Course detail
Machines for Production of Building Materials
FSI-NSMAcad. year: 2020/2021
The course is based on the technological processes in civil engineering. It includes a set of machines and systems – projection, structure, function, principal analyses. Also dealt with are storage silos, pneumatic transport, concrete mixers and pumps, calibrating and compacting machines, pre-stressing, feeders, dosers, handling equipments, crushers and mills including the disintegration theory, screens, cyclone separators, water jet and excavation disk cutting. Typical producers, ways of technical parameters reaching are discussed.
Language of instruction
Czech
Number of ECTS credits
6
Mode of study
Not applicable.
Guarantor
Learning outcomes of the course unit
The course enables students to understand the function, construction, and fundamental calculations of machines in the technological processes in civil engineering, and makes them familiar with producers and design for technological complexes.
Prerequisites
Successful completion of the course is conditional on the knowledge of technical mechanics, physics, higher mathematics, machine parts and their mechanisms, physics of materials and principles of electrical engineering.
Co-requisites
Not applicable.
Planned learning activities and teaching methods
The course is taught through lectures explaining the basic principles and theory of the discipline. Exercises are focused on practical topics presented in lectures.
Assesment methods and criteria linked to learning outcomes
The course-unit credit is awarded on condition of having attended the exercises and worked out calculating tasks. Examination tests student’s knowledge and skills, and the ability to apply them in practice.
Course curriculum
Not applicable.
Work placements
Not applicable.
Aims
The objective is for students to have an overview of machines and equipment in technological processes in civil engineering. Students will be provided with a basis for selection of machines and for designing of technological sequences, for projects of industrial plants.
Specification of controlled education, way of implementation and compensation for absences
Attendance at exercises is obligatory and checked by the teacher. Absence may be in justified cases compensated for by the agreement with the course supervisor.
Recommended optional programme components
Not applicable.
Prerequisites and corequisites
Not applicable.
Basic literature
MALÁŠEK, Jiří. STROJE PRO VÝROBU STAVEBNÍCH MATERIÁLŮ A STAVEBNÍCH DÍLCŮ [online]. VUT v Brně. Brno, 2005 [cit. 2017-10-09]. (CS)
MALHOTRA, Depeak. Recent Advances in Mineral Processing Plant Design. 2009. ISBN ISBN-10: 0873353161. ISBN-13: 978-0873353168. nkp.cz katalogy a databáze souborný katalog ČR dostupnost jako eBook (EN)
MULAR, Andrew L., Derek J. BARRATT a Doug N. HALBE. Mineral Processing Plant Design, Practice and Control. 2011. ISBN ISBN-10: 0873352238. ISBN-13: 978-0873352239. nkp.cz katalogy a databáze souborný katalog ČR dostupnost jako eBook (EN)
ŠŤASTNÍK, Stanislav. Těžba, lomařství a úpravnictví. Modul M01, [BJ53-MO1]: Těžba a lomařství. Brno: Vysoké učení technické, Fakulta stavební, 2005, 105 s. : il. (CS)
ŠŤASTNÍK, Stanislav. Těžba, lomařství a úpravnictví. Modul M02, [BJ53-MO2]: Úpravnictví nerostných surovin. Brno: Vysoké učení technické, Fakulta stavební, 2005, 133 s. : il. (CS)
ZEGZULKA, Jiří. Mechanika sypkých hmot. Vyd. 1. Ostrava: VŠB - Technická univerzita, 2004, 186 s. ISBN 80-248-0699-1. (CS)
MALHOTRA, Depeak. Recent Advances in Mineral Processing Plant Design. 2009. ISBN ISBN-10: 0873353161. ISBN-13: 978-0873353168. nkp.cz katalogy a databáze souborný katalog ČR dostupnost jako eBook (EN)
MULAR, Andrew L., Derek J. BARRATT a Doug N. HALBE. Mineral Processing Plant Design, Practice and Control. 2011. ISBN ISBN-10: 0873352238. ISBN-13: 978-0873352239. nkp.cz katalogy a databáze souborný katalog ČR dostupnost jako eBook (EN)
ŠŤASTNÍK, Stanislav. Těžba, lomařství a úpravnictví. Modul M01, [BJ53-MO1]: Těžba a lomařství. Brno: Vysoké učení technické, Fakulta stavební, 2005, 105 s. : il. (CS)
ŠŤASTNÍK, Stanislav. Těžba, lomařství a úpravnictví. Modul M02, [BJ53-MO2]: Úpravnictví nerostných surovin. Brno: Vysoké učení technické, Fakulta stavební, 2005, 133 s. : il. (CS)
ZEGZULKA, Jiří. Mechanika sypkých hmot. Vyd. 1. Ostrava: VŠB - Technická univerzita, 2004, 186 s. ISBN 80-248-0699-1. (CS)
Recommended reading
MALÁŠEK, Jiří. STROJE PRO VÝROBU STAVEBNÍCH MATERIÁLŮ A STAVEBNÍCH DÍLCŮ [online]. VUT v Brně. Brno, 2005 [cit. 2017-10-09]. (CS)
MALHOTRA, Depeak. Recent Advances in Mineral Processing Plant Design. 2009. ISBN ISBN-10: 0873353161. ISBN-13: 978-0873353168. nkp.cz katalogy a databáze souborný katalog ČR dostupnost jako eBook (EN)
