542-0912/01 – The theory of designing process lines (TPPL)

Gurantor department	Department of Mining Engineering and Safety	Credits	10
Subject guarantor	prof. Ing. Jan Nečas, Ph.D.	Subject version guarantor	prof. Ing. Jan Nečas, Ph.D.
Study level	postgraduate	Requirement	Choice-compulsory type B
Year		Semester	winter + summer
		Study language	Czech
Year of introduction	2019/2020	Year of cancellation
Intended for the faculties	HGF, FBI, FS, FAST, FMT	Intended for study types	Doctoral

Instruction secured by
Login	Name	Tuitor	Teacher giving lectures
NEC37	prof. Ing. Jan Nečas, Ph.D.

Extent of instruction for forms of study
Form of study	Way of compl.	Extent
Full-time	Examination	20+0
Part-time	Examination	20+0

Subject aims expressed by acquired skills and competences

The subject Theory of designing process lines objectives for the extension of theoretical and practical knowledge of students in the field of process equipment. Enabling them using modern computational methods of interconnection of procesing equipment in technological units. Students will be complex to solve tasks from these scientific research areas.

Teaching methods

Lectures
Individual consultations

Summary

With the current dynamic development of technologies, knowledge of material and geometric optimizations of the construction of machinery, it is necessary to interdisciplinary everything. Optimization of material properties, geometric shapes and process flow meets the most demanding customer requirements for an innovated competitive product. Top-processed projects can only be achieved with a good knowledge of a number of input parameters.

Compulsory literature:

SEVILLE, J.P.K., TUZUN, U. Processing of particulate solids, Lodon, 1997, ISBN: 0-7514-0376-8. CHAREYRE, B. . The Discrete Element Method for Granular Solids. Elsevier Science, 2019. GELNAR D., ZEGZULKA J. Discrete Element Method in the Design of Transport Systems, Springer, ISBN 978-3-030-05713-8. SERGIY A.: Particles in Contact, Springer 2019, ISBN-13: 978-3030158989, ISBN-10: 3030158985.

Recommended literature:

WOODCOCK, C. R., and J. S. MASON. Bulk solids handling: an introduction to the practice and technology. Springer Science & Business Media, 2012. ARNOLD, P. C.; MCLEAN, A. G.; ROBERTS, A. W.. Bulk solids: storage, flow and handling. Tunra, 1978. MCGLINCHEY, D. Bulk solids handling. Wiley-Blackwell, 2008. REICKS, A., and M. T. MYERS, eds. Bulk Material Handling by Conveyor Belt 5. SME, 2004.

Way of continuous check of knowledge in the course of semester

Exam, seminar work

E-learning

Other requirements

Active participation in lectures, consultations on the topic.

Prerequisities

Subject has no prerequisities.

Co-requisities

Subject has no co-requisities.

Subject syllabus:

Theoretical and mathematical basis of process equipment in the area of storage. Theoretical and mathematical basis of process equipment in the area of transport. Optimization of transport and process equipment based on requirements for material parameters. Optimization of transport and process equipment based on requirements for functional parameters. Discrete element method as a numerical technique that simulates the behavior of a population of independent particles. (eg Shape, size, material properties, initial velocity) Mechanical-physical properties of particulate matter for use in DEM. Theoretical models of validation devices Using CAD and MCAD tools for process line design. Using CAD and MCAD tools with DEM Using and application of DEM, FEM and CDF analysis

Conditions for subject completion

Part-time form (validity from: 2019/2020 Winter semester)

Task name	Type of task	Max. number of points (act. for subtasks)	Min. number of points	Max. počet pokusů
Examination	Examination			3

Mandatory attendence participation:

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Conditions for subject completion and attendance at the exercises within ISP:

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Occurrence in study plans

Academic year	Programme	Form	Study language	Tut. centre	Type of duty
2024/2025	(P0724D290004) Mining and Mining Geomechanics	K	Czech	Ostrava	Choice-compulsory type B	study plan
2024/2025	(P0724D290004) Mining and Mining Geomechanics	P	Czech	Ostrava	Choice-compulsory type B	study plan
2024/2025	(P0724D290001) Processing	K	Czech	Ostrava	Choice-compulsory type B	study plan
2024/2025	(P0724D290001) Processing	P	Czech	Ostrava	Choice-compulsory type B	study plan
2023/2024	(P0724D290004) Mining and Mining Geomechanics	P	Czech	Ostrava	Choice-compulsory type B	study plan
2023/2024	(P0724D290004) Mining and Mining Geomechanics	K	Czech	Ostrava	Choice-compulsory type B	study plan
2023/2024	(P0724D290001) Processing	P	Czech	Ostrava	Choice-compulsory type B	study plan
2023/2024	(P0724D290001) Processing	K	Czech	Ostrava	Choice-compulsory type B	study plan
2022/2023	(P0724D290001) Processing	K	Czech	Ostrava	Choice-compulsory type B	study plan
2022/2023	(P0724D290001) Processing	P	Czech	Ostrava	Choice-compulsory type B	study plan
2022/2023	(P0724D290004) Mining and Mining Geomechanics	K	Czech	Ostrava	Choice-compulsory type B	study plan
2022/2023	(P0724D290004) Mining and Mining Geomechanics	P	Czech	Ostrava	Choice-compulsory type B	study plan
2021/2022	(P0724D290001) Processing	P	Czech	Ostrava	Choice-compulsory type B	study plan
2021/2022	(P0724D290001) Processing	K	Czech	Ostrava	Choice-compulsory type B	study plan
2021/2022	(P0724D290004) Mining and Mining Geomechanics	P	Czech	Ostrava	Choice-compulsory type B	study plan
2021/2022	(P0724D290004) Mining and Mining Geomechanics	K	Czech	Ostrava	Choice-compulsory type B	study plan
2020/2021	(P0724D290001) Processing	P	Czech	Ostrava	Choice-compulsory type B	study plan
2020/2021	(P0724D290001) Processing	K	Czech	Ostrava	Choice-compulsory type B	study plan

Occurrence in special blocks

Block name	Academic year	Form of study	Study language	Year	W	S	Type of block	Block owner

Assessment of instruction

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