3. Prodi Teknik Pertambangan (S-1) - ITB
3. Prodi Teknik Pertambangan (S-1) - ITB
3. Prodi Teknik Pertambangan (S-1) - ITB
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Syllabus in English<br />
<strong>3.</strong> <strong>Prodi</strong> <strong>Teknik</strong> <strong>Pertambangan</strong> (S-1)<br />
TE2201 Numerical Methods (Compulsory, 3 Credits)<br />
Short syllabus<br />
Interpolation, numerical differential, numerical integration, simultaneous linier equation<br />
solution, simultaneous and single non linier equation solution, partial and common<br />
differential equation solution, data modeling.<br />
Offered To<br />
Dept/PS: Mining department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Basic Calculus, Prerequisite<br />
2. Matrix and Vector space, Prerequisite<br />
References/Bibliography<br />
0. Press, W.H. & Flannery, B.P. & Teukolsky, S.A. & Vetterling, W.T., Numerical<br />
Recipes in Pascal, Cambridge University Press, 1994.<br />
0. Carnahan, B. & Luther, H.A. & Wilkes, J.O, Applied Numerical Methods, John Wiley<br />
and Sons, 1969.<br />
0. Davis, J.C., Statistic and Data Analysis in Geology, John Wiley and Sons, 197<strong>3.</strong><br />
0. Harbaugh, J.W. & Carter, G.B., Computer Simulation in Geology, R.E. Krieger<br />
Publishing Company, 1981.<br />
0. Conte, S.D, Elementary Numerical Analysis, McGraw-Hill, 1981.<br />
TE2211 Cristallography and Mineralogy (Compulsory, 3 Credits)<br />
Short syllabus<br />
Explain the mineral science in value, human being need and also in relation with other<br />
sciences. It also give ability to identify and classification of mineral with megacopis<br />
method according to morfology, physical and chemical properties.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
Introduction to Mineral Technology, Prerequisite<br />
References/Bibliography<br />
0. Blackburn, William H., & Dennen, William H., Principles of Mineralogy, Win C.<br />
Brown Publisher, Iowa, 1988<br />
0. Klein, Cornelis, & Hurlbut, Jr., Manual of Mineralogy, 21 st edition. After Dana, John<br />
Wiley & Son, New York, 1985<br />
0. Berry, L.G., & Mason, B.H., Mineralogy, 2 nd edition, revised by Dietrich, Freeman,<br />
New York, 1980<br />
0. Phillips,F.C., An Introduction to Crystallography, 4 th edition, Longman Bungay,<br />
Suffolk, 1977<br />
FIKTM - <strong>ITB</strong> 1
Syllabus in English<br />
0. Dana, E.S. and Ford, W.E., A Textbook of Mineralogy, third edition, New York,<br />
Wiley, 1972<br />
TE3111 Mineral Genesis (Compulsory, 3 Credits)<br />
Short syllabus<br />
The course material cover the processes of deposit mineral, from hydrothermal solution,<br />
concentration processes, sedimentation control, thermodynamic of deposit also geological<br />
constraint, metallogenetic, petrology analysis, structure also stratigraphy analysis.<br />
Laboratory work will be stressed at mineral genesis type in Indonesia.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Physical Geology, Prerequisite<br />
2. Mineralogy, Prerequisite<br />
<strong>3.</strong> Physical chemistry, Prerequisite<br />
4. Petrology, Prerequisite<br />
References/Bibliography<br />
1. Jensen, Mead L. & Alan M. Bateman, Economic Mineral Deposits, John Wiley &<br />
Sons, New York, 1981<br />
2. Guilbert, John M. & Charles F. Park Jr., The Geology of Ore Deposits, W.H. Freeman<br />
and Company, New York, 1986<br />
<strong>3.</strong> Park, Charles F., Jr. & Roy A. MacDiarmid, Ore Deposit, W.H. Freeman and Co., San<br />
Francisco, 1975<br />
4 Lefond, Stanley J., Industrial Minerals and Rocks, American Institut of Mining,<br />
Metallurgical, and Petroleum Engineers, Inc., New York, 1975<br />
5 Van Krevelen, Coal, Elsevier, Amsterdam, 1993<br />
TE3121 Exploration Techniques (Compulsory, 3 Credits)<br />
Short syllabus<br />
Understanding of mineral exploration, introduction of exploration methods, which can be<br />
applied according to mineral condition, important data from exploration activities,<br />
function and data.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Dept/PS: Geological Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Physical Geology, Prerequisite<br />
2. Geological Dynamic, Prerequisite<br />
FIKTM - <strong>ITB</strong> 2
Syllabus in English<br />
References/Bibliography<br />
5. Peters; Exploration. Mining. and Geology. John Willey. 1974<br />
5. Jensen & Bateman; Economics Mineral Deposits. John Willey. 1994<br />
5. Annels; Mineral Deposits Evaluation. Chapman & Hall. 1991<br />
5. Chaussier, Jean-Bernard & Jean Morer, Mineral Prospecting Manual, North Oxford<br />
Academic Publishers Ltd., 1987.<br />
5. Evans, Anthony. M., Introduction to Mineral Exploration., Blackwell Science Ltd.,<br />
1995<br />
TE3221 Exploration Mapping (Compulsory, 3 Credits)<br />
Short syllabus<br />
The students can read geological map, understand and can do a mapping of mineral<br />
deposit indication in field either in the surface and underground, have ability to produce<br />
mineralization zone map (deposit zones), genetic model of mineral deposit and analysis<br />
mineralization condition for further exploration.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Physical geology, Prerequisite<br />
2. Geology dynamic, Prerequisite<br />
<strong>3.</strong> Geomorphology, Prerequisite<br />
4. Structure geology, Prerequisite<br />
5. Principle of stratigraphy, Prerequisite<br />
6. Petrology, Prerequisite<br />
References/Bibliography<br />
5. Compton, R.M., Geology in Field., John Wiley & Sons. Inc., Canada, 1985<br />
5. Berkman, D.A., Field Geologist Manual., The Australian Institute of Mining &<br />
Metallurgy., Third Edition., Australia., 1995<br />
5. Evans, A.M., Introduction to Mineral Exploration., Blackwell Science Ltd., 1995<br />
4. Chaussier, J.M., Mineral Prospecting Manual. North Oxford Academics., French., 1987<br />
TE3222 Geophysica Exploration for Mineral I (Compulsory, 3 Credits)<br />
Short syllabus<br />
Introducing theory and practice of seismic,geoelectric, electromagnetic, self potential,<br />
induced polarisation and logging method for mineral exploration purposes. Including<br />
design and field survey method in general and special condition. Theory and practice is<br />
directed to understand how to find an indication of mineral deposits.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. - Basic geology, Prerequisit<br />
