Module also offered within study programmes:
General information:
Name:
Mining CAD
Course of study:
2019/2020
Code:
GIGR-2-312-GP-s
Faculty of:
Mining and Geoengineering
Study level:
Second-cycle studies
Specialty:
Underground mining
Field of study:
Mining Engineering
Semester:
3
Profile of education:
Academic (A)
Lecture language:
English
Form and type of study:
Full-time studies
Course homepage:
 
Responsible teacher:
dr inż. Skrzypkowski Krzysztof (skrzypko@agh.edu.pl)
Module summary

The module is connected with underground cut of useful minerals both hard coal, ore and salt. Module embrases a structure of prospecting, access, preparatory and exploitation excavations.

Description of learning outcomes for module
MLO code Student after module completion has the knowledge/ knows how to/is able to Connections with FLO Method of learning outcomes verification (form of completion)
Social competence: is able to
M_K001 Student can chose the most appropriate panel mining system adapt to it schedule production. IGR2A_K01, IGR2A_K03, IGR2A_K04, IGR2A_K02 Execution of a project,
Participation in a discussion,
Case study,
Project,
Test,
Activity during classes
M_K002 Student can analyze different underground mining systems of exploitation. IGR2A_K01, IGR2A_K03, IGR2A_K04, IGR2A_K02 Execution of a project,
Participation in a discussion,
Case study,
Project,
Test,
Activity during classes
Skills: he can
M_U001 Student can use the program for purpose to design underground exploitation system in ore mining. IGR2A_U05, IGR2A_U03, IGR2A_U01, IGR2A_U06, IGR2A_U04 Execution of a project,
Participation in a discussion,
Case study,
Report,
Project,
Test,
Activity during classes
M_U002 Student can use the program for purpose to design underground exploitation system in hard coal mine. IGR2A_U05, IGR2A_U03, IGR2A_U01, IGR2A_U06, IGR2A_U04 Execution of a project,
Participation in a discussion,
Case study,
Report,
Project,
Test,
Activity during classes
Knowledge: he knows and understands
M_W001 Student knows mine design for room and pillar mining systems IGR2A_W05, IGR2A_W03, IGR2A_W02 Execution of exercises,
Participation in a discussion,
Case study,
Test,
Activity during classes
M_W002 Student knows mineable: shape optimizer, reserves optimizer and mine layout optimizer. IGR2A_W04, IGR2A_W01, IGR2A_W05, IGR2A_W03, IGR2A_W02 Execution of exercises,
Participation in a discussion,
Case study,
Presentation,
Test,
Activity during classes
Number of hours for each form of classes:
Sum (hours)
Lecture
Audit. classes
Lab. classes
Project classes
Conv. seminar
Seminar classes
Pract. classes
Zaj. terenowe
Zaj. warsztatowe
Prace kontr. przejść.
Lektorat
30 0 0 30 0 0 0 0 0 0 0 0
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
Lecture
Audit. classes
Lab. classes
Project classes
Conv. seminar
Seminar classes
Pract. classes
Zaj. terenowe
Zaj. warsztatowe
Prace kontr. przejść.
Lektorat
Social competence
M_K001 Student can chose the most appropriate panel mining system adapt to it schedule production. - - + - - - - - - - -
M_K002 Student can analyze different underground mining systems of exploitation. - - + - - - - - - - -
Skills
M_U001 Student can use the program for purpose to design underground exploitation system in ore mining. - - + - - - - - - - -
M_U002 Student can use the program for purpose to design underground exploitation system in hard coal mine. - - + - - - - - - - -
Knowledge
M_W001 Student knows mine design for room and pillar mining systems - - + - - - - - - - -
M_W002 Student knows mineable: shape optimizer, reserves optimizer and mine layout optimizer. - - + - - - - - - - -
Student workload (ECTS credits balance)
Student activity form Student workload
Summary student workload 75 h
Module ECTS credits 3 ECTS
Udział w zajęciach dydaktycznych/praktyka 30 h
Preparation for classes 14 h
przygotowanie projektu, prezentacji, pracy pisemnej, sprawozdania 14 h
Realization of independently performed tasks 15 h
Examination or Final test 1 h
Contact hours 1 h
Module content
Laboratory classes (30h):
Underground cut of deposit

Laboratory classes in the MineScape program provide state-of-the-art tools for the strategic planning of underground mining operations. During classes, students know how to maximise the system of exploitation.
Laboratory classes embrase:
1 – General informations about functions and modules in the MineScape program. 2 – Design data and import data from other graphics programs. 3 – Create specs, grid, graphic, surface, post, traingulations and blocks files. 4 – Draw points, lines, cross-sections, polygons. 4 – Create reggular and irregular forms of deposits. 5 – Create cross – sections from surfaces and solids with drawing auxiliary section lines. 6 – Drill holes profiles with elements of schema, setup and definition of display. 7 – Model of coal or ore deposit with taking into account the lithology, e.g. thickness, interlayer oraz a stucture inside MineScape program, e.g. elements and sequences. 8 – Create underground access, preparatory and exploitation excavations for longwall panel as well as room and pillar mining systems.
During classes, students know how to maximise the system of exploitation. Classes include mineable shape optimizer; automatically produces optimizer excavation design to maximize the value of recovered deposit within the given geometry and design constraints. It support a wide variety of underground mining methods and can quickly generate individual excavations designs within a resource model. Mining activities from three – dimensional design elements and sequences.

