ERASMUS COURSE CATALOGUE 2014/15 – 1ST SEMESTER LIST OF CORE COURSES The Faculty of Mechanical Engineering of Szent István University is currently offering the below-listed core courses for the 1st semester of the 2014/15 academic year. Additional courses may be announced before the start of the semester, providing a wider range of courses to choose from. COURSE CODE SGMETX02XXN SGMFFX17XXN SGMJTX12XXN SGMMGX20XMN SGMGRX13XXN SGMMAX22XXN SGMMAX28XXN SGMMGX35XXN SGMFFX16XXN SGMGSX15XXN SGMGSX14XXN SGMFF4815C COURSE NAME Bases of Energetics Computer Simulation Tribology Industrial Marketing Machinery and systems management Operations Research Ordinary Differential Equations Project Management Solar Energy Application Introduction to machine elements design Introduction to computer aided design Sensor Physics 2 CREDIT 2 2 2 4 3 2 3 4 3 4 4 3 BASES OF ENERGETICS COURSE CODE: ECTS CREDITS: TEACHING HOURS PER WEEK: TEACHER: SGMETX02XXN 2 2+0 Dr. László TÓTH [email protected] László MÁTHÉ [email protected] SHORT DESCRIPTION: In the frame of the subject, the technical knowledge in connection with the energy production and supply will be mainly reviewed such as the fundamental concepts of the energy production and supply, the dominant energy kinds and energy carriers (agents), primary and secondary energy carriers, energy transformers, electric drives as well as the main constructional units of the power-plant systems – fuel preparatory plants, energy converters, heat exchangers, electric heaters, boilers etc. – and the basic devices of renewable energy sources – the basic units of renewable-power (biomass, solar, wind, geothermal) plants, their operation and technical properties. 3 COMPUTER SIMULATION COURSE CODE: ECTS CREDITS: TEACHING HOURS PER WEEK: TEACHER: SGMFFX17XXN 2 1+1 Dr. István FARKAS [email protected] SHORT DESCRIPTION: The aim of the course is to introduce the development of physical based mathematical models using examples from engineering practice. Then computational realization and solution of mathematical models of dynamical systems in interactive graphical simulation environment. Measurement based identification of model parameters and model validation. The topics of the main case studies: thermal behavior of electrical engines, modeling and simulation of environmental meteorological parameters, modeling and simulation of flat plate collector and a solar hot water system. 4 TRIBOLOGY COURSE CODE: ECTS CREDITS: TEACHING HOURS PER WEEK: TEACHER: SGMJTX12XXN 2 1+1 Dr. Gábor KALÁCSKA [email protected] SHORT DESCRIPTION: The friction and wear is dominant failure process of working surfaces. Review of the basic mechanism of friction and wear of structural materials. The course is Intergrated into Maintenance of Machinery course . 5 INDUSTRIAL MARKETING COURSE CODE: ECTS CREDITS: TEACHING HOURS PER WEEK: TEACHER: SGMMGX20XMN 4 2+2 Viktor MEDINA [email protected] SHORT DESCRIPTION: This course will provide you with a knowledge and understanding of industrial marketing principles and processes. The lessons outline how these principles can be applied and how they can contribute to any organisation’s performance and competitiveness. Case studies are provided and discussed highlighting best practices in the field of industrial marketing. 6 MACHINERY AND SYSTEMS’ MANAGEMENT COURSE CODE: ECTS CREDITS: TEACHING HOURS PER WEEK: TEACHER: SGMGRX13XXN 3 2+1 Dr. Zoltán BÁRTFAI [email protected] SHORT DESCRIPTION: Adaptation of machines, technical and technological systems into the production system. Rational and effective operational management of the adopted machines, systems.Detailed topics: basics of the systems engineering, technology planning. Complex evaluation parameter system for machines, energetic and technological units and planning their connection. Aggregate planning. Basics of technology development. Technical serving of the machine operation, basics and application of the reliability theory. Hazard analysis. Maintenance, technical diagnostics, energy supply, fitting supply, conservation. Methods of the complex system analysis and planning. Precision technologies in the agriculture. 7 OPERATIONS RESEARCH COURSE CODE: ECTS CREDITS: TEACHING HOURS PER WEEK: TEACHER: SGMMAX22XXN 2 1+1 Dr. Antal VERES [email protected] SHORT DESCRIPTION: This course is intended to provide students with a knowledge of basic operations research tools. Topics include linear programming and the simplex algorithm, duality and sensitivity analysis, transportation problem, assignment problem, network optimization models, shortest path and maximum flow problems, elements of non-linear programming: a geometric approach. 8 ORDINARY DIFFERENTIAL EQUATIONS COURSE CODE: ECTS CREDITS: TEACHING HOURS PER WEEK: TEACHER: SGMMAX28XXN 3 2+0 Zoltán VARGA [email protected] SHORT DESCRIPTION: The course is based on a two-semester introductory course of Differential and Integral Calculus, and includes the basic types of ordinary differential equations: Separable, first and second order linear, and general first order explicit differential equations. Systems of linear differential equations, basics of Mathematical Systems Theory. Applications in physics and engineering. LIMIT OF ENROLLMENT: max. 10 students 9 PROJECT MANAGEMENT COURSE CODE: ECTS CREDITS: TEACHING HOURS PER WEEK: TEACHER: SGMMGX35XXN 4 3+0 Dr. Miklós DARÓCZI [email protected] SHORT DESCRIPTION: The main chapters of the course: fundamentals of project management, the process and participants of project accomplishment, developing the contract strategy, planning of projects, controlling work in progress, economic evaluation of projects. 10 INTRODUCTION TO MACHINE ELEMENTS DESIGN COURSE CODE: ECTS CREDITS: TEACHING HOURS PER WEEK: TEACHER: SGMGSX15XXN 4 2+1 Dr. László KÁTAI [email protected] SHORT DESCRIPTION: The course provides a basic knowledge of designing elements of machines. The main objective is to develop (in the junior mechanical engineering student) the ability to analyze operational principles of different machine elements, with special emphasis on their design, using simple mechanical models and formulas. 11 INTRODUCTION TO COMPUTER AIDED DESIGN COURSE CODE: ECTS CREDITS: TEACHING HOURS PER WEEK: TEACHER: SGMGSX14XXN 4 2+1 Dr. István SZABÓ [email protected] SHORT DESCRIPTION: Use of computers and 3D product lifecycle management software packages are of importance in mechanical engineering. The course is aiming at providing basic information on the use of such technologies and enabeling student to create their own designs. During the lectures and practical assignements SIEMENS SolidEdge ST software package will be introduced and special laboratory space will be provided. The course includes a design project work. At the end of the course students will be able to complete alone 3d design tasks with medium complexity. 12 SENSOR PHYSICS COURSE CODE: ECTS CREDITS: TEACHING HOURS PER WEEK: TEACHER: SGMFF4815C 3 2+0 Dr. István SERES [email protected] SHORT DESCRIPTION: The aim of the course is to describe the physical processes and the physical background of the operation of different sensors. The physical processes are described together with their governing equations from which important factors can be deduced. Parallel with the usability of a given sensor, different purposes for different conditions is also discussed. As the sensor is generally an energy converting equipment, the sorting of sensors is based on the type of energy conversion, e.g. thermal to electrical. As general data processing is based on electrical signals the conversion to electrical energy is discussed in great detail. 13
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