FIKTM - <strong>ITB</strong> 3
Syllabus in English<br />
References/Bibliography<br />
1. Dobrin, Milton, B., Introduction to Geophysical Prospecting, McGraw-Hill, 1980.<br />
2. Parasnis, D. S., Principles of Applied Geophysics, Chapman & Hall, 1972.<br />
Keller, G. V. and F.C. Frischkneckt, Electric Methods in Geophysical Prospecting,<br />
McGraw-Hill<br />
<strong>3.</strong> Hirota, Sismic Exploration for Civil Engineering, Nippon Kaei, 1975, Unpublished<br />
paper<br />
TE3223 Exploration Drilling (Compulsory, 2 Credits)<br />
Short syllabus<br />
Introducing equipment and accessories of drilling, working sequences, drilling planing,<br />
analysis of drilling result, geophysical logging (resistivity, gamma, density and caliper),<br />
cost calculation, cosntraint and how to solve the drilling problems, and reporting.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
-<br />
References/Bibliography<br />
1. Preston L, Moore, Drilling Practices Manual, The Petroleum Publishing Co, Tulsa,<br />
1974.<br />
2. Cumming J.D., Diamond Drill Handbook, The Hunter Rose Company, Canada, 1980.<br />
<strong>3.</strong> Australian Drilling Industry Training Committee Limited, Drilling the Manual of<br />
Methods, Applications, and Management, Lewis C.R.C., Virginia, 1996<br />
TE3231 Reserve Calculation Methods (Compulsory, 2 Credits)<br />
Short syllabus<br />
Introducing resources- reserve concept, classification, basic techniques in grade<br />
determination from bore hole/test pit, influence area of data, conventional method of<br />
resources/reserve calculation, cut of grade concept and stripping ratio, determination of<br />
deposit boundary, tabulation and presentation of resources/reserve calculation.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Dept/PS: Department of geology<br />
Faculty: IKTM - <strong>ITB</strong><br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Mining Method, Prerequisite<br />
2. Exploration Technique, Prerequisite<br />
References/Bibliography<br />
<strong>3.</strong> Chaussier, Jean-Bernard & Jean Morer, Mineral Prospecting Manual, North Oxford<br />
Academic Publishers Ltd., 1987.<br />
FIKTM - <strong>ITB</strong> 4
Syllabus in English<br />
<strong>3.</strong> Annels; Mineral Deposits Evaluation. Chapman & Hall. 1991.<br />
<strong>3.</strong> Popoff, C.C., Computing Reserves Deposits. Principles and Conventional Methods.,<br />
1966.<br />
<strong>3.</strong> Hustrulid, W. and Kutcha, M., Open Pit Mine Planning and Design. A.A.<br />
Balkema/Rotterdam, 1995.<br />
<strong>3.</strong> Spereo Carras., Sampling Evaluation and Basic Principles of Reserve Estimation,<br />
Carras Mining & Associates, 198<strong>3.</strong><br />
TE3241 Groundwater Hydrology (Compulsory, 3 Credits)<br />
Short syllabus<br />
Course content give an abilities of knowledge and skills in laboratory and field in:<br />
hydrogeology system, groundwater occurrence, exploration and exploitation in ground<br />
water, collecting data (laboratory test, pumping test etc),<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Geology, Prerequisite<br />
2. Basic course, Prerequisite<br />
References/Bibliography<br />
1. Fetter, C.W (1994): Applied Hydrogeology<br />
2. Viessman,W & Lewis,G.L (1996): Introduction to Hydrology<br />
<strong>3.</strong> Todd, D.K (1980): Groundwater Hydrology<br />
4. Domenico, P.A & Schwartz, F.W (1990), Physical and Chemical Hydrogeology<br />
5. Streeter, V.L & Wylie, E.B (1996): Mekanika Fluida<br />
TE4111 Mineragraphy (Compulsory, 4 Credits)<br />
Short syllabus<br />
Give knowledge: refraction and reflection optics concepts and its interaction with<br />
transparent and opaque (rock and ore), basic principle of refraction and reflection<br />
polarization microscope, identification methods of thin section and opaque according to<br />
optic and morphology properties, also have ability to identify and description of rock and<br />
ore, structure and par agenesis, grain counting analysis and liberation degree.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Crystallografi & Mineralogy, Prerequisite/ Coequality/ Prohibition<br />
2. GL xxx Physical Geology, Prerequisite/ Coequality/ Prohibition<br />
References/Bibliography<br />
1. Phillips, Revell, Mineral Optics, Freeman & Co, San Fransisco, 1971<br />
2. Mac Kenzie, Atlas of Rock Forming Minerals. Longman Sci., 1980<br />
<strong>3.</strong> William, et al, Petrography, Freeman & Co, San Fransisco, 1955<br />
FIKTM - <strong>ITB</strong> 5
Syllabus in English<br />
4. Craig and Vaughan, Ore Microscopy & Ore Petrography, John Wiley & Son,<br />
Singapore, 1981<br />
5. Ramdohr, Ore Minerals and Their Intergrowths, Pergamon Press, Frankfurt, 1980<br />
TE4121 Geophysical Exploration for Mineral II (Compulsory, 3 Credits)<br />
Short syllabus<br />
Introducing theory and practice of gravity, radioactive and magnetic method for mineral<br />
exploration purposes. Including design and field survey method in general and special<br />
condition. Theory and practice is directed to understand how to find an indication of<br />
mineral deposits.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. - Basic Geology, Prerequisite<br />
2- Geophysical Exploration for Mineral I, Prerequisite<br />
References/Bibliography<br />
1. Parasnis, Mining Geophysics, Elservier, 1984.<br />
2. Dobrin dan Savitt, Introduction to Geophysical Prospecting, McGraww-Hill Book, Co,<br />
1988.<br />
<strong>3.</strong> SEG Mining Geophysic Volume Committee, Mining Geophysics, Volume I<br />
& II, SEG, 1972.<br />
4. Beck, A.E., Physical Prinsiples of Exploration Methods, The Macmillan Press<br />
TE4122 Geochemical Exploration and Ore Analysis (Compulsory, 2 Credits)<br />
Short syllabus<br />
Give knowledge and exercise to understand dispersion pattern and geochemical anomaly<br />
at mineralisation areas, technique for geochemical prospecting in field, chemical analysis<br />
and evaluation from field survey and construct mineralisation model for further<br />
exploration.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Facult: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1.TE 2211 Crystallography and Mineralogy, Prerequisite<br />
2. GL xxx Physical Geology, Prerequisite<br />
References/Bibliography<br />
1. Hawkes & Webb, Geochemsitry in Mineral Exploration, Harper & Row, New York,<br />
1962<br />
