Electromechanical Design

Our Electromechanical Design group is composed of specialists in Mechanical, Piping, Civil, Structural, Electrical, Instrumentation, and Process Engineering.

The team delivers high-quality technical designs in compliance with national and international standards and regulations, meeting agreed project schedules.

Our designs provide robust and sustainable solutions that ensure project safety, operability, maintainability, constructability, and environmental compliance.

  • Design and selection of bulk material handling and conveying equipment, including belt conveyors, silos, transfer chutes, chain conveyors, screw conveyors, bucket elevators, belt feeders, screw flights, and related systems.
  • Pneumatic conveying systems.
  • Comminution (crushing and grinding).
  • Flotation processes.
  • Leaching processes.
  • Tailings thickening and classification systems.
  • Plant layout configuration and retrofitting.
  • Process performance optimization.
  • Energy consumption reduction and efficiency improvement initiatives.
  • Development of metallurgical audits and metal accounting studies.
  • Process simulation for equipment evaluation and flowsheet optimization.
  • Design of tailings transport systems for low and high solids concentrations, including Newtonian and non-Newtonian fluids.
  • Design of water transport and mine dewatering systems.
  • Design of gravity-fed fluid transport systems using channels and pipelines.
  • Design of piping and pumping systems for leach pad operations.
  • Design of reagent dosing systems.
  • Tailings filtration systems.
  • Fire protection piping systems.
  • Compressed air systems for process and auxiliary services.
  • Process water, service water, potable water, and reclaimed water systems.
  • Pipe stress and flexibility analysis, including hydraulic transient (water hammer) studies.
  • Power consumption and demand analysis.
  • Electrical power transmission and distribution system design.
  • Load flow and short-circuit studies.
  • Motor starting and acceleration studies.
  • Harmonic distortion analysis.
  • Comprehensive engineering for electrical installations, cabling, and raceway systems.
  • Lighting system design.
  • Lightning protection and grounding system design.
  • Design of High-, Medium-, and Low-Voltage (HV/MV/LV) electrical substations.
  • Selection and specification of bulk material handling equipment (conveyors, chutes, feeders, screens, and related systems).
  • Design of atmospheric storage tanks.
    Design of pump sumps and transfer boxes.
  • Specification and selection of thickeners.
  • Development of 3D models for industrial facilities and mineral processing plants.
  • Plant layouts and General Arrangement (GA) drawings for concentrator plants and auxiliary systems.
  • Development of detailed fabrication and installation drawings for mechanical equipment.
  • Foundation design for crushers, mills, filter presses, conveyors, flotation cells, pumps, and processing plant equipment.
  • Foundation design for tanks, thickeners, and pipe support systems.
  • Design of concrete slabs, retaining walls, storage ponds, and culverts.
  • Structural steel design for warehouses, workshops, industrial buildings, pipe racks, and operating platforms.
  • Analysis and design of reinforced concrete and structural steel structures.
  • Structural modeling and Finite Element Analysis (FEA).
  • Development of P&IDs, General Arrangement (GA) drawings, loop diagrams, control and communication architectures, control philosophies, technical specifications, and data sheets for detailed engineering of the following systems:
    • Fire protection instrumentation and control systems.
    • Leach pad operations.
    • Concentrator plants.
    • Conveyor belt and bucket elevator systems.
    • Silos and storage tanks.
    • Pumping systems.
    • Control room design.
    • Fiber optic network design.
    • Communication systems, CCTV, and IP telephony.
    • Process automation through instrumentation and control loop selection.