Effect of temperature on metal phase changes and particle growth results from reduction of ferronickel dust pellet
Bening Nurul hidayah Kambuna (a*), 2.Tiara Triana (b)

a) Metallurgical engineering Department, Universitas Sultan Ageng Tirtayasa
*kambuna.bening[at]gmail.com
b) Metallurgical engineering Department, Universitas Sultan Ageng Tirtayasa

Abstract

In the processing of nickel ore into ferronickel, simultaneously dust is produced in the rotary dryer, rotary kiln and electric furnace. The dust still contains nickel. Dust is formed into pellets and will be reused in rotary kiln for ferronickel production Ferronickel dust pellet is processed by reduction through addition of coal as much as 10% of pellet weight with a variation of reduction temperature at 1000°C, 1100°C, 1200°C, 1300°C and 1400°C to observe growth of ferronickel particles. Study of reduction of composite pellets, pellet of ferronickel plant dust are mixed with coal reductor as much as 10% of their weight and then reduced at temperature of 1000°C, 1100°C, 1200°C, 1300°C, 1400°C for 30 minutes. Reduction behavior of pellet can be analyzed with XRD and analysis of particle growth of ferronickel was observed by using optical microscope. At this temperature SiO2 reduced to Si and reacts with Fe to form Fe3Si. The length of ferronickel particles increases along with increase of temperature. At a temperature of 1000°C = 43μm, 1100°C = 152 μm, 1200°C = 419 μm, 1300°C = 736 μm, to 1400°C = 1426 μm. Increasing ferronickel particles showed that particle growth occurs on increasing the temperature.

Keywords: Rotary Kiln, Ferronickel Dust Pellet, coal, Particle Size of Ferronickel

Topic: Metallurgy Engineering

Link: https://ifory.id/abstract-plain/g6qRTfxcCBQM

Web Format | Corresponding Author (Bening Nurul Hidayah Kambuna)