2. Fletcher, Handbook of Exploration Geochemistry, Vol I & II, Elsevier, 1981<br />
<strong>3.</strong> Joyce, Exploration Geochemistry, Techsearch & Australian Mineral Fondation, 1976<br />
4. Siegel, Applied Geochemistry, Wiley Interscience Publication, 1974<br />
FIKTM - <strong>ITB</strong> 6
Syllabus in English<br />
TE4123 Exploration and Evaluation of Geothermal (Elective, 2 Credits)<br />
Short syllabus Credit<br />
Introducing theory and pratice how to field data collection using airphoto, satellite,<br />
geology measurement, stratigraphy, hydrogeology, hydrochemistry, geophysics, surface<br />
manifestion mapping and geothermometer. Determine prospect area including resources.<br />
Effect toward environment either surface or subsurface if the geothermal field will be<br />
exploited.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Exploration Mapping, Prerequisite<br />
2. Hydrogeology, Prerequisite<br />
<strong>3.</strong> Geophysical Exploration for Mineral I and 2, Prerequisite<br />
4. Geochemistry, Prerequisite<br />
References/Bibliography<br />
1. L. Raybach, L and Muffler, L.J.P, Geothermal system: Principle and Case Histories,<br />
John Wiley & Sons, 1991.<br />
2. Edward et al, Handbook of Geothermal Energy<br />
<strong>3.</strong> Brown, K., Environmental Aspect of Geothermal Development<br />
4. Franco D/Amore, Application of Geochemistry in Geothermal Reservoir<br />
Development, Rome, 1991.<br />
5. Kevin, L. Brown, Environmental Aspects of Geothermal development, IGA, 1995.<br />
TE4131 Geostatistics (Compulsory, 2 Credits)<br />
Short syllabus<br />
Application of geostatistic method to get more broadly about data distribution in vertical<br />
or lateral, using semivariogram analysis also grade/thickness prediction of mineral deposit<br />
using krigging method. Course material cover basic theory of variogram,<br />
calculation/analysis/modeling of variogram, application of sferis model (Matheron),<br />
dispersion variation, estimation variant, krigging, reserve analysis. Exercise using<br />
GEOPLAN, KRIG3D, KRIGRES in FORTRAN.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Mineral Deposit, Prerequisite<br />
2. Matrix & Vector Space, Prerequisite<br />
<strong>3.</strong> Numerical analysis & Simulation, Prerequisite<br />
4. Basic Statistic, Prerequisite<br />
FIKTM - <strong>ITB</strong> 7
Syllabus in English<br />
References/Bibliography<br />
1. David, M., Geostatistical Ore Reserve Estimation, Developments in Geomathematics 2,<br />
Elsevier Scientific Publishing Co., Amsterdam, Oxford-New York, 1980<br />
2. Matheron, G., Principles of Geostatistics, Economic Geology vol.58, 1963<br />
<strong>3.</strong> Journel, A.G. & C. Huijbregts, Mining Geostatistics, Academic Press, 1978<br />
4. Annels, Alwyn E., Mineral Deposit Evaluation, A practical approach, Chapman & Hall,<br />
London, 1991<br />
5. Rendu, J.M., An Introduction to Geostatistical Methods of Mineral Evaluation,<br />
Monograph of the South African Inst. Min. Metall., 1978<br />
TE4141 Geotechniques (Compulsory, 3 Credits)<br />
Short syllabus<br />
Introducing theory and practice in field data collection method using airphoto, satellite,<br />
structure measurement in field an also interpretation so that it can be applied with<br />
correctly. Field data collection method for rock clasification and its application. Soil and<br />
rock sampling. Hydrogeology and how to get parameter for geotechnical purposes. Slope<br />
stability analysis and underground opening. Safety and helath oocupation in relation with<br />
geotechnique.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Structure Geology, Prerequisite<br />
2. Exploration Technique, Prerequisite<br />
<strong>3.</strong> Hydrogeology, Prerequisite<br />
References/Bibliography<br />
1. Dunn, I.S, Fundamental Geotechnical Analysis, 1980<br />
2. Hoek, E and Bray, J.W., Rock Slope Engineering, 1981<br />
<strong>3.</strong> Hoek, E and Brown, E.T, Underground excavation in rock, 1980<br />
4. Giani, G.P., Rock Slope Stability Analysis, 1992.<br />
TE4201 Modelling and Reserve Evaluation (Compulsory, 3 Credits)<br />
Short syllabus<br />
Basic evaluation of resources and reserve. The scope of lecturing : Sampling, conventional<br />
geometric method, construction of resources model using computer block method (data<br />
basis, data analysis using descriptive statistic, geological simulation and topography,<br />
interpretation parameter, grade interpretation technique), resources and reserve<br />
classification, boundary grade concept and multi mineral equivalent grade, capital cost and<br />
operation prediction, life time of mine and mine reserve calculation. Semester project<br />
(carry out and evaluate the reserve model) is the important part of this course.<br />
FIKTM - <strong>ITB</strong> 8
Syllabus in English<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Exploration Technique, Prerequisite<br />
2. Reserve Calculation Method, Prerequisite<br />
References/Bibliography<br />
1. Annels, A. E., Mineral Deposit Evaluation, Chapman & Hall, 1991<br />
2. Barnes, M.P., Computer-Assisted Mineral Appraisal and Feasibility, SME, 1980<br />
<strong>3.</strong> Gentry, D.W. and O'Neill, T.J., Mine Investment Analysis, SME, 1984<br />
4. Isaaks, E.H. and R.M. Srivastava, An Introduction to Applied Geostatistics, Oxford<br />
University Press, 1989<br />
5. Lane, K.F., The Economic Definition of Ore, Mining Journal Books, 1991<br />
6. Popoff, C.C., Computing Reserves Deposits : Principles and Conventional Methods,<br />
USBM-IC 8283, 1966<br />
7. Weiss, A., Computer Methods for the 80's in the Mineral Industry, SME, 1979<br />
TE4211 Coal Exploration (Compulsory, 3 Credits)<br />
Short syllabus<br />
Knowledge of source material, environment and peat deposition facies, occiring<br />
processes, impact of processes to quality and coal rank. Quality and rank of coal.<br />
Guidence for exploration, mining, processing. Coal distribution mainly in Indonesia, coal<br />
potential basin forming, role of structure and stratigraphy in coal exploration, application<br />
of coal genesis for coal exploration, coal sampling and analysis, reserve calculation,<br />
activities economic analysis, case study of coal exploration.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Stratigraphy, Prerequisite<br />
2. Structure Geology, Prerequisite<br />
References/Bibliography<br />
