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AKDENIZ UNIVERSITY FACULTY OF ENGINEERING 2013-2014 ACEDEMIC YEAR BACHELOR DEGREE COURSES FOR INCOMING STUDENTS CODE NAME OF COURSES CREDITS EGMB316 NOVEL FOOD MANUFACTUR ING TECHNOLOGY 5 EGMB220 SENSORY FOOD ANALYSIS 5 EGMB422 FOOD PROCESSING II 5 EGMB424 PRINCIPLES OF NUTRITION 5 EGMB426 ENGINEERING PROPERTIES OF FOODS 5 EEE215 COMPUTER NETWORKS 3 EEE315 EEE218 MICROWAVE TECHNIQUES-I LOW 4 3 CONTENT The aim of this course in to provide students with the basic principles of some of the more recently developed technologies applied in food processing. Specific subjects covered are irradiation, microwave heating, sonication, UV and IR applications, pulsed light, electrolyzed water and ozone applications. This course covers organization of sensory evaluation laboratory, selection of panelists, difference tests, sorting tests, scoring tests, flavor profile analysis, texture profile analysis and consumer choice analysis and the statistical evaluation of the test results This course covers the processing schemes applied for the production of various fermented foods. Among these foods are beer, wine, fermented olives, fermented vegetables, vinegar and fermented oriental foods . The objective of this course is to make students aware of the basic principles of nutrition. The following categories will be included: Food types; Nutritional needs, the daily energy requirements (RDA); Food labeling and safety; Food groups, food pyramid, exchange list, special diets; The cell's basic structure, chemistry of the digestive systems; Carbohydrates, fats , proteins, vitamins and minerals; Weight control; Nutrition for life (newborn, childhood, adulthood, pregnancy and lactation,old age) This course covers different sets of engineering properties useful for product characterization and equipment design in food manufacture. The following categories will be included: Thermal Properties (specific heat, conductivity, diffusivity, boiling point rise/freezing point depression); Optical Properties (color, gloss and translucency) ; Electrical Properties (conductivity and permittivity); Structural and geometrical properties (density, particle size, shape, porosity, surface roughness, and cellularity); Mechanical Properties (strength, compressibility, deformability, viscosity); Others: including mass transfer related properties, surface tension, cloud stability, gelling ability, and radiation absorbance; Role of food microstructure in engineering properties --- ----- EEE319 VOLTAGE POWER SYSTEMS DISTRIBUTION OF ELECTRICAL ENERGY --4 JEO212 PETROLOGY OF MAGMATIC ROCKS 4 JEO310 METAMORPHI C PETROGRAPH Y 3 MAK101 TECHNISCHES ZEICHNEN I (GERMAN) 4 MAK301 MASCHINENE LEMENTE I (GERMAN) 5 MAK302 MAK411 MAK314 MAK403 MASCHINENE LEMENTE II (GERMAN) MASCHINEN KONSTRUKTIO N (GERMAN) SEMINAR (GERMAN) MASCHINENP ROJEKT I (STUDIENARB EIT ) (GERMAN) 5 5 3 4 MAK201 MATERIAL SCIENCE 5 MAK202 ENGINEERING MATERIALS 5 Mineralogy, chemical composition, and field occurrence of igneous rocks with reference to their origin by melting in earth. Formation of magma, its movement, eruption, crystallization, and chemical evolution. Magma mixingmingling, magma and geodynamic settings. Laboratory includes the use of analytical methods, hand specimens, thinsection study with the microscope. Metamorphism, metamorphism and its affecting factors (tempertaure, pressure), metamorphism processes, metamorphic zones and facieces, metamorphic rock types generated by contact metamorphism and regional metamorphism, cataclastic rocks, milonites and migmatitic rocks. Laboratory includes the use of hand specimens and thin-section study with the microscope, the macroscopic and microscopic properties of important and metamorphic rock types. Zeichnungsgeräte, Maβstab, Schiftarten, Maβeintragung in Zeichnungen Normalprojektion, Ansichten Perspektifische Darstellung Schnittdarstellung Schnitte und Abwickhungen Grundbegriffe, Normen, Toleransen, Passungen, Oberflächenrauhigkeit, Kleben, Löten und Schweiβverbindungen, Stift und Bolzen Verbindungen, Formschlüssige Welle Nabe verbindungen, Kraftschlüssige Welle Nabe verbindungen, Schrauben Verbindungen, Federn Aksen und Wellen, Wälzlagerlagerungsarten, Schmierung und Montage, Gleitlager, Dichtungen, Kupplungen, Riementriebe, Kettentriebe, Zahnrad und Zahnradgetriebe Regeln beim Projektieren, Wunschliste Fertigungsfahren, Werkstoffauswahl Festigkeitsberechnung, Gestalung, Erstellung von normgerechten Fertigungszeichnungen. --Erarbeiten der Lösung einer Aufgabe aus dem Bereich der