FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2888474020> ?p ?o ?g. }

• W2888474020 abstract "Ferro-chrome and charge chrome can normally be produced from lump chromite ores in the electric arc furnace. Majority of the lump ore is very lean (~30% Cr) in nature. Production of a better quality ferro-chrome requires using high-grade chromite ores; but these are fragile and tend to form fines during handling. These fines may flue off from electric arc furnace during charging; therefore agglomeration of these fines is needed before charging in electric arc furnace. Normal chromite agglomeration processes include briquetting, pelletizing or sintering. Presently many ferro-chrome plants make pellets utilizing the friable chromite ore fines by grinding it to suitable finer size (say 60% < 45 μm) and pelletize them. This is followed by the firing of the green pellets at 1250 - 1350 C in a rotary kiln and their smelting in a submerged arc furnace (SAF) to make the ferrochrome. However, pelletizing is only suitable for vary fine feed that requires energy intensive grinding, expensive binders, and energy-intensive induration of pellets using liquid or gaseous fuel. Overall, the pelletization process is very complex and cost-intensive. In some plants, briquetting is also considered as an alternative agglomeration technique with the advantages of being a cold process and environment friendly. However, briquettes have inferior high temperature performance to pellets and sinter and the process involves with costly binders. To alleviate the above draw backs of pelletisation and briquetting, present study aims at producing sinter directly from the available chromite ore fines(-10 mm) without any grinding in presence of coke breeze ( like iron ore sintering). Sintering was carried out in 10 kg scale in a pot sinter. Result indicated that a good amount of (20%) molten phase formed for bonding. Sintering time was 30 minutes and maximum flame temperature reached above 1600 C in pot sinter. It decreased the spinel phases of chromite fines as it is a prefused mass which will reduce faster in subsequent electric arc furnace smelting. The molten phases comprised of Fe2SiO4, Ca2Al2SiO7, MgCa2Si2O7 and the unmelted phases was (Mg, Fe)(Cr, Al)2O4 as evident from the XRD study. Chemical composition of produced chromite sinter was 36% Cr2O3, 20% FeO, 8% SiO2, 9% MgO, 11% Al2O3, 6% CaO, 0.02% P2O5, and 0.03% S." @default.
• W2888474020 created "2018-08-31" @default.
• W2888474020 creator A5048241030 @default.
• W2888474020 creator A5073324249 @default.
• W2888474020 creator A5080425425 @default.
• W2888474020 date "2015-01-01" @default.
• W2888474020 modified "2023-09-27" @default.
• W2888474020 title "Agglomeration of chromite ore fines through direct sintering route" @default.
• W2888474020 hasPublicationYear "2015" @default.
• W2888474020 type Work @default.
• W2888474020 sameAs 2888474020 @default.
• W2888474020 citedByCount "0" @default.
• W2888474020 crossrefType "journal-article" @default.
• W2888474020 hasAuthorship W2888474020A5048241030 @default.
• W2888474020 hasAuthorship W2888474020A5073324249 @default.
• W2888474020 hasAuthorship W2888474020A5080425425 @default.
• W2888474020 hasConcept C105923489 @default.
• W2888474020 hasConcept C116065953 @default.
• W2888474020 hasConcept C127413603 @default.
• W2888474020 hasConcept C131850264 @default.
• W2888474020 hasConcept C157247726 @default.
• W2888474020 hasConcept C159985019 @default.
• W2888474020 hasConcept C178790620 @default.
• W2888474020 hasConcept C185592680 @default.
• W2888474020 hasConcept C191897082 @default.
• W2888474020 hasConcept C192562407 @default.
• W2888474020 hasConcept C196832758 @default.
• W2888474020 hasConcept C199948506 @default.
• W2888474020 hasConcept C2777571299 @default.
• W2888474020 hasConcept C2777581544 @default.
• W2888474020 hasConcept C2778254334 @default.
• W2888474020 hasConcept C2779748816 @default.
• W2888474020 hasConcept C2780584874 @default.
• W2888474020 hasConcept C2781150389 @default.
• W2888474020 hasConcept C39432304 @default.
• W2888474020 hasConcept C42360764 @default.
• W2888474020 hasConcept C518851703 @default.
• W2888474020 hasConcept C5260166 @default.
• W2888474020 hasConcept C548081761 @default.
• W2888474020 hasConceptScore W2888474020C105923489 @default.
• W2888474020 hasConceptScore W2888474020C116065953 @default.
• W2888474020 hasConceptScore W2888474020C127413603 @default.
• W2888474020 hasConceptScore W2888474020C131850264 @default.
• W2888474020 hasConceptScore W2888474020C157247726 @default.
• W2888474020 hasConceptScore W2888474020C159985019 @default.
• W2888474020 hasConceptScore W2888474020C178790620 @default.
• W2888474020 hasConceptScore W2888474020C185592680 @default.
• W2888474020 hasConceptScore W2888474020C191897082 @default.
• W2888474020 hasConceptScore W2888474020C192562407 @default.
• W2888474020 hasConceptScore W2888474020C196832758 @default.
• W2888474020 hasConceptScore W2888474020C199948506 @default.
• W2888474020 hasConceptScore W2888474020C2777571299 @default.
• W2888474020 hasConceptScore W2888474020C2777581544 @default.
• W2888474020 hasConceptScore W2888474020C2778254334 @default.
• W2888474020 hasConceptScore W2888474020C2779748816 @default.
• W2888474020 hasConceptScore W2888474020C2780584874 @default.
• W2888474020 hasConceptScore W2888474020C2781150389 @default.
• W2888474020 hasConceptScore W2888474020C39432304 @default.
• W2888474020 hasConceptScore W2888474020C42360764 @default.
• W2888474020 hasConceptScore W2888474020C518851703 @default.
• W2888474020 hasConceptScore W2888474020C5260166 @default.
• W2888474020 hasConceptScore W2888474020C548081761 @default.
• W2888474020 hasLocation W28884740201 @default.
• W2888474020 hasOpenAccess W2888474020 @default.
• W2888474020 hasPrimaryLocation W28884740201 @default.
• W2888474020 hasRelatedWork W1766720712 @default.
• W2888474020 hasRelatedWork W2019509359 @default.
• W2888474020 hasRelatedWork W2090255692 @default.
• W2888474020 hasRelatedWork W2090633275 @default.
• W2888474020 hasRelatedWork W2127226679 @default.
• W2888474020 hasRelatedWork W2130807013 @default.
• W2888474020 hasRelatedWork W2349212333 @default.
• W2888474020 hasRelatedWork W2353871700 @default.
• W2888474020 hasRelatedWork W2386361383 @default.
• W2888474020 hasRelatedWork W2580435959 @default.
• W2888474020 hasRelatedWork W2588643880 @default.
• W2888474020 hasRelatedWork W2782393935 @default.
• W2888474020 hasRelatedWork W2803378269 @default.
• W2888474020 hasRelatedWork W2888260295 @default.
• W2888474020 hasRelatedWork W2888652891 @default.
• W2888474020 hasRelatedWork W2962647363 @default.
• W2888474020 hasRelatedWork W2785663323 @default.
• W2888474020 hasRelatedWork W2814755080 @default.
• W2888474020 hasRelatedWork W3178282848 @default.
• W2888474020 hasRelatedWork W3182256793 @default.
• W2888474020 isParatext "false" @default.
• W2888474020 isRetracted "false" @default.
• W2888474020 magId "2888474020" @default.
• W2888474020 workType "article" @default.