Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Smelting and Selective Reduction of Limonitic Laterite Ore in Mini Blast Furnace
One main source of nickel besides nickel sulfide ore is laterite nickel ore. Laterite ore is more sustainable and has abundant reserves. Nowadays, nickel demands are increasingly needed either for the manufacture of stainless steel or nickel-based batteries. This study aims to study the smelting process of limonitic laterite nickel ore. The smelting process was performed using a Mini Blast Furnace pilot plant with a capacity of ten tons of ore per day or 350 kg per batch. In the interest of modifying the properties of slag and enhance selective reduction, limestone and coal were used. The smelting process was performed by feeding raw material bearing nickel (ore and sinter) as much as 480 kg. The ratio of nickel:sintered:coal:limestone was 1:2.3:2.73:(1.14–1.44). The blast air used was 26 m3/min. Then, the crude ferronickel or nickel pig iron products and the resulting slag were characterized using EDX and XRD. As a result, the resulting crude ferronickel products had relatively high nickel and sulfur contents, namely 24.30% and 1.15%, respectively. In addition, the nickel recovery produced was 64.3%. Selective reduction proved can be enhanced by amount of limestone fed into Mini Blast Furnace.
Smelting and Selective Reduction of Limonitic Laterite Ore in Mini Blast Furnace
One main source of nickel besides nickel sulfide ore is laterite nickel ore. Laterite ore is more sustainable and has abundant reserves. Nowadays, nickel demands are increasingly needed either for the manufacture of stainless steel or nickel-based batteries. This study aims to study the smelting process of limonitic laterite nickel ore. The smelting process was performed using a Mini Blast Furnace pilot plant with a capacity of ten tons of ore per day or 350 kg per batch. In the interest of modifying the properties of slag and enhance selective reduction, limestone and coal were used. The smelting process was performed by feeding raw material bearing nickel (ore and sinter) as much as 480 kg. The ratio of nickel:sintered:coal:limestone was 1:2.3:2.73:(1.14–1.44). The blast air used was 26 m3/min. Then, the crude ferronickel or nickel pig iron products and the resulting slag were characterized using EDX and XRD. As a result, the resulting crude ferronickel products had relatively high nickel and sulfur contents, namely 24.30% and 1.15%, respectively. In addition, the nickel recovery produced was 64.3%. Selective reduction proved can be enhanced by amount of limestone fed into Mini Blast Furnace.
Smelting and Selective Reduction of Limonitic Laterite Ore in Mini Blast Furnace
J. Inst. Eng. India Ser. D
Pintowantoro, Sungging (Autor:in) / Panggabean, Patrick Christopher (Autor:in) / Setiyorini, Yuli (Autor:in) / Abdul, Fakhreza (Autor:in)
Journal of The Institution of Engineers (India): Series D ; 103 ; 591-600
01.12.2022
10 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
| British Library Online Contents | 2019
Pressure nitric acid leaching of alkali-pretreated low-grade limonitic laterite
| British Library Online Contents | 2015
| Europäisches Patentamt | 2024
| DOAJ | 2023
Intensifying Smelting Synthesis Technique of 2500m^3 Blast Furnace
| British Library Online Contents | 2007