Kocaeli University / European Credit Transfer System (ECTS)

Name of Lecturer(s)

Prof. Dr. Adalet ZEREN
Assistant Prof. Dr. Fulya KAHRIMAN
Lecturer Mustafa ATEŞ
Lecturer Cengiz SOYKAN

Learning Outcomes of the Course Unit
Program Competencies-Learning Outcomes Relation

Learning Outcomes of the Course Unit

) Obtain knowledge about waste, scrap and recycling.
) Final Sınavı
1) Obtain knowledge about preliminary works for establishment of a plant in metal sector, planning,
2) Obtain knowledge about demand, investigation of competition conditions.
3) Obtain knowledge about feasibility.
4) Obtain knowledge about economical studies.
5) Obtain knowledge about determination of capacity.
6) Obtain knowledge about production type, semi-product and product.
7) Obtain knowledge about land of plant, plan of plant placing.
8) Ara Sınav
9) Obtain knowledge about building up systems of production and quality control units/quality assurance.
10) Obtain knowledge about commissioning of plant, test production.
11) Obtain knowledge about transition of plant to shift production, displacement of plant.
12) Obtain knowledge about packing, building up store of product and business.
13) Obtain knowledge about administrative system.
14) Obtain knowledge about environment problems.

Program Competencies-Learning Outcomes Relation

		Program Competencies
		1	2	3	4	5	6	7
Learning Outcomes
		No relation	No relation	No relation	No relation	No relation	No relation	No relation
		No relation	No relation	No relation	No relation	No relation	No relation	No relation
	1	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	2	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	3	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	4	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	5	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	6	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	7	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	8	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	9	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	10	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	11	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	12	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	13	No relation	No relation	No relation	No relation	No relation	No relation	No relation
	14	No relation	No relation	No relation	No relation	No relation	No relation	No relation

Mode of Delivery

Face to Face

Prerequisites and Co-Requisites

None

Recommended Optional Programme Components

Not Required

Course Contents

Preliminary works for establishment of a plant in metal sector, Planning, Demand, Investigation of competition conditions, Feasibility, Economical studies, Determination of capacity, Production type, Semi-product and product, Land of plant, Plan of plant placing, Building up systems of production and quality control units/quality assurance, Commissioning of plant, Test production, Transition of plant to shift production, Displacement of plant, Packing, Building up store of product and business, Administrative system, Personnel, Environment problems, Waste, Scrap and recycling

