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Akademický informačný systém

Sylabus predmetu 242200_BDP - Hydromechanics and Thermomechanics (FME - WS 2019/2020)


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University: Slovak University of Technology in Bratislava
Faculty: Faculty of Mechanical Engineering
Course unit code: 242200_BDP
Course unit title: Hydromechanics and Thermomechanics
Mode of delivery, planned learning activities and teaching methods:
lecture2 hours weekly (on-site method)
seminar2 hours weekly (on-site method)

 
Credits allocated: 6
 
Recommended semester/trimester: Operational Technician of Transport and Production Technology - bachelor (compulsory), 3. semester
Level of study: 1.
Prerequisites for registration: none
 
Assesment methods:
A minimum of 56% of the total score is required for successful completion of the course.
 
Learning outcomes of the course unit:
Obtaining knowledge from hydrostatic and hydromechanics. Understanding the formation of forces from hydrostatic pressure on both planar and curved surfaces. Explanation of flow patterns of compressible and non-compressible fluids. Kinematics and dynamics of fluid movement. acquiring knowledge of laminar and turbulent flow occurring in technical applications and continuous flow in pipelines.
Subsequent gaining of knowledge from basic energy balances in technical devices, thermal processes and behavior of the working substances in these processes and the basis of fluid flow. Understand the principles of heat circulation with energy transformation and their energy and exergy evaluation.
 
Course contents:
Fluid properties (compressibility, extensibility, surface tension, viscosity) The Euromel of the hydrostatic equation. Relative fluid room.
Pressure forces on surfaces. Pressure force on plane and general area.
Motion tracking methods, streamer, flow tube. Hydrodynamics of the flow tube.
Bernoulli's equation
Flow of viscous fluid. Bernoulli equation for viscous fluid. Reynolds number. Longitudinal and local resistors. Piping systems and their solutions.
Continuous flow of liquids. Hydraulic shock. Flow at low Reynolds numbers. Flow in the spaces.
Solution of hydraulic systems
Basic variables, state equation of ideal gas, I. thermodynamic law in simplified form
The basic thermodynamic processes are in the isothermal, isobaric, isochoric, adiabatic
II. thermodynamic law in simplified form, Carnot's circulation, thermal efficiency of circulating and equipment
Phase liquid - para, phase diagram, Ott Circulation (Gas Turbine Engine Circulation)
Diesel Circulation (Diesel Engine), Brayton Circulation (Gas Turbine), Clausius Rankin Steam Circulation (Steam Power Plant), Steam Cooling
Fundamentals of heat transfer through conduction, flow and radiation
 
Recommended or required reading:
 
Language of instruction: -- item not defined --
 
Notes:
 
Courses evaluation:
Assessed students in total: 10

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0 %10,0 %40,0 %30,0 %20,0 %0 %
Name of lecturer(s): doc. Ing. Michal Masaryk, PhD. (examiner, instructor, lecturer) - slovak
Ing. Marek Mlkvik, PhD. (examiner, instructor) - slovak
Ing. Peter Mlynár, PhD. (examiner, instructor) - slovak
doc. Ing. Karol Prikkel, CSc. (examiner, instructor, lecturer, person responsible for course) - slovak
 
Last modification: 12. 6. 2019
Supervisor: doc. Ing. Karol Prikkel, CSc. and programme supervisor


Last modification made by Ing. Marianna Frajková on 06/12/2019.

Typ výstupu: