Bergby Lithium Project Technical Report
GOSSELIN Mining prepared a Technical Report in order to satisfy the client's disclosure requirements under National Instrument 43-101 (NI 43-101), for filing a preliminary short form prospectus that contains first time disclosure of, or of a change in, mineral resources, mineral reserves.
Tsagaan Chuluut Uul Fluorspar Project Technical Study
GOSSELIN Mining prepared a Technical Report in order to review the client's internal technical report as per the disclosure requirements under National Instrument 43-101 (NI 43-101).
Phos-3 Phosphate Project Technical Study
GOSSELIN Mining prepared mine engineering for a Feasibility Study Technical Report in order to evaluate the economic potential of a mineral project as per the disclosure requirements under JORC 2012.
Woxna Graphite Project Technical Report
GOSSELIN Mining undertook a Preliminary Economic Assessment (PEA) Technical Report in order to satisfy the minimum mining disclosure requirements under National Instrument 43-101 (NI 43-101).
Hexagon UG Pro Test and Project Management
GOSSELIN Mining was commissioned as the lead consultant for test and project management of Hexagon UG Pro production management system.
Al Jalamid Phosphate Mine Ore Reserve Technical Report
GOSSELIN Mining prepared an Ore Reserve Technical Report in order to satisfy the client's disclosure requirements under JORC Code.
Optimizing Underground Mining Transport
Underground mining transport optimization and simulation for a iron ore project in central Sweden.
PHOS-3 Phosphate Project Technical Study
QP on open pit mine planning, design and scheduling using GEOVIA’s Surpac, MineSched and Whittle softwares as part of the Phos-3 Prefeasibility Study.
Woxna Graphite Mine Project Technical Report
QP, project manager and corporate mine engineer for Woxna Graphite Restart Project. Executed open pit optimization, design and scheduling for Kringel Mine Preliminary Economic Analysis (PEA) and Technical Ni43-101 Mineral Resource Estimate Study in order to rapidly advance the project into production to capture favorable graphite market conditions.
Stochastic Mine Design
Orebody geological uncertainty has a significant impact on the real value of a mining project. A stochastic mine optimization approach was used for designing open pit mines based on geological uncertainty in association with stochastically simulated geological models and traditional optimization. The stochastic approach allowed to develop open pit mine designs that capture maximum upside potential whilst minimizing geological risk.