Mineral Process Engineering
Mineral processing engineering is an applied technology discipline that studies mineral separation of mineral oil and mineral wells. The aim is to separate useful minerals from gangue minerals. For example, iron, copper, lead, and zinc ore contain gangue minerals such as quartz.
Mineral processing engineering students mainly study theories and knowledge in mathematics, physics, chemistry, mechanics, mineralogy, mineral processing, mechanical engineering, geology and comprehensive utilization of resources. They are trained in experimental research, engineering design methods, production management, and computer applications. Graduates generally have research, design and production management capabilities in mineral processing.
Mineral processing engineers can work in the laboratory or be asked to travel to the mine where they work with other engineers and mineral processing operators or technicians. Mineral processing engineers may see the world as working for large international companies whose work often involves international travel.
As long as it is not restricted by the research object, mineral processing technology can be effectively utilized in various engineering fields. In turn, the absorption and utilization of practical experience and research results in other engineering fields can promote the further development of mineral processing engineering.
WHAT CAN I DO WITH MINERAL PROCESSING ENGINEERING DEGREE?
1. Mineral Processing Engineer
Depending on the type of mine, mineral processing engineers can work in the open space or underground, where it can be narrow and hot.
Production sites can be remotely located and may be hot and noisy, engineers may need to wear protective goggles and clothing.
Mineral processing engineers must be prepared to travel and often stay away from home for long periods of time. They may be required to live on a field away from home or on a flight basis. Mineral processing engineers will be on site and then fly home when they get off work.
2. Electronic Engineer
As an electronics engineer, you will design, develop, and test components, equipment, systems, or equipment that use electricity as part of their power supply. You may be involved in any phase of the project, including an initial introduction to the concept, design and development phases, prototype testing, and final manufacturing and implementation of new products or systems. You usually work with colleagues in other engineering departments on the project team. Engineering is a popular professional industry. As an electrical engineer, you will use advanced technology in a variety of fields.
3. Process Development Scientist
Manufacturing companies often need to develop scientists to understand and control the processes used to make the final product. Process Development scientists are engaged in the research of various products in the manufacturing industry, such as food, medicine, cosmetics, engineering design process and coatings. The goal of process development scientists is to optimize the performance of manufacturing systems. They are responsible for identifying and developing new processes for product development, as well as implementing process control to ensure that products are manufactured in a high quality and reproducible manner. Scientists working on product development scientists collaborate to develop new ideas and scientific discoveries that can be made in the manufacture of new products. They also develop and improve existing products.
Engineering Fluid Mechanics
Mineral Processing Technology Design
Technical Economic Analysis
Common skills gained from this degree
- Chemical and process metallurgy techniques Study and application
- Responsible for onsite testing and research
- Process design and development
- Prepare and oversee operational budgets
- Environmental efficiency and feasibility