConcept C192562407 @default.
• W1990944471 hasConcept C24763909 @default.
• W1990944471 hasConcept C2779748816 @default.
• W1990944471 hasConcept C2780269488 @default.
• W1990944471 hasConcept C2780385392 @default.
• W1990944471 hasConceptScore W1990944471C104779481 @default.
• W1990944471 hasConceptScore W1990944471C129955480 @default.
• W1990944471 hasConceptScore W1990944471C140205800 @default.
• W1990944471 hasConceptScore W1990944471C159985019 @default.
• W1990944471 hasConceptScore W1990944471C175783084 @default.
• W1990944471 hasConceptScore W1990944471C191897082 @default.
• W1990944471 hasConceptScore W1990944471C192562407 @default.
• W1990944471 hasConceptScore W1990944471C24763909 @default.
• W1990944471 hasConceptScore W1990944471C2779748816 @default.
• W1990944471 hasConceptScore W1990944471C2780269488 @default.
• W1990944471 hasConceptScore W1990944471C2780385392 @default.
• W1990944471 hasIssue "11" @default.
• W1990944471 hasLocation W19909444711 @default.
• W1990944471 hasOpenAccess W1990944471 @default.
• W1990944471 hasPrimaryLocation W19909444711 @default.
• W1990944471 hasRelatedWork W1990944471 @default.
• W1990944471 hasRelatedWork W2103274745 @default.
• W1990944471 hasRelatedWork W2181395904 @default.
• W1990944471 hasRelatedWork W2600508386 @default.
• W1990944471 hasRelatedWork W2608431963 @default.
• W1990944471 hasRelatedWork W2965467240 @default.
• W1990944471 hasRelatedWork W3007266862 @default.
• W1990944471 hasRelatedWork W3013158353 @default.
• W1990944471 hasRelatedWork W4300485690 @default.
• W1990944471 hasRelatedWork W4378377846 @default.
• W1990944471 hasVolume "52" @default.
• W1990944471 isParatext "false" @default.
• W1990944471 isRetracted "false" @default.
• W1990944471 magId "1990944471" @default.
• W1990944471 workType "article" @default.