What you will Gain

Year 1 – Foundation in Mining & Metallurgy Engineering

Principles of Mining and Metallurgy Engineering

• Understand fundamental concepts in mining & metallurgy engineering processes.
• Analyse extraction, processing, and material handling methods.
• Demonstrate knowledge of mining and metallurgy terminology and industry standards.

Engineering Mathematics

• Apply algebra, calculus, and statistics to mining and metallurgical problems.
• Use mathematical models to interpret engineering systems.
• Develop problem-solving and analytical skills for technical applications.

Fundamentals of Mechanical and Electrical Engineering

• Understand mechanical and electrical principles relevant to mining machinery and equipment.
• Analyse basic circuits, power systems, and mechanical operations.
• Apply theoretical knowledge to simple engineering scenarios.

Materials Science and Metallurgy

• Identify types of metals and alloys used in mining and metallurgy.
• Understand material properties, structure-performance relationships, and testing methods.
• Select appropriate materials for engineering and metallurgical applications.

Engineering Drawing and Computer-Aided Design (CAD)

• Interpret technical drawings and industry standards.
• Develop 2D and 3D models using CAD software.
• Apply geometric tolerancing and dimensioning principles.

Introduction to Mining Geology and Mineralogy

• Identify rock types, minerals, and ore deposits.
• Understand geological formation and mineral distribution.
• Apply geological concepts to mining exploration and planning.

Basics of Mining Operations and Techniques

• Understand surface and underground mining methods.
• Analyse mining workflows, equipment use, and safety considerations.
• Demonstrate practical knowledge of ore extraction techniques.

Fundamentals of Ore Processing and Metallurgical Methods

• Apply principles of crushing, grinding, and mineral separation.
• Understand metallurgical processes for metal extraction.
• Evaluate efficiency and sustainability of processing methods.

Health, Safety, and Environmental Practices in Mining

• Identify workplace hazards and implement control measures.
• Apply health, safety, and environmental regulations.
• Promote sustainable mining practices.

Introduction to Mining Equipment and Machinery

• Understand types, functions, and operation of mining machinery.
• Evaluate equipment selection and performance.
• Apply basic maintenance and safety practices.

Communication and Technical Report Writing

• Develop clear technical communication and reporting skills.
• Structure professional engineering reports and documentation.
• Apply correct referencing and industry communication standards.

Introduction to Project Management in Engineering

• Understand project planning, scheduling, and resource allocation.
• Apply basic project management tools such as Gantt charts and critical path analysis.
• Analyse risks and manage project deliverables effectively.

Year 2 – Intermediate Studies in Mining & Metallurgy Engineering

Mining Methods and Mine Planning

• Analyse different mining methods for efficiency and safety.
• Develop mine plans including layouts, schedules, and resource allocation.
• Apply planning tools to optimise operations.

Mineral Processing and Extractive Metallurgy

• Implement advanced mineral separation and refining techniques.
• Analyse metallurgical processes to maximise recovery.
• Evaluate process efficiency and environmental impact.

Rock Mechanics and Geotechnical Engineering

• Assess rock properties, stability, and stress distribution.
• Apply geotechnical principles to mine design and excavation safety.
• Analyse slope stability and ground support requirements.

Advanced Materials and Metallurgical Analysis

• Investigate advanced metal alloys and metallurgical techniques.
• Analyse structural and thermal properties of metals.
• Apply testing methods to ensure quality and performance.

Industrial Automation and Control Systems in Mining

• Understand automation principles and control systems for mining operations.
• Program and monitor PLC-based systems.
• Apply digital monitoring for process efficiency and safety.

Mine Surveying and Geomatics Applications

• Conduct surveys using traditional and digital methods.
• Apply GIS and geomatics in mine planning.
• Analyse spatial data for operational optimisation.

Industrial Maintenance and Reliability in Mining Operations

• Apply preventive and predictive maintenance strategies.
• Analyse equipment reliability and implement condition monitoring.
• Improve operational efficiency through maintenance planning.

Sustainable Mining Practices and Environmental Management

• Implement sustainable practices in mining operations.
• Assess environmental impact and compliance with regulations.
• Promote resource efficiency and ecological responsibility.

Applied Research Methods in Mining and Metallurgy

• Develop research proposals and methodologies.
• Analyse qualitative and quantitative data.
• Present findings in technical and academic formats.

Mining Economics and Cost Control

• Analyse financial aspects of mining operations.
• Apply budgeting, cost estimation, and optimisation techniques.
• Evaluate economic feasibility of mining projects.

Project Planning and Mine Operations Management

• Plan and manage mining projects effectively.
• Apply scheduling, resource allocation, and risk management techniques.
• Monitor operational performance and productivity.

Health, Safety, and Risk Management in Metallurgy

• Apply safety and risk assessment protocols.
• Identify hazards in metallurgical operations and implement controls.
• Promote a culture of safety and regulatory compliance.

Year 3 – Advanced Studies in Mining & Metallurgy Engineering

Advanced Mining Techniques and Underground Operations

• Analyse complex underground mining methods.
• Implement best practices for safety, efficiency, and resource optimisation.
• Solve technical challenges in deep mining operations.

Advanced Metallurgical Processes and Simulation

• Apply simulation techniques to Mining & Metallurgy Engineering operations.
• Analyse complex processing systems for efficiency and sustainability.
• Optimise metallurgical workflows and production quality.

Mineral Resource Evaluation and Optimisation

• Conduct resource estimation and feasibility studies.
• Apply modelling techniques to optimise extraction.
• Evaluate economic and technical viability of mineral projects.

Mine Ventilation and Environmental Control Systems

• Design and analyse ventilation systems for underground operations.
• Implement environmental control and monitoring solutions.
• Ensure safety, air quality, and regulatory compliance.

Smart Mining Technologies and Industry 4.0 Applications

• Integrate IoT, automation, and digital monitoring in mining.
• Apply Industry 4.0 technologies for operational optimisation.
• Evaluate data-driven solutions for mining efficiency.

Robotics and Automation in Mining and Metallurgy

• Understand robotics applications in extraction and processing.
• Implement automated systems for operational safety and productivity.
• Evaluate performance of robotic solutions in mining environments.

Cyber-Physical Systems and IoT in Mining Operations

• Integrate digital sensors and networked systems in mining processes.
• Analyse operational data for efficiency and predictive maintenance.
• Apply cyber-physical systems to modern mining operations.

Professional Ethics and Sustainability in Mining Engineering

• Understand ethical responsibilities of mining engineers.
• Apply sustainability frameworks in design and operations.
• Evaluate social and environmental impacts of mining projects.

Innovation and Entrepreneurship in Mining & Metallurgy

• Develop entrepreneurial skills for the mining sector.
• Innovate technologies and processes for industrial applications.
• Create business strategies for mining and metallurgical ventures.

Infrastructure and Facility Planning for Mining Projects

• Plan and design mining facilities and supporting infrastructure.
• Apply principles of efficiency, safety, and environmental sustainability.
• Evaluate cost, logistics, and operational requirements.

Advanced Research and Analytical Techniques in Metallurgy

• Conduct complex metallurgical experiments and analyses.
• Apply computational and laboratory techniques to process optimisation.
• Present findings in professional reports and technical publications.

Final Year Major Project (Capstone Project)

• Undertake independent research or applied engineering project.
• Integrate knowledge from mining and metallurgy disciplines.
• Present results through professional reports and technical presentations.