MULAR, Andrew L., Derek J. BARRATT a Doug N. HALBE. Mineral Processing Plant Design, Practice and Control. 2011. ISBN ISBN-10: 0873352238. ISBN-13: 978-0873352239. nkp.cz katalogy a databáze souborný katalog ČR dostupnost jako eBook (EN)
ŠŤASTNÍK, Stanislav. Těžba, lomařství a úpravnictví. Modul M01, [BJ53-MO1]: Těžba a lomařství. Brno: Vysoké učení technické, Fakulta stavební, 2005, 105 s. : il. (CS)
ŠŤASTNÍK, Stanislav. Těžba, lomařství a úpravnictví. Modul M02, [BJ53-MO2]: Úpravnictví nerostných surovin. Brno: Vysoké učení technické, Fakulta stavební, 2005, 133 s. : il. (CS)
ZEGZULKA, Jiří. Mechanika sypkých hmot. Vyd. 1. Ostrava: VŠB - Technická univerzita, 2004, 186 s. ISBN 80-248-0699-1. (CS)
MALHOTRA, Depeak. Recent Advances in Mineral Processing Plant Design. 2009. ISBN ISBN-10: 0873353161. ISBN-13: 978-0873353168. nkp.cz katalogy a databáze souborný katalog ČR dostupnost jako eBook (EN)
MULAR, Andrew L., Derek J. BARRATT a Doug N. HALBE. Mineral Processing Plant Design, Practice and Control. 2011. ISBN ISBN-10: 0873352238. ISBN-13: 978-0873352239. nkp.cz katalogy a databáze souborný katalog ČR dostupnost jako eBook (EN)
ŠŤASTNÍK, Stanislav. Těžba, lomařství a úpravnictví. Modul M01, [BJ53-MO1]: Těžba a lomařství. Brno: Vysoké učení technické, Fakulta stavební, 2005, 105 s. : il. (CS)
ŠŤASTNÍK, Stanislav. Těžba, lomařství a úpravnictví. Modul M02, [BJ53-MO2]: Úpravnictví nerostných surovin. Brno: Vysoké učení technické, Fakulta stavební, 2005, 133 s. : il. (CS)
ZEGZULKA, Jiří. Mechanika sypkých hmot. Vyd. 1. Ostrava: VŠB - Technická univerzita, 2004, 186 s. ISBN 80-248-0699-1. (CS)
Elearning
eLearning: currently opened course
Classification of course in study plans
Type of course unit
Lecture
39 hod., optionally
Teacher / Lecturer
Syllabus
1. Introduction, summary of processing matters, convection description state of stress.
2. Analyse of space matrix state of stress.
3. Determination tensor state of stress from re-contouring and position of the flow line.
4. Cauchy’s differential formulas of balance.
5. Stokes - Navier’s formulas.
6. Theory of uncouple solids.
7. Jaw breakers, gyratory breakers, crushing mills, cog-breakers, dynamic-breakers.
8. Dynamic mills, compressive mills, fall-mills with free milling bodies.
9. Mechanical sorting machines, separators, sorting machines without sieves.
10.Mixers, compounders, agitators, granulating machines.
11.Feeding machines, gob-fed machines, machines for formation. Vibratory compactors.
12.Transport and stocking of construction materials, mixing plants, moulds, compaction, constraint system machinery.
13.Mathematic model of machine – technological object in the process of exploitation.
2. Analyse of space matrix state of stress.
3. Determination tensor state of stress from re-contouring and position of the flow line.
4. Cauchy’s differential formulas of balance.
5. Stokes - Navier’s formulas.
6. Theory of uncouple solids.
7. Jaw breakers, gyratory breakers, crushing mills, cog-breakers, dynamic-breakers.
8. Dynamic mills, compressive mills, fall-mills with free milling bodies.
9. Mechanical sorting machines, separators, sorting machines without sieves.
10.Mixers, compounders, agitators, granulating machines.
11.Feeding machines, gob-fed machines, machines for formation. Vibratory compactors.
12.Transport and stocking of construction materials, mixing plants, moulds, compaction, constraint system machinery.
13.Mathematic model of machine – technological object in the process of exploitation.
Exercise
26 hod., compulsory
Teacher / Lecturer
Syllabus
1. Variation of convections – deduction of equations.
2. The practical use of analytical relations, computation formulas.
3. Geometry of shear lines.
4. Analyse and calculation of body forces.
5. Application of Stokes-Navier´s formulas.
6. Calculation of an uncouple work.
7. Calculation of forces acting to jaws of breakers.
8. Calculation of stone breakers, mills.
9. Calculation of screen separators.
10.Calculation of separation without screens and sedimentation.
11.Mixing, compacting, determination of forces.
12.Mass flo and core flow, silos, bunkers.
13.Analysis of exploitation technological object.
2. The practical use of analytical relations, computation formulas.
3. Geometry of shear lines.
4. Analyse and calculation of body forces.
5. Application of Stokes-Navier´s formulas.
6. Calculation of an uncouple work.
7. Calculation of forces acting to jaws of breakers.
8. Calculation of stone breakers, mills.
9. Calculation of screen separators.
10.Calculation of separation without screens and sedimentation.
11.Mixing, compacting, determination of forces.
12.Mass flo and core flow, silos, bunkers.
13.Analysis of exploitation technological object.
Elearning
eLearning: currently opened course