Gajanan Kapure scite author profile

Gajanan Kapure

5Publications

73Citation Statements Received

62Citation Statements Given

How they've been cited

212

How they cite others

Affiliations

Tata Steel (India)

Publications

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Direct reduction of low grade chromite overburden for recovery of metals

Kapure

Rao

Tathavadkar

et al. 2011

Ironmaking & Steelmaking

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The management of huge volumes of overburden at chromite mines is a concern, and there is a need to make effective use of this material. Therefore, direct reduction of low grade chromite overburden from the Sukinda chromite mines was studied at high temperatures to recover Fe, Cr and Ni. The effect of process parameters, such as temperature, time, reductant and flux, on the recovery of these metals was studied. The bench scale results obtained were then used in laboratory rotary hearth furnace reduction experiments, where it was found that a cycle time of 25 min is required for maximum recovery of metal. It was observed that y90% of Fe and .90% of Ni were recovered and thus have the potential to reduce the volume of waste at chromite mines.

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A Short Review on Utilization of Ferrochromium Slag

Sahu

Biswas

Kapure

2016

Mineral Processing and Extractive Metallurgy Review

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Utilisation perspective on water quenched and air-cooled blast furnace slags

Tripathy

Dasu

Murthy

et al. 2020

Journal of Cleaner Production

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Effect of alumina on slag–metal separation during iron nugget formation from high alumina Indian iron ore fines

Gerven

Dwarapudi

Kapure

et al. 2013

Ironmaking & Steelmaking

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Iron nuggets can be obtained from ore-coal composite pellets by high temperature reduction. Alumina in the ore plays a vital role in slag-metal separation during nugget formation, as it increases the liquidus temperature of the slag. In this study, the effect of carbon content, reduction temperature and lime addition on slag-metal separation and nugget formation of varying alumina iron ore fines were studied by means of thermodynamic modelling. The results were validated by conducting experiments using iron ore fines with alumina levels ranging from 1?85 to 6?15%. Results showed that increase in reduction temperature enhances slag metal separation, whereas increasing alumina and carbon content beyond the optimum level adversely affects separation. Carbon below the required amount decreases the metal recovery, and carbon above the required amount reduces the silica and alters the slag chemistry. Optimum conditions were established to produce iron nuggets with complete slag-metal separation using iron orecoal composite pellets made from high alumina iron ore fines. These were reduction temperature of 1400uC, reduction time minimum of 15 min, carbon input of 80% of theoretical requirement and CaO input of 2?3, 3?0 and 4?2 wt-% for 1?85, 4?0 and 6?15 wt-% alumina ores respectively.

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Development of Refractory Material from Water Quenched Granulated Ferrochromium Slag

Sahu

Biswas

Kapure

2016

Mineral Processing and Extractive Metallurgy Review

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Gajanan Kapure

Direct reduction of low grade chromite overburden for recovery of metals

A Short Review on Utilization of Ferrochromium Slag

Utilisation perspective on water quenched and air-cooled blast furnace slags

Effect of alumina on slag–metal separation during iron nugget formation from high alumina Indian iron ore fines

Development of Refractory Material from Water Quenched Granulated Ferrochromium Slag

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