- Maricunga Definitive
Feasibility Study (DFS)
Vancouver, British Columbia - Bearing Lithium Corp. ("Bearing" or the "Company") (TSX Venture: BRZ) (OTCQB: BRGRF) (FRANKFURT: B6K1) is pleased to announce the results from a Preliminary Economic Assessment (“PEA”) prepared in accordance with National Instrument 43-101 on the Maricunga lithium brine project located in Chile (the “Maricunga Project”). The report titled “Preliminary Assessment and Economic Evaluation of the Minera Salar Blanco Project” was prepared by WorleyParsons for the Maricunga joint-venture company, Minera Salar Blanco, and will be filed on SEDAR (www.sedar.com) within the coming days. Upon completion of an earn-in by it’s joint-venture partner, Bearing Lithium will hold a final 17.7% interest in the Maricunga project along with Minera Salar Blanco SpA at 32.3% and Lithium Power International at 50%. Under the terms of the earn-in, Lithium Power is funding all exploration and development costs with both Bearing and MSB having a free carry through to the completion of a definitive feasibility study.
NI 43-101 Preliminary Economic Assessment (PEA) Highlights
“The release of this PEA is an important milestone for the Maricunga project. Prepared by Worley Parsons alongside MSB’s technical team, the level of detail and information of the report meets international standards and demonstrates the world class nature of Maricunga. The study demonstrates a very positive and robust outcome that justifies completion of a full feasibility study. The operating expenditure estimate places Maricunga in the lower quartile on the cost curve, at US$2,938/t (excluding KCl), with a payback of less than three years. We are excited to continue advancing the Maricunga project and congratulate the MSB project management team for its effort and success.” Jeremy Poirier, President and CEO of Bearing commented.
Executive Summary and Key Study Parameters
The project plan is to produce 20,000t/a of lithium carbonate (LCE), with production of 74,000t/a of potassium chloride (KCl) from year 3 of the project when potash salts have accumulated to a level where continuous processing can be carried out.
The study was based on extraction of an average 222 litres per second (l/s) of brine throughout the project life of 20 years. The brine commences approximately 10cm below the salt lake surface and extends below the base of the proposed bore field at 200m below the surface. Brine will be extracted from a minimum of 13 individual wells, pumping via a central collection pond to the evaporation ponds.
In the evaporation ponds, the brine would be concentrated through evaporation and chemical saturation, with precipitation of different salts, such as halite, sylvinite and carnallite. All salts that precipitate would be periodically harvested from the ponds, and stored in designated stockpiles. The sylvinite and carnallite salts would be sent directly to the KCl processing plant, where through processes of size reduction and classification, flotation, leaching, drying and packaging, KCl fertilizer is obtained.
Concentrated lithium brine from the evaporation ponds would be pumped to the reservoir ponds, from which a Salt Removal Plant would be fed. This plant would remove calcium impurities as calcium chloride and tachyhydrite from the brine. This would be achieved through consecutive evaporation and crystallization steps. This process allows a higher concentration of lithium in the brine.
The concentrated lithium brine obtained from the Salt Removal Plant would then be fed to the lithium carbonate plant, where purification, solvent extraction and filtration remove remaining impurities including calcium, magnesium and boron. The concentrated lithium brine would then be fed to a carbonation stage, where through the addition of soda ash, the lithium carbonate precipitates. This precipitated lithium carbonate would then be fed to a centrifuge for water removal, and final drying, size reduction and packaging. The lithium and potash products would be exported from ports in the second region of Chile, near Antofagasta.
The project has excellent existing infrastructure. The project is located beside one of the international roads connecting Chile and Argentina. High capacity electricity infrastructure is also nearby, providing excellent power options for the project development.
Completion of a definitive feasibility study in the second half of 2018 and securing the project environmental and operating permits will take the project to the point of final decision to proceed and financial investment.
Table 1: Operating Cost Summary (excluding KCl)
Table 2: Capital Cost Summary
Table 3: Financial Model Summary
Table 4: Maricunga Lithium and Potassium Resource Summary
Don Hains, P.Geo., who is a technical consultant to the Company and is a qualified person within the context of National Instrument 43-101, has approved the scientific and technical disclosure in the news release.