1. Anggayana, Komang, Hand Out TA-346 Mineral Genesis, Mining Department <strong>ITB</strong>,<br />
1999.<br />
2. Cumming J. D. (1980) : Diamond Drill handbook, The Hunter Rose Company, Canada<br />
<strong>3.</strong> Diessel, C.F.K., Coal Bearing Depositional Systems, Gebrueder Borntraeger, Berlin-<br />
Stuttgart, 1993<br />
4. Hutchison C.S. (1989) : Geological Evolution of South – East Asia, Clarendon Press.<br />
Oxford : 368 S.<br />
5. Stach E., Mackowsky M. TH., Teichmueller M., Taylor G. H. Chandra D., Teichmuller<br />
R. 91982) : Stach’s Textbooks of Coal Petrology, Gebreuder Borntraeger, Berlin-<br />
Stuttgart : 535 s.<br />
6. Taylor G.H., Teichmuller M., Davis A. Diessel C.F.K., Littke R., Robert P., Organic<br />
Petrology, Gebrueder Borntraeger, Berlin - Stuttgart, 1998<br />
FIKTM - <strong>ITB</strong> 9
Syllabus in English<br />
7. Van Krevelen, D.W., Coal, Typology-Chemistry-Physics Constitution, 3 rd Comp. Rev.<br />
ed. Elsevier, Amsterdam, 199<strong>3.</strong><br />
TE4231 Exploration Management (Compulsory, 3 Credits)<br />
Short syllabus<br />
Application management in mineral exploration. Theory and management analysis will be<br />
focused at project management project which is related with economic, technique and<br />
human resources.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
Exploration technique, Prerequisite<br />
Mineral Economic, Prerequisite<br />
References/Bibliography<br />
1. White, Andrew H., Management of Mineral Exploration, Rossco Print, Victoria 3072,<br />
1977<br />
2. Wellmer, Friedrich-Wilhelm, Economic Evaluations in Exploration, Springer-<br />
Verlag, Germany, 1989<br />
<strong>3.</strong> Iman Soeharto., Manajemen Proyek., Erlangga, 1997<br />
4. Tilton, John E., G.E. Roderick, H.L. Hans, World Mineral Exploration, Trends and<br />
Economic Issues., Resources For The Future, Washington D.C, 1988<br />
5. Wellmer, Fredrich-Wilhelm, Economic Evaluations in Exploration, Springer-Verlag,<br />
Germany, 1989<br />
TE5142 Water well Drilling Technique (Compulsory, 2 Credits)<br />
Short syllabus<br />
Knowledge of water rilling. Introduction of bore machine types, drilling accessories.<br />
Drilling methods. Aspects may cause effect on drilling speed and its constraints, drill mud,<br />
how to handle problems in drilling. How to choose bit and its types. Well construction and<br />
construction material. Well clean technique, introducing equipment and cleaning processes<br />
theory and well finishing. Pumping test and data analysis also physical meaning toward<br />
construction. Economic analysis of drilling and well design. Reporting of water well work.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
-<br />
References/Bibliography<br />
1. Australian Drilling Industry Training Committee Limited, “Drilling The Manual of<br />
Methods Applications, and Management”, Lewis Publisher-New Yorks, 1996.<br />
FIKTM - <strong>ITB</strong> 10
Syllabus in English<br />
2. Fletcher, G. Driscoll, Editor, “Groundwater and Wells”, Johnson Filtration Systems<br />
Inc., St. Paul, Minesota 55112, 1989.<br />
<strong>3.</strong> Cumming, J.D., “Diamond Drill Handbook”, The Hunter Rose Company, Canada,<br />
1980.<br />
4. Preston, L. Moore, “Drilling Practices Manual”, The Petroleum Publishing Co., Tulsa<br />
Oklahoma-USA, 1974.<br />
5. Brocure Long Year<br />
6. Brocure Koken Boring Machine Co.<br />
7. Brochure Acker Drill Co. Inc. Scranton<br />
8. Brochure Toho Drilling Machine and Grouting Pump.<br />
TE5241 Environmental Impact Analysis (Elective, 2 Credits)<br />
Short syllabus<br />
Knowledge and understanding must be owned by mine exploration engineer or mine<br />
engineer because their works have relation with environment problems. This course give<br />
ability to know problems in field, environmental scope, collection and analysis data in<br />
comprehensive, understand the regulations, ability to design to avoid imparts to<br />
environment.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
-<br />
References/Bibliography<br />
1. UU, Peraturan Pemerintah, Perda tentang lingkungan<br />
2. Sunarwan, S.F : Analisis Mengenai Dampak Lingkungan, Gajah Mada Press,<br />
Yogyakarta, 1990<br />
<strong>3.</strong> Sumarwoto, O : Analisis Dampak Lingkungan, Gajah Mada Press, Yogyakarta, 1990<br />
4. Carter, L.W : Environmental Impact Assesment, McGraw Hill, New York, 1996<br />
5. Laporan-laporan AMDAL yang sudah ada<br />
TE5242 Groudwater Exploration (Elective, 2 Credits)<br />
Short syllabus<br />
Geological parameters in relation with ground water, aquifer parameter. Groundwater<br />
exploration method, ground water exploration report.<br />
Offered To<br />
Dept/PS: Mining Department<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. - Hydrogeology, Prerequisite<br />
2. - Geology dynamic, Prerequisite<br />
FIKTM - <strong>ITB</strong> 11
Syllabus in English<br />
References/Bibliography<br />
1. Fetter, C.W Applied Hydrogeology, McMillan Publishing Company, 1994.<br />
2. Telford, W.M., Applied Geophysics, Cambridge University Press, 1977.<br />
TA10T1 Concept of Technology (Compulsory, 2 SKS)<br />
Short Syllabus<br />
Histories of science, technology, and art show that the continuing developments of<br />
science, technology, and art are based on human creativity to fulfil their needs of better<br />
lives. The developments are supported by the continuing improvement of human<br />
knowledge of model, system, feed back, stability, decision making, and optimisation.<br />
Applications of science, technology, and art and industrial development strategy are<br />
closely related to the invention and innovation required by the human needs. Knowledge<br />
and implementation of Intellectual Property Rights is a part of this course.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty: ESMT – <strong>ITB</strong><br />
Related Courses<br />
Environmental Science<br />
References/Bibliography<br />
0. Lecture Notes of Concept of Technology <strong>ITB</strong> – 2003<br />
0. Saswinadi S. (Ed.) “Menerawang Masa Depan Ilmu, <strong>Teknik</strong>, dan Seni Dalam Budaya<br />
Masyarakat Bangsa Indonesia”, Penerbit <strong>ITB</strong> 1990<br />
0. Anonim “Manusia, Teknologi, dan Lingkungan : Kemampuan dan<br />
pengembangannya”, Penerbit <strong>ITB</strong>, 1996.<br />
TA1101 Intro. To Earth Sciences and Mineral Technology (Compulsory, 2 SKS)<br />
