Agricultural Machinery

General Description

Brief History

In our country, the first higher education program in agriculture in our republican period was started in Higher Institute of Agriculture (HIA) established in Ankara in 1933. The course of agricultural machinery in the curriculum of HIA. HIA was turned to the Faculty of Agriculture, Ankara University in 1948. At the Faculty, the education program was based on the teaching of General Agriculture until 1953 and in that year, departments were opened. In 1954, the Department of Agricultural Device and Machinery was established and the first students graduated in 1958. After Ankara University, Atatürk, Çukurova, Ege, Uludag, Akdeniz ve other universities which have faculty of agriculture started undergraduate, master and PhD programs in Agricultural Machinery.
Department of Agricultural Machinery, Faculty of Agricultural, Uludag University was established with the decision (No 1) of Faculty Committee on 1.9.1981, by accepting students for Master´s program on Spring 1985-1986.

Qualification Awarded

You will be awarded, on successful completion of the program and gain competencies, a master´s degree in Agricultural Machinery.

Level of Qualification

Second Cycle

Specific Admission Requirements

Students must comply with the legal and academic requirements to access the studies in The Uludag University according to the process established by the YÖK (Higher Education Council) regulations. Students who have started studies in other universities within or outside of the country may apply for their recognition. The recognition record is unique for each student and therefore the procedure is carried out accordingly before the start of each academic year.

Specific arrangements for the recognition of prior learning

The provisions in “Regulation on Transfer among Associate and Undergraduate Degree Programs, Double Major, and Subspecialty and the Principals of Credit Transfer among Institutions in Higher Education Institutions” are applied.

Qualification Requirements and Regulations

Profile of The Programme

The program of the department of the agricultural machinery; to be a department using contemporary education and training techniques, at national and international level, one of the leading institutions providing similar education, directing issues of the agricultural mechanization of our country and its industry, creating solutions for the problems in the field, producing knowledge valid everywhere in the world, training innovative, entrepreneur inquiring, and analyzer staff, guiding producers and industrial instructions through the inquiries and services. Also, the program of the department of the agricultural machinery; noticing the current problems about the agricultural machinery and providing solutions, when necessary making use of the knowledge for other problematic areas, having self-confidence, loving the profession, being able to train staff in the field, doing research to provide advanced techniques and contemporary technologies to the industry and produce quality services, and being an authority among other institutions. To enable to give post-graduate education in universal norms; to create skilful engineers who enable to produce new technology and to use effectively existing ones, and those have new knowledge and enable to be ready for the competitive medium.

Key Learning Outcomes & Classified & Comparative

1. The students will be able to enhance and deepen their knowledge, and design, carry out and finalize independently a research process on an original topic, based particularly on their competence acquired in master studies
2. Complete knowledge with scientific methods using limited or incomplete data, and apply this knowledge with scientific, societal and ethical responsibility
3. Transfer the process and results of works in a systematic manner to specialized or non-specialized groups both in written and oral form
4. Independently define a problem, develop solution methods and solve the problem, apply the results and present them in both written and oral form
5. Improve new strategical approaches and produce solutions by taking responsibility in unanticipated complex situations during professional activities and projects
6. Evaluate strategic performance of working groups and contribute to their improvement
7. Communicate in both own language and foreign languages with people who are working in the same profession area, in scientific societies excluding their area and in every part of the society
8. Use and improve information and communication technologies together with the knowledge of computer programs and software required in their profession
9. Comply with social, scientific and ethical values during data collection, interpretation and publication processes
10. Gaining the ability of understanding the universal and social effects of engineering solutions and interpreting in a correct way
11. Introduce technological, social and cultural improvements within academical and professional contexts in information based communities
12. The original and interdisciplinary strategic decision-making processes to solve these problems by establishing a leadership able to interact with the functional

SKILLS

Cognitive - Practical

Complete knowledge with scientific methods using limited or incomplete data, and apply this knowledge with scientific, societal and ethical responsibility

KNOWLEDGE

Theoretical - Conceptual

The students will be able to enhance and deepen their knowledge, and design, carry out and finalize independently a research process on an original topic, based particularly on their competence acquired in master studies

