Anais dos Seminários de Redução, Minério de Ferro e Aglomeração


ISSN 2594-357X

Título

GRINDING TEST FOR IRON ORE TERTIARY GRINDING CIRCUIT

DOI

10.5151/4444-4444-27073

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Resumo

This paper presents a unique stirred milling technology, Outotec HIGmill™, a modern, flexible and energy efficient grinding solution for fine and ultra fine grinding being tested in an industrial scale level. The test was performed at an iron ore pellet producing plant in Sweden (for confidentiality reasons, it will be referred to only as “the client”) where a pilot HIGmill™ unit (HIG25) was installed parallel to a conventional regrind circuit to compare its performance to the existing ball mill. By using a continuous test run procedure and evaluating the parameters of F80, P80, mill shaft rotation speed and power drawn it was determined its grinding capabilities, operational flexibility and energy efficiency. Outotec HIGmill™ outperformed the existing ball mill in the plant proving its capabilities to grinding finer, with steeper particle size distribution (PSD) and much higher energy efficiency. The tests performed showed that, with further refining of its operation, it is capable of consistently deliver the required PSD with up to 30% higher grinding efficiency.

 

Palavras-chave

Energy efficiency, Fine grinding, Vertical mill, Grinding mills

Grinding mills

Como citar

Siqueira, Bernardo; Lehto, Harri; Astholm, Mattias; Keikkala, Ville. GRINDING TEST FOR IRON ORE TERTIARY GRINDING CIRCUIT , p. 832-841. In: 45º Ironmaking / 16º Iron Ore / 3º Agglomeration, Rio de Janeiro, 2015.
ISSN: 2594-357X , DOI 10.5151/4444-4444-27073