Abstract
In areas where access to water for mineral processing is limited, the direct use of seawater in processing has been considered as an alternative to the expense of its desalination. However, efficient flotation of copper sulfides from non-valuable phases is best achieved at a pH > 10.5, and raising the pH of seawater leads to magnesium precipitates that adversely affect subsequent tailings dewatering. Seawater pre-treatment with lime can precipitate the majority of magnesium present, with these solids then being removed by filtration. To understand how such treatment may aid tailings dewatering, treated seawater (TSw) was mixed with raw seawater (Rsw) at different ratios, analyzing the impact on the flocculated settling rate, aggregate size as measured by focused beam reflectance measurement (FBRM), and vane yield stress for two synthetic clay-based tailings. A higher proportion of Tsw (10 mg/L Mg2+) led to larger aggregates and higher settling rates at a fixed dosage, with FBRM suggesting that higher calcium concentrations in Tsw may also favor fines coagulation. The yield stress of concentrated suspensions formed after flocculation decreased with higher proportions of Tsw, a consequence of lower flocculant demand and the reduced presence of precipitates; while the latter is a minor phase by mass, their high impact on rheology reflects a small particle size. Reducing magnesium concentrations in seawater in advance of use in processing offers advantages in the water return from thickening and subsequent underflow transport. However, this may not require complete removal, with blending Tsw and Rsw an option to obtain acceptable industrial performance.
Highlights
Mining is a small consumer of water globally, relative to agricultural or forestry industries, but any such consumption can still generate significant social and environmental impacts, for arid areas [1]
reverse osmosis (RO) processes require electricity, which is generally supplied from fossil fuels; the carbon footprint involved in seawater desalination plants is relative, varying from 0.4 to 6.7 [4]
Jeldres et al [23] studied the influence of salinity on the viscoelastic properties of kaolin sediments, settled after flocculating with a Polymers 2022, 14, 339 high molecular weight anionic polyacrylamide
Summary
Mining is a small consumer of water globally, relative to agricultural or forestry industries, but any such consumption can still generate significant social and environmental impacts, for arid areas [1]. Jeldres et al [23] studied the influence of salinity on the viscoelastic properties of kaolin sediments, settled after flocculating with a Polymers 2022, 14, 339 high molecular weight anionic polyacrylamide They found that low levels of added salt elevated the yield stress, but after further increases in salinity, they saw a distinct maximum in the rheological parameters. The studies described above provide valuable insights into clay surface behavior in saline media under various conditions They do not directly consider the rheological consequences of solid precipitate formation and their interactions with polyelectrolytes, which are expected to be heightened in clay-based tailings, due to the greater porosity of their aggregate structures. The magnesium concentration in the treated seawater was measured by inductivelyTThchoeeumpmlaeagdgnnpesleaisusimmumacmocnoacsnescnsetpnreatctritaortonimoinnetirtnyhet(hICterPeta-rMteeadSt)esadenasdwecaaowtenrafitrwemraeswdtahtsoentbheme1ne0ammsuegra/eLsdu, rrbeeypdrienb--y induc dstieuvncettilinyvgecl9oy7u%cpolureepdmleopdvlaapsll.masamma masasssspsepcetcrtorommeetrtryy((IICCPP--MMSS)) aanndd ccoonnfifrirmmeeddtotobbee1010mmg/gL/L, , repre r2see.3pn.rtAeisngeggnrt9eign7ag%te9rC7e%hmarroaecmvtaeorlvi.zaalt.ion
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
