The advancement of technology has led to a significant shift in many diverse economic sectors, eliminating hurdles and maximizing potential gains in various aspects. This progress is especially prominent in the mining industry, where LiStream has diligently been embarking on pivotal projects. This paper explores LiStream’s Rapid Processing Kit (RPK) Locked Cycle Test Program, emphasizing its remarkable recoveries.
Embracing continuous innovation and advancement, Canadian-based company LiStream is at the forefront of applying modern technology to sourcing lithium. The Company’s new design, LiStream RPK, efficiently extracts lithium from spodumene concentrates via a unique processing route. Undoubtedly, the system promises to optimize lithium production from raw spodumene, marking a significant milestone in the mining industry.
Recently, LiStream undertook an exclusive Locked Cycle Test Program that conveyed exceptional results. The Locked Cycle Test is an elaborate test that assesses the continuous operation of a mineral processing circuit over several cycles. The goal is to evaluate the potential recovery rates from a particular mining process. In LiStream’s case, the company applied this Locked Cycle Test Program to validate the practicality of its RPK design for lithium recovery.
The outcomes were nothing short of significant. LiStream incredibly managed to achieve an astonishing recovery rate of over 90%. This figure is unmatched and surpasses the recovery rates of traditional methods that usually hover around 70% or less. Through advanced methodology, the RPK system capitalizes on its exceptional lithium recovery, thus raising the bar in lithium extraction technology.
LiStream’s RPK adopts a unique processing approach based on flotation, where it separates lithium from other minerals available in ore. In addition, it scraps off the use of sulphuric acid, a chemical that is commonly used for lithium extraction but poses environmental concerns. This proactive approach not only emphasizes efficient extraction but also underlines the responsible use of chemicals, steering away from environmentally harmful substances.
Not only does the RPK device improve lithium recovery rates, but it also reduces costs. Since it eliminates the need for sulphuric acid, it also scrapes off millions of dollars in upfront capital and operational costs for acid plants, thus indirectly saving costs and boosting overall profitability. As a result, the innovation aligns with the profit-maximizing objective of any business.
Also, the investment in closed-circuit testing offers significant insights into process optimization. The data provided by the RPK locked cycle test program provides an in-depth understanding of lithium recovery patterns. With the help of these insights, LiStream is poised to create a more efficient and economical lithium production process, pushing the realms of innovation within the lithium industry to an entirely new level of performance.
Furthermore, the sustainable element of the RPK model is noteworthy. As mentioned, the model furthers the non-utilization of sulphuric acid in its extraction process, presenting a more environmentally friendly and sustainable approach. This initiative resonates with the growing need for sustainability within the mining and lithium industry at large.
In conclusion, LiStream’s RPK Locked Cycle Test Program marks an imperative shift in the lithium industry, with remarkable recovery rates, cost-effectiveness, and a sustainable approach. It not only establishes a new benchmark in lithium extraction but also underscores the importance of innovation and sustainable practices within the industry.