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Engineering Study

Engineering Study

1. Study branch:   2305   Manufacturing Technologies
Study programmes:      
  • Manufacturing Management
  • Computer Aided Manufacturing Technologies
  • Advanced Technologies
  • Automotive Production Technologies
2. Study branch:   2329   Manufacturing Engineering
   Study programmes:          
  • Monitoring and Diagnostics of Technical Equipment
  • Computer Design of Technological Equipment
3. Study branch:          2354   Process Engineering
Study programme: 
  • Renewable Energy Sources

Manufacturing Management
The graduates are able to independently manage a company in all sectors of production and business in different economic conditions and situations.  Basic knowledge of the issue enables them to prepare and process technical documentation and technical preparation. They have understanding of manufacturing technologies, materials, production machinery, tooling and fixtures, production processes and their management. They can ensure the functioning of the production and technological systems and improve their operating parameters. The graduates are knowledgeable in the newest management methods and are able to react flexibly to market changes, manage tasks in the area of ​​financial management and management of technical and technological development, preparation and implementation of new products and goods. They can estimate future financial outcomes of the company, design working environment, monitor ecology and environmental protection with regard to health and safety at work.

Computer Aided Manufacturing Technologies
The graduates of the study programme are qualified to become manufacturing engineers with complex capabilities of computer skills. They are able to deal with technological and organizational issues as well as   design and innovate production processes and systems. Our graduates are familiar with CA systems and CA technologies used in the preparation and management of production. They are able to modify and create special applications according to specific requirements as well as lead teams performing engineering computer analysis, simulation of production process and design production units.  Being equipped with the knowledge of economics and business, they can occupy positions of team leaders in the field of technical preparation of production as well as managers and private entrepreneurs in the area of computer technology and CA systems application.

Advanced Technologies
The graduates of the study programme are qualified to become manufacturing engineers. They can systematically and comprehensively deal with technological and organizational issues in rationalization, modernization and design of new production processes and systems using CA technologies. Good understanding of economics enables our graduates to solve problems of production and operation management. They can occupy positions of manufacturing engineers, production managers, team leaders in the field of technical preparation of production and production quality control. They have the ability to deal individually or in teams with the issues of production processes and systems technological design based on complex and system relationship of particular technologies, integration requirements, automation and production processes efficiency. They are able to address economic, operational and management issues of production in large enterprises and small companies as well as to systematically and comprehensively deal with material, technological and organizational issues in rationalization, modernization and design of new mechanical engineering and electrotechnical production. Our graduates are qualified to solve problems of management and operation of mechanical and electrotechnical production. All these activities are carried out with the support of CAx technologies, methods of mathematical modeling, simulation methods, logistics and mathematical optimization.

Automotive Production Technologies
Students who graduate with this area of study obtain necessary knowledge and skills of theoretical and practical character, focusing on the issues and rules for  implementation of components for automotive and related industries in all its phases: design, production, verification, mass production and shipping. The study program  mainly concentrates on knowledge of the main technological operations in the automotive and related industries, for example high speed machining,  composites machining, laser machining, water jet machining, injection moulding, pressure casting, aluminium machining, forming, welding, gluing, qualitative ensuring, metrological support as well as manufacturing technology components and operation, their installation, animation, programming and adjusting, taking measurements, diagnostics and service. The graduates have understanding of the following chain: requirements review obtained directly from the automotive customer or supplier, design and technological documentation, production tools and gauges, technical support of mass or verification production, process of components manufacturing, metrological and metallurgical analysis, validation and durability testing, design process verification and mass production approval. Our graduates possess knowledge of monitoring and evaluation of production processes, machines and measuring equipment as well as product safety (statistical quality methods and techniques, legislation) which, according to the current standards for the automotive industry, must be involved in the design phase of a new product.  The graduates are involved in the activities that require technical specifications for the automotive industry worldwide as well as have understanding of production systems, PC application, production facilities management, engineering materials and their testing, vibrodiagnostics and tribotechnics, economics, ecology and environmental protection, health and safety at work. They can work in manufacturing and non-manufacturing companies in various positions that require to manage activities mainly focused on automotive and related industries.

Monitoring and Diagnostics of Technical Equipment 
The graduates possess necessary knowledge and skills of theoretical and application character which enable them to  independently solve the tasks aimed at technical equipment, detection, analysis and assessment of operating conditions as well as  modeling and simulation of reliability, maintenance systems design, systems for measuring and evaluating the quality of production, tribological diagnostics, vibrodiagnostics, service of technical equipment. They are equipped with knowledge of production systems modeling, application software for evaluation and prediction of operating conditions and modes of technical equipment, production facilities management, engineering materials and their testing as well as logistics, economic basis, industrial psychology, ethics, ecology, environmental protection, health and safety at work. Our graduates are able to lead professional teams and to independently solve the problems related to production technique application as well as monitoring and diagnostics of the operating status. Being competent to assess operational states of technical equipment, they can suggest methods, equipment and systems for providing technical and manufacturing operations as well as propose the cost-effective systems for diagnostics, maintenance, service and operation of technical equipment. They can occupy the positions of chief operators, diagnostic and service teams operators as well as become specialists for designing methods and technical systems for the diagnosis, maintenance and servicing of technical equipment. Our graduates are highly qualified specialists when ensuring competitive operation of technical equipment and complex production systems.

Computer Design of Technological Equipment
Students who graduate with this area of study are provided with knowledge in the field of technology equipment components and specific technological and operational conditions management. They are able to design   structures and nodes for manufacturing technology as well as analyze their strength, kinematic and dynamic characteristics to better optimize their size and weight using CAME systems application. Our graduates have reasonable knowledge of business, work organization and management. They can occupy positions in various branches of industry (public and private) especially when designing and operating systems for inter-transport and handling equipment, production equipment operation, its installation and programming.

Renewable Energy Sources
The graduates have understanding of momentum, mass and heat transfer as well as the theory of constructing devices, machinery and equipment for process engineering. They have knowledge of the theory of mechanical, hydraulic, thermal, diffusion processes and reactors, especially in the field of physical chemistry, processing of solids, powder materials, liquids, gases, and various mixtures of Newtonian and non-Newtonian nature. They are knowledgeable in equipment process technology, its conceptual designs for the required functions as well as projects including their implementation. Fully equipped with broad theoretical knowledge of individual processes and their contexts, they can participate in research projects in the field of process technology for the implementation of new production technologies with a high degree of creativity and independence. The graduates possess   knowledge of a process modeling, mathematical description, methods of measuring static and kinetic characteristics, measurement of process variables and process control technology management using PC, microprocessors, etc. They are trained to apply the newest methods and means to solve complex technical problems in the field of process engineering. Practical abilities and skills of the graduate: to specify, design, operate, manage and evaluate the process according to the general criteria applicable for process engineering; interact with designers within investment activities; cooperate in research and development processes as well as design elements for process engineering; assess the accuracy and appropriateness of the application process and set parameters in process engineering within the production process.