COMPETENCES

Field Specific Competence

Introduce technological, social and cultural improvements within academical and professional contexts in information based communities
Improve new strategical approaches and produce solutions by taking responsibility in unanticipated complex situations during professional activities and projects
Evaluate strategic performance of working groups and contribute to their improvement
The original and interdisciplinary strategic decision-making processes to solve these problems by establishing a leadership able to interact with the functional
Comply with social, scientific and ethical values during data collection, interpretation and publication processes

COMPETENCES

Competence to Work Independently and Take Responsibility

Improve new strategical approaches and produce solutions by taking responsibility in unanticipated complex situations during professional activities and projects

COMPETENCES

Communication and Social Competence

Transfer the process and results of works in a systematic manner to specialized or non-specialized groups both in written and oral form
Use and improve information and communication technologies together with the knowledge of computer programs and software required in their profession
Independently define a problem, develop solution methods and solve the problem, apply the results and present them in both written and oral form
Communicate in both own language and foreign languages with people who are working in the same profession area, in scientific societies excluding their area and in every part of the society

Learning Competence

Gaining the ability of understanding the universal and social effects of engineering solutions and interpreting in a correct way

Occupational Profiles of Graduates With Examples

Most of the students, who graduated, have the opportunity of working in the manufacturing sector of Agricultural Machinery. They can also work in the sectors related to machinery such as gear, cooling, machine tools, casting industry. It is observed that the students of the Department succeed in the works and find solutions related to their profession due to their engineering education. Positive views are received from the employers of these graduated students.

Access to Further Studies

A student who apply to doctorate programs or arts programmes must comply with the legal and academic requirements to access the studies in The Uludag University according to the process established by the YÖK (Higher Education Council) regulations. May apply to doctorate programmes in any field or proficiency in fine arts programmes

Examination Regulations, Assessment and Grading

As in all programs in UU, grades of the students at the department are evaluated under the credit system with four-point grading system. Even there are different evaluation materials in accordance with the course; they are generally assignments, quizzes, midterms, projects, seminars, workshop activities, and similar materials. The lecturer of the cause explains the students the evaluation criteria for each course at the beginning of the term. Applied lab or workshop activities and similar actions could be evaluated like exams. Except the evaluations made during the term, students have to sit for final exams at the end of each term All midterm activities and exams are evaluated over 100. Midterm average point to the pre-evaluation grade of a course is 50% and the final exam result is 50%. To be able to pass a course, including sitting for the final exam, it is required to get a certain grade over a limit. It is required to attend the 70% of the theoretical classes and the 80% of the application, lab and similar activities. Otherwise, students fail that course or activity because of being non-attendant. In the credit system, there is letter system from AA to FF(Table 1). Table 1. The numeric evaluation and explanations of the letter grades Letter grade Numeral grades Explanations AA 4.00 Perfect BA 3.50 Very Good BB 3.00 Good CB 2.50 Average CC 2.00 Passing grade DC 1.50 Failure DD 1.00 Failure FD 0.50 Failure FF 0.00 Failure

Graduation Requirements

A student is required to successfully complete a minimum of 7 courses, not less than 90 ECTS credits and not more 120 ECTS credits, take the required seminar and the Field Specialization courses and write and defend a Master´s Thesis, have a minimum GPA of 2.00/4.00 and no letter grades lower than CC. Then, the student should prepare a thesis after caring out a research on a topic supervised by a senior lecturer. On a successful submission of thesis, student is required to give a successful oral examination on his/her work.

Mode of Study

Full-Time

Address and Contact Details

Uludağ Üniversitesi Ziraat Fakültesi Biyosistem Mühendisliği Bölümü 16059 BURSA
Tel: 0-224-2941616
Fax: 0-224-4428775
E-posta: aodemir@uludag.edu.tr

Facilities

Our department has 13 rooms 11 of which are for the staff, one room for the head of the department, and a room for the secretary on the second floor in block C. On the same floor, there is also for precision instrument. In the basement of block C, there are three labs and an achieve room. The department has got a 375 m2 workshop and 400 m2 shelter next to the workshop for the actions mentioned above. The department have five full time staff and an instructor who has holding the PhD. The staff are consist of with two professor, three associate professor. Also, the department has four research assistant.

