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Code: UBPJO-149 Academic year: Programme: Module name: 2016/2017 Modelling of the mining process Semester: Fall ECTS credits: 4 AGH UST International Courses Course homepage: Responsible teacher: http://home.agh.edu.pl/~brzych3/index.ht ml Lecture language: Englis h prof. nadzw. dr hab. inż. Brzychczy Edyta ([email protected]) Academic teachers: prof. nadzw. dr hab. inż. Brzychczy Edyta ([email protected]) Description of learning outcomes for module MLO code Student after module completion has the knowledge/ knows how to/is able to Method of learning outcomes verification (form of completion) Social competence M_K001 Student can work in a group on a task design. Execution of laboratory classes M_U001 Student knows technical language related to the modelling of the mining process. Examination M_U002 Student can use analytical methods for modeling and simulation of mining process in coal mines. Execution of laboratory classes Student knows the basic principles and methods of industrial process modeling on the example of the mining industry. Examination Skills Knowledge M_W001 FLO matrix in relation to forms of classes MLO code Student after module completion has the knowledge/ knows how to/is able to Form of classes 1/3 Laboratory classes Project classes Conversation seminar Seminar classes Practical classes Fieldwork classes - - + - - - - - - - - M_U001 Student knows technical language related to the modelling of the mining process. + - + - - - - - - - - M_U002 Student can use analytical methods for modeling and simulation of mining process in coal mines. - - + - - - - - - - - Student knows the basic principles and methods of industrial process modeling on the example of the mining industry. + - + - - - - - - - - Others E-learning Auditorium classes Student can work in a group on a task design. Workshops Lectures Module card - Modelling of the mining process Social competence M_K001 Skills Knowledge M_W001 Module content Lectures Introduction to modeling, basic concepts, definitions. Network techniques – stochastic networks. Modeling and optimization in the mining industry – examples – classic methods. Modeling of mining production – advance methods (evolutionary algorithms, artificial immune systems). Polish Grid Infrastructure – OPTiCoalMine calculation service. Laboratory classes Project of mining production modelling – use of calculation service from Polish Grid Infrastructure. Presentations of advanced methods used in modelling of mining production. Method of calculating the final grade The final grade is based on the examination and the laboratory classes (both positive grades) and is calculated according to the algorithm: OK = 0.5 • E + 0.5 • L where: E – examination grade, L – laboratory grade Prerequisites and additional requirements Student should know mathematics, statistics and operational research. Recommended literature and teaching resources 2/3 Module card - Modelling of the mining process Hard Rock Miner’s Handbook, Edition 5, Stantec Consulting Ltd., 2008 Castro de, L.N., 2006: Fundamentals of Natural Computing. Basic concepts, algorithms and applications. Wyd. Chapman&Hall/CRC, Boca Raton. Bäck T., 1996: Evolutionary algorithms in theory and practice. Oxford University Press, New York. Evolutionary optimization. Ed. R. Sarker et al, Kluwer Academic Publishers, New York, 2002 Magda R., 2011: Modelling the mine production process in terms of planning the output volume with regard to the aspects of uncertainty and risk. Gospodarka Surowcami Mineralnymi. Vol. 27 iss. 4 Magda R., Franik T., 2010: Planning and design of rational parameters of longwall panels in underground hard coal mines. W: Scientific reports on Resource issues 2010. Selected papers of the IUR Partner Universities 2008–2009, Vol. 1 Yun, Q. X.; Guo, W. W.; Chen, Y. F.; Lu, C. W.; Lian, M. J., 2003: Evolutionary algorithms for the optimization of production planning in underground mines. Application of Computers and Operations Research in the Minerals Industries, South African Institute of Mining and Metallurgy. Scientific publications of module course instructors related to the topic of the module Brzychczy E., 2006: Metoda modelowania i optymalizacji robót górniczych w kopalni węgla kamiennego z wykorzystaniem sieci stochastycznych. Część 1. Podstawowe definicje i założenia. Gospodarka Surowcami Mineralnymi, Wyd. IGSMiE PAN, t.22, z.1 Brzychczy E., 2007: O możliwościach wykorzystania techniki VERT w modelowaniu robót górniczych . Gospodarka Surowcami Mineralnymi, Wyd. IGSMiE PAN, t.23, z.3 Brzychczy E., 2007: Propozycja modułu eksperckiego dla potrzeb systemu projektowania robót górniczych w kopalniach węgla kamiennego. Zeszyty Naukowe Politechniki Śląskiej nr 1764, seria Górnictwo z.279, Gliwice Brzychczy E., 2011: Proces modelowania produkcji górniczej w kopalni węgla kamiennego z wykorzystaniem systemu doradczego. Wiadomości Górnicze, R.62, nr 7-8 Brzychczy E., 2012: Metoda modelowania i optymalizacji robót eksploatacyjnych w wielozakładowym przedsiębiorstwie górniczym. Wydawnictwa AGH. Seria Rozprawy i Monografie, nr 245. Kraków 79.Napieraj A., Brzychczy E., Kęsek M., Sukiennik M.: Modeling of the shift output in the longwall excavation. W: Theory and technique of coal mining and disaster prevention in deep mines : proceedings of international mining conference 2014. Anhui University of Science and Technology, AGH University of Science and Technology, National Natural Science Foundation of China Additional information Written exam – 5 questions. Student should prepare one presentation on a given topic. Student workload (ECTS credits balance) Student activity form Student workload Participation in lectures 14 h Participation in laboratory classes 14 h Completion of a project 20 h Realization of independently performed tasks 25 h Examination or Final test 2h Preparation of a report, presentation, written work, etc. 25 h Summary student workload 100 h Module ECTS credits 4 ECTS 3/3