Weekly Schedule

1) 1.1. PRODUCTION SYSTEM 1.2. CLASSIFICATION OF INDUSTRIAL PRODUCTION SYSTEMS 1.3. CHARACTERISTICS OF DISCRETE AND CONTINUOUS PRODUCTION TYPES 1.4. FACILITY PLANNING 1.5. FACILITY ORGANIZATIO
2) 1.1. PRODUCTION SYSTEM 1.2. CLASSIFICATION OF INDUSTRIAL PRODUCTION SYSTEMS 1.3. CHARACTERISTICS OF DISCRETE AND CONTINUOUS PRODUCTION TYPES 1.4. FACILITY PLANNING 1.5. FACILITY ORGANIZATION
3) 2. CAPACITY PLANNING 2.1. CONCEPT OF CAPACITY 2.2. CAPACITY PLANNING AND ITS IMPORTANCE 2.3. TYPES OF CAPACITY 2.4. MACHINE CAPACITY 2.5. MAN POWER CAPACITY 2.6. WORKING TIME AND CAPACITY 2.7. CAPACITY – PRODUCTION RATE RELATIONSHIPS 2.8. FACTORS AFFECTING CAPACITY SIZE 2.9. DETERMINATION OF CAPACITY SIZE 2.10. CAPACITY BALANCING 2.11. CAPACITY DISTRIBUTION 2.12. CAPACITY PLANNING WITH BREAK-EVEN POINT ANALYSIS
4) 2. CAPACITY PLANNING 2.1. CONCEPT OF CAPACITY 2.2. CAPACITY PLANNING AND ITS IMPORTANCE 2.3. TYPES OF CAPACITY 2.4. MACHINE CAPACITY 2.5. MAN POWER CAPACITY 2.6. WORKING TIME AND CAPACITY 2.7. CAPACITY – PRODUCTION RATE RELATIONSHIPS 2.8. FACTORS AFFECTING CAPACITY SIZE 2.9. DETERMINATION OF CAPACITY SIZE 2.10. CAPACITY BALANCING 2.11. CAPACITY DISTRIBUTION 2.12. CAPACITY PLANNING WITH BREAK-EVEN POINT ANALYSIS
5) 3. SELECTION OF A LOCATION 3.1. DEFINITION AND SCOPE OF LOCATION 3.2. ECONOMIC FACTORS TO BE CONSIDERED IN LOCATION 3.3. PHASES OF LOCATION SELECTION 3.5. INFORMATION SOURCES FOR LOCATION SELECTION 3.6. EVALUATION METHODS FOR LOCATION SELECTION
6) 3. SELECTION OF A LOCATION 3.1. DEFINITION AND SCOPE OF LOCATION 3.2. ECONOMIC FACTORS TO BE CONSIDERED IN LOCATION 3.3. PHASES OF LOCATION SELECTION 3.5. INFORMATION SOURCES FOR LOCATION SELECTION 3.6. EVALUATION METHODS FOR LOCATION SELECTION
7) 4. TECHNOLOGY AND EQUIPMENT PLANNING 4.1. PRODUCTION TECHNOLOGY 4.3. MACHINERY – EQUIPMENT
8) Midterm Exam/Assesment
9) 5. MATERIAL HANDLING PLANNING 5.1. MATERIAL HANDLING (MT) CONCEPT 5.2. FACTORS AFFECTING MT ACTIVITIES 5.3. EFFECTS OF MATERIAL MOVEMENTS ON PRODUCTION SYSTEM 5.4. BASIC PRINCIPLES IN MATERIAL HANDLING 5.5. MATERIAL HANDLING ANALYSIS 5.6. MATERIAL HANDLING PROJECT 5.8. FEATURES OF MATERIAL HANDLING VEHICLES 5.9. FACTORS AFFECTING MT VEHICLES SELECTION 5.10. MATERIAL HANDLING VEHICLES
10) 6. MAINTENANCE PLANNING 6.1. MAINTENANCE CONCEPT 6.5. MAINTENANCE EFFICIENCY AND ITS EFFECT ON PRODUCTION 6.8. MAINTENANCE PLANNING AND PROGRAMMING 6.8. WORKFLOW IN MAINTENANCE ACTIVITIES 6.10. ALTERNATIVE REPAIR – MAINTENANCE POLICIES 6.11. MAINTENANCE FORCE SIZE 6.12. EXECUTION OF MAINTENANCE SERVICES 6.13. CONTROL OF MAINTENANCE SERVICES
11) 7. FACILITY LAYOUT 7.1. SCOPE AND IMPORTANCE OF FACILITY LAYOUT 7.3. BASIC PRINCIPLES IN FACILITY LAYOUT 7.5. EFFECTS OF FACILITY LAYOUT ON PRODUCTION SYSTEM 7.6. MOVEMENT OF PRODUCTION FACTORS AND FACILITY LAYOUT 7.7. FACILITY BUILDING 7.8. GENERAL WORKFLOW TYPES 7.9. PHYSICAL PLANNING ON FACILITY SITE 7.10. MACHINE LAYOUT TECHNIQUES 7.11. PLACEMENT ACCORDING TO PROCESS
12) 7. FACILITY LAYOUT 7.1. SCOPE AND IMPORTANCE OF FACILITY LAYOUT 7.3. BASIC PRINCIPLES IN FACILITY LAYOUT 7.5. EFFECTS OF FACILITY LAYOUT ON PRODUCTION SYSTEM 7.6. MOVEMENT OF PRODUCTION FACTORS AND FACILITY LAYOUT 7.7. FACILITY BUILDING 7.8. GENERAL WORKFLOW TYPES 7.9. PHYSICAL PLANNING ON FACILITY SITE 7.10. MACHINE LAYOUT TECHNIQUES 7.11. PLACEMENT ACCORDING TO PROCESS
13) 7. FACILITY LAYOUT 7.1. SCOPE AND IMPORTANCE OF FACILITY LAYOUT 7.3. BASIC PRINCIPLES IN FACILITY LAYOUT 7.5. EFFECTS OF FACILITY LAYOUT ON PRODUCTION SYSTEM 7.6. MOVEMENT OF PRODUCTION FACTORS AND FACILITY LAYOUT 7.7. FACILITY BUILDING 7.8. GENERAL WORKFLOW TYPES 7.9. PHYSICAL PLANNING ON FACILITY SITE 7.10. MACHINE LAYOUT TECHNIQUES 7.11. PLACEMENT ACCORDING TO PROCESS
14) 8. TECHNOLOGICAL INNOVATIONS 8.1. FLEXIBLE MANUFACTURING SYSTEMS 8.2. COMPUTER-AIDED DESIGN AND MANUFACTURING 8.3. JUST-IN-TIME MANUFACTURING
15) TOPIC REVIEW AND SUMMARY
16) Final exam

Planned Learning Activities and Teaching Methods

1) Lecture
2) Question-Answer
3) Discussion
4) Self Study

Assessment Methods and Criteria

Contribution of Midterm Examination to Course Grade	40%
Contribution of Final Examination to Course Grade	60%
Total	100%

Language of Instruction

Work Placement(s)