Greenwing Resources Ltd. reported that it has commenced planning for a maiden drill program at its San Jorge Lithium brine project in Argentina's prolific Lithium Triangle. An additional geophysics survey will be undertaken prior to the drilling program and Direct Lithium Extraction (DLE) analysis of the brine has commenced. San Jorge project consists of a 38,000-hectare tenement package, inclusive of the entire 2,800-hectare San Francisco Salar, and is surrounded by major lithium mining and development companies.

The Company is working with drilling contractors on costs and timing for commencement of a drilling program. The maiden drilling program is planned around the western and southern margins of the lake as experience in other salt lake basins suggests lithium brine is likely to extend under alluvial gravels and basalt flows in this area. The three rotary holes of 400m are designed with the objective of confirming the lithium concentration and obtaining initial information about the different types of sediments.

Hole depths of approximately 400m are being targeted to intersect deep brine and evaluate whether there is significantly higher lithium concentration than at surface, and to evaluate the difference with depth through the salar. Direct Lithium Extraction (DLE): In parallel with establishing a forward exploration plan to develop the substantial opportunity offered by the San Jorge project, the Company has begun to assess the various processing options including DLE. DLE is an established technology to selectively remove lithium compounds from brines or geothermal fluids.

Although its application to the lithium industry is relatively recent, it is a proven technology which sits at the core of the sustainable mining revolution, accelerating the lithium extraction process. Advantages associated with DLE technology compared to conventional lithium brine extraction methods through evaporation ponds include: More efficient turnaround times and recovery process (faster lithium production); Low environmental impact- (low CO2 emissions and footprint); Less complex extraction; Potential to make low grade lithium projects economically viable; Up to 99% lithium recovery; and Modular and therefore scalable.