The Project is located south and west of Lac Knife, located on the North Shore, Québec, Canada. Fermont is the closest community and is located 27 km north-northeast of the property. The Project is situated in the Esmanville Township on NTS map sheet 23B11. Road distance from Montreal to Lac Knife is approximately 1,300 km and by all-season highway 389, it is 500 km from Baie-Comeau to Fermont. The property is centred at 52°33'N and 67°11'W. The property covers 2,986.31 ha. LAND TENURE The property consists of a total of 57 claims covering 2,986.31 ha. All claims are located in the province of Québec and are registered as CDC ("Claims désignés sur carte"). At the time of writing this report, the claims are registered under Focus Graphite Inc. as Québec Gestim claims client No. 90809. To the knowledge of RPA, Focus is the sole owner of the property with no option, royalty, or other outstanding agreements.
The Project is located south and west of Lac Knife, located on the North Shore, Québec, Canada. Fermont is the closest community and is located 27 km north-northeast of the property. The Project is situated in the Esmanville Township on NTS map sheet 23B11. Road distance from Montreal to Lac Knife is approximately 1,300 km and by all-season highway 389, it is 500 km from Baie-Comeau to Fermont. The property is centred at 52°33'N and 67°11'W. The property covers 2,986.31 ha. LAND TENURE The property consists of a total of 57 claims covering 2,986.31 ha. All claims are located in the province of Québec and are registered as CDC ("Claims désignés sur carte"). At the time of writing this report, the claims are registered under Focus Graphite Inc. as Québec Gestim claims client No. 90809. To the knowledge of RPA, Focus is the sole owner of the property with no option, royalty, or other outstanding agreements.
Increasing demands on the quality of graphite cause carrying out detailed studies of its desulfurization. Combined sulfur present in natural graphite reduces the heat transfer coefficient, increases the heat energy consumption, pollutes the atmosphere with harmful emissions in the process of their application in various branches of industry. The technology and deepness of desulfurization is determined by the total content and ratio of various sulfur compounds in graphite. Previously, a number of technologies for cryptocrystalline graphite enrichment had been developed by the authors. However, the use of these technologies does not effectively reduce the sulfur content in the graphite composition. Therefore, the aim of this work is to develop activation methods that can reduce effectively the sulfur content in the composition of cryptocrystalline graphite. In order to reduce the total sulfur content, mechanical and electro-explosive-pulsing activation were tested. Mechanical activation of graphite was carried out in АGО-2, DCM, D-100 activator mills in different environments and at different activation time. To implement electric-explosive-pulsing activation, special equipment was used. In the process of the research it has been found that the use of mechanical activation and electric-explosive-pulsing activation does not reduce the sulfur content below 0.25 wt.%. Mechanical activation of graphite in different modes enables more intensive release of sulfide minerals from aggregate graphite formations and their intensive oxidation.
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