The information and program qualifications related to the Mineral Processing Engineering Bachelor of Science Program, under the Department of Mineral Processing Engineering of the Faculty of Mines, are summarized below.
Information About The Program
Mineral Processing Engineering together with its associated scientific domains and multi-facet structure occupies a unique place in its own discipline. Mineral processing covers the stages of utilizing natural mineral resources in various areas such as metallurgy, iron-steel, glass, ceramics, cement, detergent, paint, building materials, and energy production. In this context, mineral processing follows various technological schemes to increase the metal content of minerals to a certain level, to remove undesirable impurities from mineral based raw materials and also to bring mineral particles to a size suitable for a valuable product. Therefore, design and operation of a plant which requires engineering and technological background of the process becomes prerequisite in mineral processing.
One of the most important problems today both in Türkiye and in the world is production of cheap and clean energy. A major portion of electrical energy presently is produced from coal-fired power stations. In addition coal is also utilized in different forms of solid and gaseous fuels. The quality of coal consumed domestically and in industrial plants is important from the point of human health and environmental pollution. Mineral Processing Engineers with their expertise help in the preparation of upgraded and environmentally friendly coals with more efficient technologies and thus provide both economic and environmental advantages.
Run-of mine mineral resources with high grades and large reserves have globally depleted and have been left with low grade, mineralogically complex and difficult-to-treat deposits. Advanced technologies for precious and rare/rare earth metals (Au, Ag, Pt, Pd, In, Ge, Se, Te, Li) and nuclear energy raw materials (U, Th) have been mainly explored by foreign companies and their experts which should be replaced by our own mineral processing engineers trained and equipped with all necessary up to date knowledge and technology; this is a real challenge.
Rapid progress in developing new materials has demanded preparation of raw materials towards a value added commercial product. We can give examples of preparing products for bio-mechanic, textile, insulation, advanced ceramics, nanotechnology applications. However, development of such materials from a particular raw ore requires well equipped knowledge, experience and confirmed expertise. Also applications both in Europe and the world indicate that utilization of solid wastes including municipality garbage involving all types of solid-liquid separations fall within the expertise area of mineral processing engineers.
Preparation aggregates used as construction materials and concrete industry and production of different blended cement become important industry in our modern daily life. In this context, many aggregation and cement plants have improved their production facilities to comply with the required standards. Mineral processing engineers will definitely contribute to this vital sector with their accumulated knowledge.
All the above criteria and indicators clearly point out the necessity of educating students in İTÜ Mineral Processing Engineering Department which is the first and and only engineering department in the country.
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Program Profile
Our graduates of the undergraduate program will develop their skills in interdisciplinary education, analytical thinking, and teamwork in line with the following educational objectives over the next few years:
1. To solve the problems of ore preparation and enrichment in the public and private sectors within the framework of efficiency and environmental sensitivity, and to train engineers who can implement these solutions.
2. To develop, improve, or promote ore preparation technologies that enhance the quality of life for people living in areas where ore preparation activities are carried out.
3. To contribute to the education of the public by providing information to citizens, politicians, and non-governmental organizations (NGOs) about the value of processed or evaluated mineral products and their uses in society.
Registration Requirements
Program Learning Environments
Education and training are carried out in the form of formal, open, or distance learning. In addition, practical training is conducted in laboratories and workshops within higher education institutions, or in industry, healthcare institutions, and workplaces as internships or on-the-job training.