Additional information
Teaching methods and techniques:
  • Laboratory classes: W trakcie zajęć laboratoryjnych studenci samodzielnie rozwiązują zadany problem praktyczny, dobierając odpowiednie narzędzia. Prowadzący stymuluje grupę do refleksji nad problemem, tak by otrzymane wyniki miały wysoką wartość merytoryczną.
Warunki i sposób zaliczenia poszczególnych form zajęć, w tym zasady zaliczeń poprawkowych, a także warunki dopuszczenia do egzaminu:

Every two weeks a student performs a final task from individual project contents. In case of
failure to obtain credit from part of the project, student has the opportunity to take the final pass, which is carried out in the last class.

Participation rules in classes:
  • Laboratory classes:
    – Attendance is mandatory: Yes
    – Participation rules in classes: Studenci wykonują ćwiczenia laboratoryjne zgodnie z materiałami udostępnionymi przez prowadzącego. Student jest zobowiązany do przygotowania się w przedmiocie wykonywanego ćwiczenia, co może zostać zweryfikowane kolokwium w formie ustnej lub pisemnej. Zaliczenie zajęć odbywa się na podstawie zaprezentowania rozwiązania postawionego problemu. Zaliczenie modułu jest możliwe po zaliczeniu wszystkich zajęć laboratoryjnych.
Method of calculating the final grade:

Final mark: 70 % mark from project + 30 % mark from final test.
On the classes require 100% presence.

Sposób i tryb wyrównywania zaległości powstałych wskutek nieobecności studenta na zajęciach:

Absence in class can be made up by participating in classes of another group or by performing an additional task.

Prerequisites and additional requirements:

Completed course: Technique of Underground Deposits Exploitation.
On the classes require 100% presence.

Recommended literature and teaching resources:

1. Minescape Website: http://new.abb.com/enterprise-software/intelligent-mining-solutions/minescape
2. Hustrulid W.A., Bullock R.L., 2001: Engineering Fundamentals and International Case Studies.
3. Karzulovic A., Alfaro M., 2004: Mass Mining. Santiago, Chile.
4. Darling P., 2011: SME Mining Engineering Handbook. Third edition.
5. Possibilities of using MineScape software to analyze the model of cutting ore deposit / Krzysztof SKRZYPKOWSKI, Waldemar KORZENIOWSKI, Andrzej Gądek, Radosław Misiak. Scientific Papers of the Institute for Mineral Resources and Energy, Polish Academy of Sciences, 2018 nr 103, s. 91–102.

Scientific publications of module course instructors related to the topic of the module:

1. Skrzypkowski K., 2016: Determination of load for rock bolt support under conditions of underground exploitation of zinc and lead ores for shortwall-pillar system. Interdisciplinary topics in mining and geology (eds. Hardygóra, Bac-Bronowicz, Drzymała), Wrocław University of Science and Technology, Faculty of Geoengineering, Mining and Geology.
2. Skrzypkowsk K., Korzeniowski W., 2016: Multilayer exploitation of zinc and lead ore deposits in ”Olkusz-Pomorzany” mine. Selected issues related to mining and clean coal technology : monograph / eds. Marek Borowski, Justyna Swolkień ; AGH University of Science and Technology. Faculty of Mining and Geoengineering.
3. Skrzypkowski K., 2014: Transformation of method of mining of mineral deposits. W: Interdyscyplinarne zagadnienia w górnictwie i geologii, T. 5 / pod red. Jana Drzymały. — Wrocław : Wydział Geoinżynierii, Górnictwa i Geologii Politechniki Wrocławskiej, 2014. — ISBN: 978-83-937788-5-0. — S. 191–196. — Bibliogr. s. 195, Streszcz., Abstr.
4. Piechota S., Korzeniowski W., Skrzypkowski K., 2008: Mining methods with draw control used in hard coal mines. Mining review, t. 64 nr 6 s. 1–8.
5. Rak Z., Skrzypkowski K., Stasica J., 2014: Exploitation of thin deposits by means of rotary drilling method. Mining Review, t. 70 nr 2, s. 18–24.

Additional information:

In case of absence, the student may make up class by performing additional tasks associated with the underground graphic exploitation of mineral deposits.