Anupam Agarwal scite author profile

The melting zone in a cupola has temperatures greater than 1773 K and a reducing atmosphere. This condition is suitable for the carbothermic reduction of silica. The key to the applicability of carbothermic reduction of silica for ferroalloy production is rapid in situ production of SiC and its subsequent dissolution in the hot metal. The main objective of this investigation was to study the kinetics of the carbothermic reduction process and determine the optimum parameters for rapid and complete in situ conversion of silica to SiC. At temperatures above 1773 K, the key reactions in the carbothermic reduction process are (1) SiO 2 (s) ϩ CO (g) ϭ SiO (g) ϩ CO 2 (g), (2) SiO (g) ϩ 2C (s) ϭ SiC (s) ϩ CO (g), (3) C (s) ϩ CO 2 (g) ϭ 2CO (g). To meet the objective of this study, conditions must be such that the surface reactions occurring at the carbon and silica surfaces are rate limiting and the entire silica is converted to SiC. Pellet composition and structure in terms of carbon to silica ratio, their particle sizes, and compaction pressure that ensure surface reaction is rate controlling were determined. The gas-solid reaction kinetics was mathematically modeled in terms of the process parameters. The reaction kinetics improved by reducing both carbon and silica particle sizes. However, below a certain critical particle size, there was no significant improvement in the reaction kinetics. For complete conversion of SiO 2 (s) to SiC (s), excess carbon and critical porosity are necessary to ensure that the entire SiO (g) generated by Reaction [1] is consumed via Reaction [2] within the pellet.

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Nanoparticles as feed supplement on Growth behaviour of Cultured Catfish ( Clarias gariepinus ) fingerlings

Chris

Singh

Agarwal

2018

Materials Today: Proceedings

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Preparation and characterization of zinc ferrite—Polyaniline nanocomposite for removal of rhodamine B dye from aqueous solution

Rachna

Agarwal

Singh

2018

Environmental Nanotechnology, Monitoring & Management

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Effects of dietary nano and macro iron oxide (Fe ₂ O ₃ ) on the growth, biochemical, and hematological profiles of African catfish ( Clarias gariepinus ) fingerlings

Uzo-God

Agarwal

Singh

2018

Journal of Applied Aquaculture

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Anupam Agarwal

Food Packaging Materials with Special Reference to Biopolymers-Properties and Applications

Influence of pellet composition and structure on carbothermic reduction of silica

Nanoparticles as feed supplement on Growth behaviour of Cultured Catfish ( Clarias gariepinus ) fingerlings

Preparation and characterization of zinc ferrite—Polyaniline nanocomposite for removal of rhodamine B dye from aqueous solution

Effects of dietary nano and macro iron oxide (Fe ₂ O ₃ ) on the growth, biochemical, and hematological profiles of African catfish ( Clarias gariepinus ) fingerlings

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Anupam Agarwal

Food Packaging Materials with Special Reference to Biopolymers-Properties and Applications

Influence of pellet composition and structure on carbothermic reduction of silica

Nanoparticles as feed supplement on Growth behaviour of Cultured Catfish ( Clarias gariepinus ) fingerlings

Preparation and characterization of zinc ferrite—Polyaniline nanocomposite for removal of rhodamine B dye from aqueous solution

Effects of dietary nano and macro iron oxide (Fe 2 O 3 ) on the growth, biochemical, and hematological profiles of African catfish ( Clarias gariepinus ) fingerlings

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Product

Resources

About

Effects of dietary nano and macro iron oxide (Fe ₂ O ₃ ) on the growth, biochemical, and hematological profiles of African catfish ( Clarias gariepinus ) fingerlings