YKS Quotas, Student Success Ranking, Minimum and Maximum Scores for the Last Five Years
Mineral Processing Engineering Bachelor of Science Program (%30 English)
| Year | Point Type | Qoata | Min Point | Max Point
|
| 2019 | SAY | 60 | 316,99847 | 389,51321 |
| 2020 | SAY | 60 | 359,05591 | 475,85610 |
| 2021 | SAY | 60 | 300,67645 | 344,11434 |
| 2022 | SAY | 60 | 367,60686 | 415,77932 |
| 2023 | SAY | 40 | 398,68572 | 460,19978 |
| 2024 | SAY | 30 | 392,79571 | 431,14131 |
| Year | Lowest Success Ranking | Heighest Success Ranking | Average Success Ranking |
| 2019 | 157022 | 73198 | 143737 |
| 2020 | 146447 | 33061 | 119319 |
| 2021 | 162251 | 98894 | 141660 |
| 2022 | 147697 | 88967 | 128710 |
| 2023 | 112311 | 49119 | 101189 |
| 2024 | 90425 | 53325 | 79571 |
Mineral Processing Engineering Bachelor of Science Program (%30 English) Graph of Minimum and Maximum Scores by Year
MasterBee
English Proficiency
Regulations and Guidelines
Academic Calendar
Accreditation
ITU Mineral Processing Engineering Bachelor of Science Program program accredited by the ABET Engineering Accreditation Commission (EAC).
ABET website
Course Plans, Prerequisites and Course Equivalence
Course Information
Course Schedules
Course Adjustment and Exemption Procedures
Program Educational Objectives
The undergraduate program graduates will demonstrate their interdisciplinary education, analytical thinking skills, and team-oriented capabilities within a few years after graduation by:
1. Solving complex problems involving mineral processing as productive and environmentally responsible members of private companies or government agencies, or as graduate students,
2. Developing, enhancing, or promoting mineral processing technologies that enhance the quality of life of people in communities near where mineral processing activities take place,
3. Contributing to the education of people by informing citizens, political leaders and Non-Governmental Organisation (NGO) about the value of processed mineral commodities and their uses in society.
Measurement and Evaluation
Student success is evaluated in consideration of Articles 20, 21, 22, 23, 24, and 25 of the Istanbul Technical University Undergraduate Education and Training Regulation.
Click here for the relevant regulation.
Internship
This program 45 days contains mandatory intership.
Graduation Requirements
The Awarded Degree and Title
Degree : Bachelor of Science Title : Mineral Processing Engineering
Program Employment Opportunities
Mineral beneficiation plants (Copper, Chromium, Zinc, Lead, Aluminium etc.)
Beneficiation plants for Au, Ag, Pt and other precious metals
Rare/Rare earth oxides (La, Ce, Nd) production plants
Iron-Steel plants: beneficiation of iron ores, pelletizing and preparation of raw materials
Ore Processing Plants Processed by Biotechnology Methods
Coal fired power stations and their comminutions units
Clean coal preparation plants
Nuclear raw materials production units (Uranyum, Toryum)
Glass and ceramics raw materials preparation plants and their applications
Construction-aggregate materials preparation plants
Preparation and grinding of cement raw materials
Preparation of nanominerals for use in nanotechnology
Production of Clay and Other Mineral Based Raw Materials in Appropriate form for use in Nanotechnology
Development of Products for farious Sectors from Industrial Minerals
Fertilizer and animal feed raw materials plants
Filler and extender preparation plants
Paints and detergent production plants
Solid and liquid waste separation and utilization units
Soil remediation plants
Minerals/products sales and marketing departments
Mineral processing equipment development, sales and marketing
Mineral processing plant design and feasibility projects
Computer and automation practices in mineral processing plants
Design and sale of industrial silos
Recycling and waste utilization plants
Safe disposal of waste dams
Land Reclamation Studies
Quality Control in mineral and chemical production plants
Number of Graduates
Mineral Processing Engineering Bachelor of Science Program (%30 English) Graduate Statistics
| Year | Number of Graduates |
| 2013 | 18 |
| 2014 | 23 |
| 2015 | 16 |
| 2016 | 13 |
| 2017 | 12 |
| 2018 | 20 |
| 2019 | 18 |
| 2020 | 23 |
| 2021 | 35 |
| 2022 | 29 |
| 2023 | 20 |
| 2024 | 40 |
Program Outcomes
P.O.1 An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
P.O.2 An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors
P.O.3 An ability to communicate effectively with a range of audiences
P.O.4 An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
P.O.5 An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
P.O.6 An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions
P.O.7 An ability to acquire and apply new knowledge as needed, using appropriate learning strategies
Higher Education Program Atlas
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Head of Department
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