For Students
Courses in English
The course discusses the physical description of vibration and noise generation and propagation with reference to applications in the automotive industry. Emphasis is placed on understanding the physical nature of vibration and noise, measures leading to the reduction of negative effects, and analytical and numerical methods of solving this problem. The problematics are applied to the identification of sources of vibration and noise in motor vehicles, powertrains and rotating machinery.
This course makes students familiar with the theory of automotive technology, internal combustion engines, thermodynamics, fluid mechanics, combustion, heat transfer, stress analysis, materials science, electronics and computing.
Support of Student´s Teams – Formula Student
STUDY PROGRAMME
Bachelor's Fundamentals of Mechanical Engineering
The objectives of the study programme is to equip students with knowledge and skills in the field of mechanical engineering, technology and materials and to provide them with a broad knowledge that will allow them to continue to study the follow-up Master's degree programme in the field of mechanical engineering at Brno University of Technology or other universities in the Czech Republic or abroad. However, after completing the bachelor's degree programme, the graduates can decide not to continue their studies and apply for a job in a development, design or technical department of a company or an engineering company, or in civil services or commerce and they acquire their specialization in their workplace. The study programme is without specialisation.
Students will gain broad-based knowledge in the following areas:
Mathematics and physics needed for further study,
Design,
Mechanics of solids,
Engineering materials
Manufacturing technology,
Thermofluid mechanics,
Applied informatics, automation, and electrical engineering,
3D modelling of machine parts,
Calculations and designs of parts and mechanisms of machines.
The curriculum of our programme is designed to prepare the student for their further career in the field of engineering and other related areas. The programme focuses on theoretical knowledge in various fields of engineering and developing the ability to work and make decisions autonomously. Although the curriculum focuses on theoretical knowledge of engineering disciplines, we also concentrate on developing creativity and critical thinking through project based learning.
Five-cylinder spark-ignition radial aero engine
Design of radial sealing rails for Wankel engine
Mathematical model of the CR control unit
Analysis of measured dynamic states of motorcycles
Truck cab suspension
Re-engineering the front wheel suspension of an automobile
Design of the rear drive axle assembly of a SOR suburban bus
Turbocharger vibration due to excitation from an internal combustion engine
Exhaust gas energy recovery in an electric motor assisted turbocharger for hybrid vehicles
Rotor dynamics of an electric motor assisted turbocharger
Vibration and acoustic maps of turbochargers
Effect of rubber silent blocks on vehicle drivability
Additive manufactured spark ignition engine piston
Electric vehicle range extender
Concept of a spark ignition engine for hybrid passenger car propulsion
Mathematical model of a suspension damper
Neural networks for autonomous vehicle differential closure
Autonomous vehicle control using LiDAR
Calculation of aerodynamic characteristics of a truck
Design of the intake system of a supercharged Formula Student engine
Mobile construction crane with a 200 kg capacity
Modelling material flows in the passenger car manufacturing process
Crawler chassis frame design
