Blue Eagle Lithium Inc. announced it has received a completed National Instrument NI 43-101 report from Tekhne Research. The report, commissioned by Blue Eagle in August 2018, represents an important research tool for the Company to plan an appropriate exploration program for its Railroad Valley property. Tekhne Research, based out of Victoria, Canada, was chosen for its experience in Railroad Valley and having conducted NI 43-101 reports for other Lithium exploration companies. Blue Eagle is a Lithium exploration company engaged in identifying, evaluating and developing early-stage Lithium exploration opportunities in North America. The Company's initial property is located in Railroad Valley, Nevada, a highly prospective green-fields petro-Lithium brine target in an area first identified as Lithium rich by the US Geologic Survey. Geophysical investigations have also identified structures and architecture that are consistent with the Lithium-bearing brine deposit models identified in Clayton Valley, home to North America's only Lithium producing mine owned by Albemarle Corp. The company has a 100% Working Interest in 200 placer claims covering 4,000 acres (~1,619 hectares). With many features similar to Clayton Valley, the Property represents a new and untested target for Lithium brine. The Railroad Valley brine exploration can build on the dense existing oil field data, the experiences at Clayton Valley and other Lithium-brine basins to target potential brine aquifers. The petroleum data can be purchased through agents and the closed wells can be reopened for water testing. Only a few companies are starting to utilize the assets to assess the actual Lithium potential of the several basins. The recommended work program consists of two-phases with further work dependent on results. Phase 1 would focus on collecting and synthesizing available well-logs (geological and electronic), gravity and seismic data, all of which can be purchased through oil and gas data brokers. Railroad Valley's 60-year history of oil exploration will have a large data set compared with other potential Li-brine basins in Nevada and Utah. Concurrently, Audio-Magnetotelluric (AMT) electromagnetic surveys are recommended and would cross the property along three lines totalling 13.2 km. to test for faults, and basin depth. A systematic soil augur and biogeochemical program would also test Lithium anomalies below surface wind-blown contamination/dilutants. Combining seismic, gravity and AMT data from multiple traverses, a 3D analysis of the subsurface geology testing for faults and basin depth could be completed.