Development of a Laboratory Test to Design Vertical Stirred Mills for Iron Ore Regrind Circuits

"The use of vertical stirred mills in the mining industry has increased remarkably over the past few decades, as a result of growing requirement for finer ore grinding. This equipment delivers higher energy efficiency in fine grinding operations when compared to conventional tubular mills. Methods for designing vertical stirred mills involve operational experience, pilot plants and bench tests. An important issue is that these tests require, at a laboratory scale, at least 10–20 kg of material, depending on its density, which is not available in many cases, particularly in the early stages of greenfield projects. For the regrind of flotation concentrates, several bench scale flotation cycles are required to generate such a sample. This paper describes the development of a laboratory jar mill test using a 6”x8” jar – smaller than that commonly used – based on the overall specific energy method, which requires significantly less mass compared with existing tests. The proposed test has proven to be more practical than tests normally used, requiring about a quarter of the mass, and also shows good adherence to industrial results for the studied iron ore processing plant. INTRODUCTION A significant demand for finer grinding has been noticed over the past few decades in several mining projects to achieve the mineral liberation required for the concentration of valuable minerals. However, the finer the product size, the greater the grinding energy consumption, resulting in an overall increase in operating costs, which may reach or even exceed 50% of the mineral processing cost (VIEIRA, PERES, 2013; DANIEL, LEWIS-GREY, 2011). Comminution technology can have a major impact on subsequent ore concentration stages (DANIEL, LEWIS-GREY, 2011; MARSDEN, 2009; NAPIER-MUNN, 2012; PEASE et al., 2010), which further strengthens the importance of proper technology and equipment selection. Adequate grinding circuit selection and design is thus a key aspect associated with mining projects."