doc. Ing. Jiří Malášek, Ph.D. |
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Education and academic qualification
- 1981, Ing., Faculty of Mechanical Engineering, BUT, branch Instrumentation, Regulation, Automatization.
- 2004, Ph.D., Faculty of mechanical Engineering, BUT, branch Design and Process Engineering
- 2008, Doc., (Assoc.Prof.), Faculty of mechanical Engineering, BUT, branch Design and Process Engineering
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Career overview
- 1981 - 1987, independent design engineer at development, Prerov Machinery
- 1987 - 1991, head of design-office, Research Institute of Measurements, Brno
- 1991 - 1992, designer, Engineer-office of company COMET, Corp., Besigheim, Germany
- 1992 - 2008, assistant professor, Dept. of Building and Transport Machines, FME, BUT / Institute of Automotive Engineering, FME, BUT
- 2008 - to date, docent (Assoc.Prof.), Institute of Automotive Engineering FME, BUT
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Pedagogic activities
- Transport Machines (QTZ)
- Machines for Production of Building Materials (NSM)
- Transport and Handling Equipment (EDO)
- Technology and Machines in Building Industry (QSV)
- Techniques of Decreasing Industrial Harmful Substances (QSS)
- Diploma Project (QDP)
- Diploma Seminar (QD6)
- Bachelor Project (FDS)
- Bachelor Seminar (FES)
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Scientific activities
- Theoretical modelling of mixing and compacting of particular matters.
- Construction of measure-laboratory equipment to verify theoretical models.
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University activities
- 2004 - to date, secretary chief, Institute of Automotive Engineering, FME, BUT
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Projects
- 2005 – to date, Simulation modelling of mechatronics systems VZ MSM 0021630518, second author (D2)
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Sum of citations (without self-citations) indexed within ISI Web of Knowledge
0
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Sum of other citations (without self-citations)
11
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Supervised courses:
Publications:
- SEDLÁK, J.; MALÁŠEK, J.; ONDRA, M.; POLZER, A.:
Construction of Mechanic Regulation of Turbine Ventilator using Whirling Turbine, UJEP
journal article in Scopus
- MALÁŠEK, J.:
Odborná zpráva projektu TAČR GAMA č. TG01010054-6 rok 2016.
Ventilační zařízení - realizace přihlášek vynálezů - krok ke stabilizaci energetiky.
report
- SEDLÁK, J.; MALÁŠEK, J.; ONDRA, M.; POLZER, A.:
Construction of Mechanic Regulation of Turbine Ventilator using Half-Flap, UJEP
journal article in Scopus
- SEDLÁK, J.; MALÁŠEK, J.; ONDRA, M.; POLZER, A.:
Development and Production of Prototype Model of Axial Fan, UJEP
journal article in Scopus
- MALÁŠEK, J.:
Odborná zpráva projektu TAČR GAMA č. TG01010054-6 rok 2015.
Ventilační zařízení - realizace přihlášek vynálezů - krok ke stabilizaci energetiky. , VUT v Brně
report
- JONÁK, M.; KAŠPÁREK, J.; MALÁŠEK, J.; ŘEZNÍČEK, M.:
DEM simulace procesu vyprazdňování korečku s použitím konvexních mnohostěnů,
41. mezinárodní konference kateder dopravních, manipulačních, stavebních a zemědělských strojů, pp.12-17, ISBN 978-80-7494-196-2, (2015), Technická univerzita v Liberci
conference paper
akce: 41. mezinárodní konference kateder dopravních, manipulačních, stavebních a zemědělských strojů, Harrachov, 27.04.2015-28.04.2015
- MALÁŠEK, J.:
Ventilační turbíny - tepelné ztráty,
5. TRENDY EVROPSKÉ ENERGETIKY - http://www.top-expo.cz/konference/tee-2014/, pp.1-11, ISBN -, (2014), TOP EXPO CZ
presentation
- MALÁŠEK, J.:
Partikulární materiály - aplikace výpočtů,
sborník xl mezinárodní konference kateder, pp.1-4, ISBN 978-80-248-3439-9, (2014), Institut dopravy VŠB TU
conference paper
akce: XL. Mezinárodní konference kateder dopravních, manipulačních, stavebních a zemědělských strojů, Bílá, 23.09.2014-24.09.2014
- JONÁK, M.; MALÁŠEK, J.:
POPISY TOKŮ A DEFORMACÍ NEHOMOGENNÍCH HMOT,
XXXVIII. Mezinárodní konference kateder dopravních, manipulačních, stavebních a zemědělských strojů, pp.47-50, ISBN 978-80-261-0141-3, (2012), Západočeská univerzita v Plzni
conference paper
akce: XXXVIII. mezinárodní konference dopravních, manipulačních, stavebních a zemědělských strojů, Plzeň, 05.09.2012-07.09.2012
- MALÁŠEK, J.:
Flows out of silos - vector fields of velocities,
Mechatronics Recent Technological and Scientific Advances, pp.249-253, ISBN 978-3-642-23243-5, (2011), Springer Verlag, Berlin - Heidelberg