Short Syllabus<br />
The following materials are given for understanding the relations between earth sciences<br />
and mineral technology. The origin of earth sciences, theory of earth forming, earth as a<br />
part of the galaxy, development of earth sciences, earth as a solid material (structure and<br />
composition), physic, atmosphere, and ocean of the earth, uniqueness of Indonesian<br />
geology, earth as mineral and energy resources, earth disasters. Natural resource<br />
exploration technology, mining and mineral processing technology, exploration and<br />
exploitation of oil, gas, and hydrothermal. For Mining Engineering, the materials of<br />
exploration, mining, and processing are more detailed and reviewed for observing their<br />
relationship in mining industry.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty: ESMT – <strong>ITB</strong><br />
Related Courses<br />
-<br />
FIKTM - <strong>ITB</strong> 12
Syllabus in English<br />
References/Bibliography<br />
<strong>3.</strong> SME, Mining Engineering Handbook, John Wiley & Sons, 197<strong>3.</strong><br />
<strong>3.</strong> Lewis, Elements of Mining, John Wiley & Sons, 1964.<br />
<strong>3.</strong> Seeley Mudd, Economics of Minerals Industries, AIME, 1985.<br />
<strong>3.</strong> Howard L. Hartman, Introductory Mining Engineering, 1987<br />
<strong>3.</strong> Fowler, CMR 1990, The Solid Earth : An Introduction to Global Geophysics,<br />
Cambridge Univerrsity Press, Cambridge.<br />
TA2101 Mining Systems (Compulsory, 2 SKS)<br />
Short Syllabus<br />
This course consists of knowledge of surface and underground mining systems,<br />
reinforcement and support analyses, stability and monitoring analyses for slope and tunnel,<br />
including supporting knowledge required for ensuring the continuation of the mining<br />
systems.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty: ESMT – <strong>ITB</strong><br />
Related Courses<br />
Intro. to Earth Sciences and Mineral Technology (Prerequisite)<br />
References/Bibliography<br />
5. SME, Mining Engineering Handbook, John Wiley & Sons, 197<strong>3.</strong><br />
5. Lewis, Elements of Mining, John Wiley & Sons, 1964.<br />
5. Seeley Mudd, Economics of Minerals Industries, AIME, 1985.<br />
5. Howard L. Hartman, Introductory Mining Engineering, 1987<br />
TA2221 Mine Investment Analysis (Compulsory, 2 SKS)<br />
Short Syllabus<br />
Study various evaluation techniques for mining project using economical approaches such<br />
as Net Value analysis (NPV, NAV, NFV), DCFROR analysis, cash-flow analysis. Study<br />
various techniques in selecting investment alternatives using mutually–non-mutually<br />
exclusive approach and rent-purchase alternative. Study the concept of leverage and how it<br />
affects the cash-flow. Study the concepts of taxes, hedging, and currency rate. Estimate the<br />
income and capital and operating costs.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty.: ESMT – <strong>ITB</strong><br />
Related Courses<br />
4. Mining Systems (Prerequisite)<br />
4. Mining Equipment (Co-requisite)<br />
References/Bibliography<br />
2. Stermole, F.J., Stermole, J.M., Economic Evaluation and Investment Decision<br />
Methods, Investment Corporation, 1990.<br />
FIKTM - <strong>ITB</strong> 13
Syllabus in English<br />
2. Gentry, G.W., O’Neal, T.J., Mine Investment Methods, Society of Mining<br />
Engineering, 1984.<br />
2. Rudenno, V., The Mining Valuation Handbook, Wrightbooks Pty. Ltd., 1998.<br />
2. The Economist, Guide to Economic Indicator, The Economist, 1992.<br />
TA-2231 Mining Equipment (Compulsory, 4 SKS)<br />
Short Syllabus<br />
This course is started with definition and analysis of work place followed by work<br />
principle and the use of various mining equipments for cyclic and continuous system in<br />
surface and underground mines, including equipment selection and system of allocation.<br />
Knowledge of production estimation, equipment operating cost, queuing theory and<br />
optimisation are also given.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty.: ESMT – <strong>ITB</strong><br />
Related Courses<br />
4. Intro. to Earth Sciences and Mineral Technology (Prerequisite)<br />
4. Mining Systems (Prerequisite)<br />
References/Bibliography<br />
2. Church, Horace, Excavation Handbook, McGraw-Hill, 1981.<br />
2. Durst, W. dan Vogt, W., Bucket Wheel Excavator, Trans. Tech. Publication, Clausthal,<br />
1988.<br />
2. Partanto Prodjosumarto, Pemindahan Tanah Mekanis, Jurusan <strong>Teknik</strong> <strong>Pertambangan</strong><br />
<strong>ITB</strong>, 198<strong>3.</strong><br />
2. Peurifoy, Construction Planning Equipment and Method, McGraw-Hill, 1979.<br />
2. Suseno Kramadibrata, Rock Excavation by Cutting, Mining Engineering Department<br />
<strong>ITB</strong>, 1996.<br />
2. Whittaker, B.N. dan Fruth, R.C., Tunneling-design Stability and Construction, The<br />
Institute of Mining and Metallurgy, London, 1990.<br />
2. Hustrulid, W.A. (ed), Underground Mining Handbook, Society of Mining Engineers of<br />
The American Institute of Mining, Metallurgical, and Petroleum Engineers, Inc., New<br />
York, 1981.<br />
2. Sinclair, J., Winding and Transport in Mines, Sir lsaac Pitman and Sons, Ltd., London,<br />
1959.<br />
2. Koehler, S., Mining Methods and Equipment, McGraw-Hill, Inc., New York, 1980.<br />
2. Staley, W.W., Mine Plant Design, McGraw-Hill Book Company, 1949.<br />
2. Walker, S.C., Mine Winding and Transport, Advances in Mining Science and<br />
Technology, Elsevier, 1988.<br />
FIKTM - <strong>ITB</strong> 14
Syllabus in English<br />
TA3111 Rock Mechanics (Compulsory, 3 SKS)<br />
Short Syllabus<br />
Rock mechanics principles, physical and mechanical properties of rock, laboratory tests to<br />
determine rock properties so that work in the rock mass can be conducted safely, rock<br />
mass behaviour, stress distribution around an underground excavation, in situ stress<br />
measurement.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty.: ESMT – <strong>ITB</strong><br />
Related Courses<br />
1. Engineering Mechanics (Prerequisite)<br />
2. Physical Geology (Prerequisite)<br />
<strong>3.</strong> Structural Geology (Co-requisite)<br />
4. General Petrology (Co-requisite)<br />
References/Bibliography<br />
1. Jumikis, Rock Mechanics, Trans. Tech. Publication, 1983<br />
2. Brady, B.H.D. and Brown, E.T., Rock Mechanics for Underground Mining, George<br />
