Fabled Silver Gold Corp T.FCO

Dundee Sustainable removes 99% As from eCobalt's CoDundee Sustainable removes 99% As from eCobalt's Co 2018-01-08 13:04 ET - News Release See News Release (C-DST) Dundee Sustainable Technologies Inc Mr. Brian Howlett of Dundee Sustainable Technologies reports DUNDEE SUSTAINABLE TECHNOLOGIES ANNOUNCES PRELIMINARY RESULTS OF COBALT TESTING Dundee Sustainable Technologies Inc. has released the results of testing completed during the week of Dec. 18, 2017, on eCobalt Solutions Inc.'s material. The tests indicated that the Idaho cobalt project mineralized material is amenable to pyrolysis and results in a 99-per-cent reduction of arsenic to less than 0.5 per cent arsenic content in atmospheric conditions between 700 degrees and 850 degrees Celsius. These positive results support further metallurgical work, which will continue with pilot-scale testing of a bulk sample currently being collected for processing at the company's facilities starting in late January, 2018. This pilot testing will affirm development of a feasibility-level flow sheet and costing of the optimized process. Brian Howlett, the president and chief executive officer of the corporation, stated: "The corporation is very pleased with the results to date and looks forward to pilot-scale testing for eCobalt on this important project. Clean cobalt concentrate represents a new opportunity for the corporation's arsenic technology beyond the gold and copper projects that we are pursuing." Jean-Philippe Mai, PGeo, is the qualified person who has reviewed, prepared and approved the content if this news release. About Dundee Sustainable Technologies Inc. The corporation is engaged in the development and commercialization of environment-friendly technologies for the treatment of materials in the mining industry. Through the development of patented, proprietary processes, Dundee Sustainable Technologies extracts precious metals and base metals from mineralized material, concentrates and tailings, while stabilizing contaminants such as arsenic, which could not otherwise be extracted or stabilized with conventional processes because of metallurgical issues or environmental considerations. We seek Safe Harbor. 2018 Canjex Publishing Ltd. All rights reserved.