conference paper
akce: 9th International Conference Mechatronics 2011, Varšava, 21.09.2011-24.09.2011
- MALÁŠEK, J.:
Description of Flow Intensities in Non-Homogeneous Materials,
Recent Advances in Mechatronics 2008-2009, pp.37-42, ISBN 978-3-642-05021-3, (2009), Springer - Verlag, Berlin Heidelberg
conference paper
akce: Mechatronics 2009, Luhačovice, 18.11.2009-20.11.2009
- MALÁŠEK, J.:
Vector fields of velocities of flows and deformations in non-continuous materials,
Hydrodynamics Processes, 18th International Congress CHISA 2008, Summaries 3, pp.776-777, ISBN 978-80-02-02050-9, (2008), Process Enginering Publisher
conference paper
akce: 18th International Congress of Chemical and process Engineering Chisa 2008, Praha, 24.08.2008-28.08.2008
- MALÁŠEK, J.:
Technological Process Identification in Non-Continuous Materials,
Recent Advances in Mechatronics, pp.426-430, ISBN 978-3-540-73955-5, (2007), Springer Verlag, Berlin - Heidelberg - New York
conference paper
akce: Mechatronics 2007, Warsaw, 19.09.2007-21.09.2007
List of publications at Portal BUT
- MALÁŠEK, J.:
Flows out of silos - vector fields of velocities,
Mechatronics Recent Technological and Scientific Advances, pp.249-253, ISBN 978-3-642-23243-5, (2011), Springer Verlag, Berlin - Heidelberg
conference paper
akce: 9th International Conference Mechatronics 2011, Varšava, 21.09.2011-24.09.2011
Flowing and deformed areas of non-homogeneous materials at mass flow and at core flow out of silos are identified by means of mathematical descriptions of pictures with results of vector fields of velocities.
- MALÁŠEK, J.:
Description of Flow Intensities in Non-Homogeneous Materials,
Recent Advances in Mechatronics 2008-2009, pp.37-42, ISBN 978-3-642-05021-3, (2009), Springer - Verlag, Berlin Heidelberg
conference paper
akce: Mechatronics 2009, Luhačovice, 18.11.2009-20.11.2009
The flowing and deformed areas in non-homogeneous materials described by means of vector fields of velocities identify the technological and energetic efficiencies of relevant processes, as for example mixing, compacting, storage, transport, flow, creep, deformation. Qualities of deformation processes can be described by kinetic intensity of transformation for example by step changes of relevant values acquired by means of mathematical image processing.
- MALÁŠEK, J.:
Vector fields of velocities of flows and deformations in non-continuous materials,
Hydrodynamics Processes, 18th International Congress CHISA 2008, Summaries 3, pp.776-777, ISBN 978-80-02-02050-9, (2008), Process Enginering Publisher
conference paper
akce: 18th International Congress of Chemical and process Engineering Chisa 2008, Praha, 24.08.2008-28.08.2008
The transformed areas of non-continuous materials can be identified by means of mathematical descriptions of pictures with results of vector fields of velocities.
- MALÁŠEK, J.:
Technological Process Identification in Non-Continuous Materials,
Recent Advances in Mechatronics, pp.426-430, ISBN 978-3-540-73955-5, (2007), Springer Verlag, Berlin - Heidelberg - New York
conference paper
akce: Mechatronics 2007, Warsaw, 19.09.2007-21.09.2007
The common reality at processing with deformation of non-continuous materials is a zone of deformation, as a cubic formation determined by a system of shear curves and streamlines. The zone of deformation of non-continuous materials can be identified by boundary conditions state of stress (tactile transducers and strain gauge sensors) and by image identifications of shear curves and streamlines. These identifications respect the relevant discontinuity of reshaped areas at the technological processes.
- MALÁŠEK, J.:
Mathematical possibilities images processing of reshaped particulate substances,
Hydrodynamics Processes, 17th International Congress CHISA 2006, Summaries 3, pp.673-678, ISBN 80-86059-45-6, (2006), Process Engineering Publisher Ing. Jan Novosad, Krohova 75/2212, 160 00 Praha
conference paper
akce: 17th International Congress of Chemical and Process Engineering CHISA 2006, Praha, 27.08.2006-31.08.2006
Instead of traditional physical variables the most important examined entity can be an image of the reshaped volume of a particulate substance and a mathematical processing of the image while the second examined entity will be the boundary stress state conditions of at least in a section of the image.
Optimizing of the shapes, positions and movements of interactive machine parts related to the reshaped particulate substances on the basis of their images is the objective of this mathematical processing.