Konstruktion unter Einsatz des erworbenen Wissens. Das Thema des Maschinenprojekt soll so gestellt werden,daβ es in ca. 30 Arbeitsstunden bearbeitet werden kann Atoms and bonds between atoms, crystal structures, structural defects, diffusion, mechanical properties of materials, tension test, hardness measurement methods, dislocations and strengthening methods, fracture, creep, fatigue, impact test. Phase Diagrams, Iron-Carbon phase diagram, Steel, Alloys elements, Heat treatment of steel, Softening and hardening, hardenability, Standards of steel and labels, Material numbers, classification of steels, cast-iron, Aluminium and alloys, Cooper and alloys, Polymers, Ceramics. MAK314 SEMINAR 3 MAK403 MACHINE PROJECT 4 MAK421 MATERIAL SELECTION 3 MAK423 INTRODUCTIO N TO POWDER METALLURGY 3 MAK363 TECHNICHAL ENGLISH I 2 MAK412 NONFERROUS MATERIALS MAK418 COMPOSITE MATERIALS MAK362 İNM5036 TECHNISCHE ENGLISH II TRAFFIC ENGINEERING AND MANAGEMEN T 3 3 2 6 İNM5050 FINITE ELEMENT METHOD 6 İNM204 CONSTRUCTION MATERIALS 6 İNM5034 ADVANCED MATERIALS 6 Students will carry out a simple machine project as the implementation of courses taken before and prepare and present a seminar. Students will carry out a simple machine project as the implementation of courses taken before. Materials selection criteria. Materials selection charts. Materials selection for gears. Heat treatment of steel. Some surface hardening methods of steel. Cast ıron. Materials selection for dies. A brief description of powder metallurgy (P/M) and historical development, comparison with other production methods, advantages and disadvantages of P/M, sintering process and principals, sintering atmospheres and furnaces, post sintering processes, applications of P/M in industry. Materials, Advancements of Materials Science, Structure of Materials, Mechanical Properties of Materials, Failure of Engineering Materials, Fracture, Iron and Steel, Steel and Cast Iron Manufacturing Techniques, Heat Treatment of Steel, Thermal Processing of Steel Types of materials. Aluminum and its alloys. Copper and its alloys. Titanium alloys. Superalloys. Ceramics. Polymers. Composites Principles and types of composites. Types of matrix materials. Types of reinforcement materials. Production methods of composites. Mechanical behaviour of composites. Lubrication of Bearings, The Lathe, Welding, Steam Boilers, The Petrol Engine, Aerofoils, Liquid Flow and Metering Objectives of traffic management, road hierarchy, flow variables, link and junction control, capacity and level of service, traffic management models, parking studies, traffic signals, control of traffic in network , fundamentals of transport modeling, traffic analysis at intersections, ITS. Introduction, Introduction to numerical analysis methods in engineering problems, Basic equations of linear elasticity theory, Energy methods, Finite elements based on the displacements and rigidity matrices, Isoparametric formulation, Transformation of coordinate systems, Finite element method in nonlinear analysis of structures and solution methods in nonlinear structure analysis. Binding materials: gypsum, lime, pozzolanic materials, cements, Aggregates: properties and experiments, Concrete: Parameters affecting strength, fresh concrete properties, mixture design, hardened concrete properties, quality control, durability, concrete types, Metals and Alloys: Steel, iron-carbon equilibrium diagrams, thermal processes, cast iron, others alloys used in structures, Masonry, Ceramic materials, Plastic materials, Timber. Introduction to materials science and engineering, history of materials science, classification of materials, SCIENCE İNM5060 ADVANCED STEEL DESIGN 6 İNM5056 OPTIMIZATION IN CIVIL ENGINEERING 6 crystallographic and microscopic characterization techniques, diffusion, solidification, phase diagrams, amorphous structures, stress-strain concepts, relation of elastic and plastic behavior with materials, brittleness and ductility, fracture and toughness, themal activation, creep and fatigue, alloys and corrosion, composite materials. Essentials of LRFD, Review of steel properties, Tension members, Compression members, Connections, Beams, Beam-Columns, Composite steel members, Steel frames, Steel braced frames, Buckling restrained braces Check-General Information, Optimization concept and definition of the optimization problem, graphical and Langrange multiplier methods, mathematical optimization techniques, optimization techniques depending on probability, optimization techniques and their applications in engineering.