Curriculum

1. Semester
Course Code	Course Title	Type of Course	T¹	U²	L³	ECTS
TMK5001	ADVANCED THERMODYNAMIC IN AGRICULTURAL MACHINERY	Compulsory	3	0	0	6
TMK5003	ADVANCED AGRICULTURAL MACHINERY MANAGEMENT	Compulsory	2	2	0	6
TMK5191	DISSERTATION SUPERVISION I	Compulsory	0	1	0	1
	Click to choose optional courses.					17
Total						30

2. Semester
Course Code	Course Title	Type of Course	T¹	U²	L³	ECTS
TMK5002	COMPUTER AIDED DESIGN OF MACHINE ELEMENTS USED IN AGRICULTURAL MACHINERY	Compulsory	3	0	0	7
TMK5172	SEMINAR	Compulsory	0	2	0	5
TMK5192	DISSERTATION SUPERVISION II	Compulsory	0	1	0	1
	Click to choose optional courses.					17
Total						30

3. Semester
Course Code	Course Title	Type of Course	T¹	U²	L³	ECTS
TMK5173	SEMINAR	Compulsory	0	2	0	5
TMK5183	M.A. SPECIALISED FIELD COURSE III	Compulsory	4	0	0	5
TMK5193	DISSERTATION STUDY I	Compulsory	0	1	0	20
Total						30

4. Semester
Course Code	Course Title	Type of Course	T¹	U²	L³	ECTS
TMK5184	M.A. SPECIALISED FIELD COURSE IV	Compulsory	4	0	0	5
TMK5194	DISSERTATION SUPERVISION	Compulsory	0	1	0	25
Total						30

1. Semester Optional Courses
Course Code	Course Title	Type of Course	T¹	U²	L³	ECTS
TMK5005	DRYING METHODS OF AGRICULTURAL PRODUCTS	Optional	3	0	0	6
TMK5007	COMPUTER APLICATION IN AGRICULTURAL MACHINERY	Optional	2	2	0	6
TMK5009	PROJECTS OF WATER SUPPLIER STATIONS FOR AGRICULTURAL PURPOSES	Optional	3	0	0	6
TMK5011	DETERMINATION SYSTEMS OF BIOLOGICAL MATERIAL TECHNICAL PROPERTIES	Optional	2	2	0	6
TMK5013	SYSTEM ANALYSIS AND PLANNING IN AGRICULTURAL MACHINERY	Optional	3	0	0	6
TMK5015	ENERGY USE IN AGRICULTURE	Optional	3	0	0	6
TMK5017	SELECTING AND CLASSIFICATION PRINCIPLES OF AGRICULTURAL PRODUCTS	Optional	3	0	0	6
TMK5019	DAIRY MILKING MECHANIZATION AND MILK PROCESSING TECHNIQUES	Optional	2	2	0	6
TMK5181	M.A. SPECIALISED FIELD COURSE I	Optional	4	0	0	5

2. Semester Optional Courses
Course Code	Course Title	Type of Course	T¹	U²	L³	ECTS
TMK5004	MEASSUREMENT TECHNIQUES IN AGRICULTURAL MACHINERY	Optional	2	2	0	6
TMK5006	APLICATION OF INTERNAL COMBUSTION ENGINE IN AGRICULTURE	Optional	3	0	0	6
TMK5008	DESIGN OF SOIL TILLAGE MACHINERY	Optional	2	2	0	6
TMK5010	PRINCIPLE OF PRE-COOLING MACHINERY	Optional	2	2	0	6
TMK5012	ANALYSIS TECHNIQUE OF MECHANISM IN AGRICULTURAL MACHINERY	Optional	3	0	0	6
TMK5014	SAFETY AND ERGONOMICS IN AGRICULTURAL MACHINERY	Optional	3	0	0	6
TMK5016	DESIGN OF SEEDING AND PLANTING MACHINERY	Optional	2	2	0	6
TMK5018	MODELLING TECHNICS IN AGRICULTURAL MACHINERY	Optional	2	2	0	6
TMK5020	WORKING SYSTEM IN AGRICULTURAL MACHINERY PLANTS	Optional	3	0	0	6
TMK5182	M.A. SPECIALISED FIELD COURSE II	Optional	4	0	0	5