Allen & Unwin Ltd., London, 1985<br />
<strong>3.</strong> Goodman, lntroduction Rock Mechanics, Second Edition, John Wiley & Sons, 1989<br />
4. Obert, Duvall, Rock Mechanics and the Design of Structures in Rock, John Wiley &<br />
Sons, 1967<br />
5. Bieniawski, Engineering Rock Mass Classification, John Wiley & Sons, 1989<br />
6. Hoek, E. and Brown, E.T., Underground Excavation in Rock, Institution of Mining and<br />
Metallurgy, London, 1982.<br />
7. Made Astawa Rai, Mekanika Batuan, Laboratorium Geoteknik PAU-IR <strong>ITB</strong>, 1993<br />
TA3121 Mining Valuation (Compulsory, 2 SKS)<br />
Short Syllabus<br />
This course is started with a review of mining company activities: exploration techniques<br />
and reserve calculation, mining techniques, and processing techniques. It is focused on<br />
economics analysis and mine financing (equity financing & debt financing); analysis of<br />
financial report using accounting ratios (solvability, profitability, and leverage ratios);<br />
fiscal aspect to describe the effects of tax system on cash-flow, various techniques of<br />
mining valuation including financial and management aspects.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty: ESMT – <strong>ITB</strong><br />
Related Courses<br />
1. Intro. to Earth Sciences and Mineral Technology (Prerequisite)<br />
2. Mine Investment Analysis (Prerequisite)<br />
References/Bibliography<br />
1. Gentry & O’Neal, “Mine Investment Analysis” SME, Colorado, 1984 (MIA)<br />
2. Kernot, Charles, “ Valuing Mining Company”, Woodhead Publishing Ltd, Cambridge,<br />
FIKTM - <strong>ITB</strong> 15
Syllabus in English<br />
1999. (VMC)<br />
2. Rudenno, V., The Mining Valuation Handbook, Wrightbooks Pty. Ltd., 1998.<br />
2. Pricewaterhouse Copper,”Comparative Mining Taxation Regime”, PwC, 1998, (CMT)<br />
2. Prastowo, Adi,” Analisis Laporan Keuangan”, YKPN, Jogya, 1987 (ALK)<br />
TA3141 Mine Ventilation (Compulsory, 2 SKS)<br />
Short Syllabus<br />
This course describes the use mine ventilation for providing ventilation network for an<br />
underground mine that comply with the regulations related to healthy working<br />
environment. It discusses air flow in the mine, including quality, quantity, and comfortable<br />
environment to the miners, as well as hazardous gases and dust in the mine. Quantitative<br />
analysis of ventilation network, calculation of head losses, and the effects of natural<br />
ventilation on mine ventilation system are also given.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty: ESMT – <strong>ITB</strong><br />
Related Courses<br />
Introduction to Fluid System (Prerequisite)<br />
References/Bibliography<br />
5. Hartman, Mine Ventilation and Air Conditioning, John Wiley & Sons, 1982<br />
TA3211 Explosives and Blasting Techniques (Compulsory, 2 SKS)<br />
Short Syllabus<br />
This course includes knowledge of types of explosives and blasting accessories, the use of<br />
explosives in a number of works, in particular in mining, transportation and storage of<br />
explosives. Ground vibration and air blast criteria are also given.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty: ESMT – <strong>ITB</strong><br />
Related Courses<br />
1. Rock Mechanics (Prerequisite)<br />
1. Physical Chemistry (Prerequisite)<br />
References/Bibliography<br />
2. Ash, The Mechanics of Rock Breakage, Pit & Quarry, 1963<br />
2. Gregory, Explosives for North American Engineers, Trans. Tech. Publications<br />
Clausthal, 197<strong>3.</strong><br />
2. Langefors, The Modern Technique of Rock Blasting, John Wiley & Sons, 1972.<br />
2. ------, Blaster Handbook, EU Du Pont de nmours & Co.<br />
2. Scot, A., Cocker, A., Djordjevic, N., Higgins, M., La Rosa, D., Sarma, K.S. and<br />
Wedmaier, R., Open Pit Design - Analysis and Optimazation JKMRC Monograph<br />
Series in Mining & Mineral Processing I, University of Queensland, 1996.<br />
FIKTM - <strong>ITB</strong> 16
Syllabus in English<br />
2. ------, Explosivers and Rock Blasting, Atlas Poweder Company, Field Technical<br />
Operations.<br />
2. Person, Per-Ander, R. Holenberg, J. Lee, Rock Blasting And Explosives Engineering,<br />
CRC Press, 1994<br />
TA3212 Mining Geotechniques (Compulsory, 3 SKS)<br />
Short Syllabus<br />
This course covers the knowledge of surface mining system, slope design, slope stability<br />
analysis using numerical and manual techniques, reinforcement and monitoring analyses,<br />
and supporting knowledge required in a surface mining operation.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty.: ESMT – <strong>ITB</strong><br />
Related Courses<br />
7. Physical Geology (Prerequisite)<br />
7. Structural Geology (Prerequisite)<br />
7. Soil Mechanics (Prerequisite)<br />
7. Rock Mechanics (Prerequisite)<br />
7. Mining Systems (Preequisite)<br />
References/Bibliography<br />
5. Bieniawski, Z.T., Engineering Rock Mass Classifications, A Wiley-Interscience<br />
Publication, John Wiley & Sons, Copyright 1989.<br />
5. Brady, B.H.G., and Brown, E.T., Rock Mechanics for Underground Mining, George<br />
Allen & Unwin,1985.<br />
5. Lang, T.A., Theory and Practice of Rock Bolting, Transactions of the American<br />
Institution of Mining Engineers, vol. 220, pp. 333-348, 1961.<br />
5. Stillborg, B., Professional Users Handbook for Rock Bolting, Trans. Tech.<br />
Publications, 1986.<br />
TA3231 Drilling & Digging Techniques (Compulsory, 2 SKS)<br />
Short Syllabus<br />
It provides knowledge of intact rock and rock mass properties that affecting the success of<br />
drilling and digging, types of drilling equipment for blast hole drilling, and digging<br />
equipment for surface and underground mines using continuous or discontinuous systems.<br />
In addition, knowledge for equipment selection, determination of continuous mechanical<br />
digging equipment, and application of dimensional analysis are also given.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty: ESMT – <strong>ITB</strong><br />
Related Courses<br />
4. Intro. to Earth Sciences and Mineral Technology (Prerequisite)<br />
4. Mining System (Prerequisite)<br />
4. Rock Mechanics (Prerequisite)<br />
FIKTM - <strong>ITB</strong> 17
Syllabus in English<br />
4. Introduction to Fluid System (Prerequisite)<br />
4. General Petrology (Prerequisite)<br />
References/Bibliography<br />
5. Clark, G. B., Principles of Rock Drilling and Bit Wear, Colorado School of Mines<br />
Quarterly, Vol. 77, January, Number 1, 1982.<br />
5. Durst, W. and Vogt, W., Bucket Wheel Excavator, Series on Mining Engineering, Vol.<br />
7, Trans, Tech. Publication, Clausthal.<br />
5. Evans, I.A. and Poremoy, C.D., Strength Fracture and Workability of Coal, Pergamon<br />
& Press, 132 p., 1966.<br />
5. Golonsinski, T.S., Continuous Surface Mining Technology, Bulk Solids Handling,<br />
Vol. 4, pp. 781-189, 1984.<br />
5. Roxborough, F.F. and Philips, H.R., Applied Rock and Coal Cutting Mechanics,<br />
Australian Foundation Workshop Course 156/81.<br />
5. Whittaker, B.N. and Fruth, R.C., Tunneling-design Stability and Construction, the<br />
Institute of Mining and Metallurgy, London, 1990.<br />
5. Kramadibrata S., Rock Excavation By Cutting, Mining Engineering Dept. <strong>ITB</strong>, 1996.<br />
TA3241 Mine Drainage (Compulsory, 2 SKS)<br />
Short Syllabus<br />
Hydrology aspect including hydrology components, hydrology data collecting and<br />
analysis, especially rainfall; hydrogeology aspect including groundwater and aquifer,<br />
groundwater hydrochemistry, aquifer hydraulic parameters, aquifer tests and drawdown<br />
analysis; pumps (types, calculations of pump requirement, pump selection); methods and<br />
means of mine drainage; acid mine drainage phenomenon; environmental consideration.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty.: ESMT – <strong>ITB</strong><br />
Related Courses<br />
7. Mining Systems (Prerequisite)<br />
7. Introduction to Fluid System (Prerequisite)<br />
7. Physical Geology (Prerequisite)<br />
References/Bibliography<br />
<strong>3.</strong> Canmet, Pit Slope Manual, Chapter 4: Groundwater, 1977.<br />
<strong>3.</strong> Chow, Maidment & Mays, Applied Hydrology, McGraw-Hill, 19852.<br />
<strong>3.</strong> Gautama, Diktat Sistem Penyaliran Tambang, Jurusan <strong>Teknik</strong> <strong>Pertambangan</strong> <strong>ITB</strong>,<br />
1997<br />
<strong>3.</strong> Ranga Raju, Flow Through Open Channels, Tata McGraw-Hill., 1981<br />
<strong>3.</strong> Sosrodarsono & Takeda, Hidrologi Untuk Pengairan, PT. Pradnya Paramita, 1983<br />
<strong>3.</strong> Sularso & Tahara, Pompa & Kompresor, PT. Pradnya Paramita, 1994<br />
FIKTM - <strong>ITB</strong> 18
Syllabus in English<br />
TA4101 Coal and Its Utilisation (Compulsory, 3 SKS)<br />
Short Syllabus<br />
Introduction to coal and coal quality parameters. The role of coal as energy source for<br />
industry. Coal preparation and washing. Pyrolysis, gasification, and liquefaction processes,<br />
and clean coal technology.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty.: ESMT – <strong>ITB</strong><br />
Related Courses<br />
0. Intro. to Earth Sciences and Mineral Technology (Prerequisite)<br />
0. Mining Systems (Prerequisite)<br />
References/Bibliography<br />
2. Eliot, Chemistry of Coal Utilisation, John Wiley & Sons, 1981.<br />
2. Edgar, Coal Processing and Pollution Control, Gulf Publishing, 198<strong>3.</strong><br />
2. Meyers, Coal Handbook, Marchel Dkker, 1981.<br />
2. Mitchell, L.B., Coal Preparation, AIME, 1968.<br />
2. Osborne, D.G., Coal Preparation Technology, Vol. 1 & II<br />
2. Speight, J.G., The Chemistry and Technology of Coal, Marcel Dekker, Inc., 1994.<br />
2. Van Krevelen, Coal Science and Technolgy, Elsevier, 1981.<br />
2. Berkowitz, The Chemistry of Coal, Elsevier, 1985.<br />
TA4102 Mine Planning (Compulsory, 4 SKS)<br />
Short Syllabus<br />
To summarise and to synthesise the engineering and economics knowledge that are<br />
already understood into a modern open pit mine design and plan. The scope includes cutoff-grade<br />
and multi mineral equivalent, optimisation of pit limits (floating cone and<br />
Lerchs-Grossman methods), pit and pushback design, production scheduling, waste dump<br />
design, yearly plan, equipment and man power requirement, calculation of capital and<br />
operating costs, and financial evaluation. Project scheduling and environmental impact<br />
problems are discussed briefly. Semester project of mining pre-feasibility study using<br />
computer model is an important part of this course.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty.: ESMT – <strong>ITB</strong><br />
Related Courses<br />
Accumulation of all courses already taken (Prerequisite)<br />
References/Bibliography<br />
8. Hustrulid, W.A. and M. Kuchta, Mine Planning and Design, A.A. Balkema, 1995.<br />
8. Wright, E.A., Open Pit Mine Design Models, Trans. Tech. Publications, 1990.<br />
8. Kennedy, B.A., Surface Mining, 2nd ed., SME, 1990.<br />
8. Crawford, J.T. and W.A. Hustrulid, Open Pit Mine Planning and Design, SME, 1979.<br />
8. Gentry, D.W. and T.J., O’Neill, Mine Investment Analysis, SME, 1984.<br />
8. Weiss, A., Computer Methods for the 80’s in the Mineral Insutry, SME, 1979.<br />
FIKTM - <strong>ITB</strong> 19
Syllabus in English<br />
8. Lane, K.F., The Economics Definition of Ore, Mining Journal Books, 1991.<br />
TA4111 Underground Stability (Compulsory, 3 SKS)<br />
Short Syllabus<br />
This course is started with the types of underground excavation instabilities, followed by<br />
underground design methodology, field investigation, and laboratory tests. Graphical<br />
analysis and rock mass classification is introduced to predict the type of instability.<br />
Various types of supports, such as wood, steel, rock bolt, and concrete, including their<br />
calculations are given to improve the underground excavation stability. Stress distribution,<br />
pillar design, and numerical analysis are also given, and finally, the monitoring is<br />
discussed.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty.: ESMT – <strong>ITB</strong><br />
Related Courses<br />
7. Rock Mechanics (Prerequisite)<br />
7. Mining Systems (Prerequisite)<br />
7. Structural Geology (Prerequisite)<br />
7. General Petrology (Prerequisite)<br />
References/Bibliography<br />
0. Bieniawski, Z.T., Rock Mechanics Design in Mining and Tunneling, .A. Balkema,<br />
Rotterdam, 1984.<br />
6. Bieniawski, Z.T., Engineering Rock Mass Classification, John Wiley & Sons, New<br />
York, 1989.<br />
6. Szechy, The Art of Tunneling, Akademiai Kaido, 197<strong>3.</strong><br />
6. Made Astawa Rai, Diktat <strong>Teknik</strong> Terowongan, Jurusan <strong>Teknik</strong> <strong>Pertambangan</strong>, FTM-<br />
<strong>ITB</strong>, 1994<br />
6. Made Astawa Rai, Diktat Mekanika Batuan, Jurusan <strong>Teknik</strong> <strong>Pertambangan</strong>, FTM-<strong>ITB</strong>,<br />
1999.<br />
TA4121 Mineral Economics (Compulsory, 3 SKS)<br />
Short Syllabus<br />
This course covers the application of economics principles in mineral resources<br />
management, from preliminary and advanced exploration to economics feasibility study of<br />
mineral resources mining. The course mainly discusses the occurrence and distribution of<br />
minerals; exploration stages and functions, regional, national, and international supply &<br />
demand; mineral commodity analysis, financial method, cost structure, and capital cost<br />
components; mineral policy analysis and government roles, legal aspect; utilisation and<br />
market of mineral commodity; substitution and competition factors; economics and<br />
technology aspects of mineral business and its relation to the environment quality..<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty.: ESMT – <strong>ITB</strong><br />
FIKTM - <strong>ITB</strong> 20
Syllabus in English<br />
Related Courses<br />
4. Intro. to Earth Sciences and Mineral Technology (Prerequisite)<br />
4. Mine Investment Analysis (Prerequisite)<br />
References/Bibliography<br />
2. Gocht, W.R., H. Zantop, R.G. Eggert., International Mineral Economics., Springer-<br />
Verlag, Germany, 1988<br />
2. Howe, Charles W., Natural Resource Economics., John Wiley & Sons, N.Y. 1979<br />
2. Stermole, F.J, Stermole, J.M., Economic Evaluation and Investment Decision<br />
Methods., Investment Evaluations Corporation, Colorado, 1987<br />
2. Tilton, John E., G.E. Roderick, H.L. Hans, World Mineral Exploration, Trends and<br />
Economic Issues., Resources For The Future, Washington D.C, 1988<br />
2. Vogely, William A. (ed.), Economics of the Mineral Industries, Seeley W. Mudd<br />
Series, American Institute of Mining, Metallurgical, and Petroleum Engineers, Inc.,<br />
New York, 1985<br />
2. Wellmer, Friedrich-Wilhelm, Economic Evaluations in Exploration, Springer-Verlag,<br />
Germany, 1989<br />
TA4122 Mine Management (Compulsory, 3 SKS)<br />
Short Syllabus<br />
Basic principles of management and its development; characteristics of mining industry<br />
and national economics frame, management components, management level, management<br />
level, management process, strategic planning, organisation aspect, and human resource.<br />
Examples related to mining industry and equipment band human resource managements<br />
are also discussed.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty: ESMT – <strong>ITB</strong><br />
Related Courses<br />
6. Mining Systems (Prerequisite)<br />
6. Mining Equipment (Prerequisite)<br />
References/Bibliography<br />
2. Siregar, Ali Basyah, Samadhi, TMA Ari, Manajemen, 1th, Institut Teknologi Bandung.<br />
2. Sloan, Mine Management, Chapman and Hall, LTd., 198<strong>3.</strong><br />
2. Hartman (Ed)., SME Mining Engineering Handbook, 2 edition, Society for Mining,<br />
Metallulrgy and Exploration, Inc., Littleton, Colorado, 1992.<br />
2. K. Jackson, Jr. and N.L. Frifon, Management 2000, Van Nostrand Reinhold, New<br />
York, 1994.<br />
2. Gibson, Ivancevich and Donnelly, Organization, 5th ed., Bussiness Publications, Inc.,<br />
Plano Texas, 1985.<br />
FIKTM - <strong>ITB</strong> 21
Syllabus in English<br />
TA4142 Mining Environment (Compulsory, 2 SKS)<br />
Short Syllabus<br />
Relationship between mining and environment and the associated regulations,<br />
environmental impact of mining activities, impact management, community development,<br />
post mining planning and mine closure. In the impact management, the technical aspects<br />
are also discussed.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty.: ESMT – <strong>ITB</strong><br />
Related Courses<br />
5. Mining System (Prerequisite)<br />
5. Mining Equipment (Prerequisite)<br />
5. Mine Drainage (Prerequisite)<br />
References/Bibliography<br />
<strong>3.</strong> Hartman, Howard L., Introductory Mining Engineering. John Wiley & Sons, 1987.<br />
<strong>3.</strong> Undang-undang No. 23, 1997 Mengenai Ketentuan Pokok Pengelolaan Lingkungan<br />
Hidup.<br />
TA4241 Occ. Health-Safety and Labour Law (Compulsory, 2 SKS)<br />
Short Syllabus<br />
This course consists of two parts: Occupational Health and Safety (OHS) and Labour Law.<br />
The OHS covers the basic principles of OHS and the related regulations, mining accident,<br />
accident statistics, principles of accident prevention, accident analysis, and OHS<br />
management. The Labour Law consists of manpower policy and the related regulations,<br />
work relationship, work agreement, work protection, salary, manpower social security, and<br />
manpower-related issues.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty.: ESMT – <strong>ITB</strong><br />
Related Courses<br />
2. Mining Systems (Prerequisite)<br />
2. Mining Equipment (Prerequisite)<br />
References/Bibliography<br />
2. Gautama, R.S., Gautama A.S., Diktat Undang-Undang Tambang, Jurusan <strong>Teknik</strong><br />
Pertambangn <strong>ITB</strong>, 1997.<br />
2. Soepomo, I., Pengantar Hukum Perburuhan, Penerbit Djambatan, 1995.<br />
2. Undang-Undang No. 11 Tahun 1967<br />
2. Undang-Undang No. 25 Tahun 1997<br />
FIKTM - <strong>ITB</strong> 22
Syllabus in English<br />
TA4242 Mining Policy (Compulsory, 2 SKS)<br />
Short syllabus<br />
It discusses policies related to the mining sector, including laws and regulations in mining<br />
sector, history of Indonesian mining, mineral resource management and its relation to<br />
other sectors, laws and regulations that are related to or affect the mining activities, issues<br />
in mining sector such as sustainable mining development.<br />
Offered To<br />
SP: Mining Engineering<br />
Faculty.: ESMT – <strong>ITB</strong><br />
Related Courses<br />
4. Intro. to Earth Sciences and Mineral Technology (Prerequisite)<br />
4. Mining Systems (Prerequisite)<br />
References/Bibliography<br />
2. Keputusan Menteri <strong>Pertambangan</strong> & Energi No. 555.K/26/M.PE/1995 tentang<br />
Keselamatan & Kesehatan Kerja <strong>Pertambangan</strong> Umum<br />
2. Informasi & laporan K3 dari berbagai perusahaan tambang<br />
2. Soepomo, “Pengantar Hukum Perburuhan”, Penerbit Djambatan, Jakarta, 1995<br />
2. Wibowo, “Himpunan Peraturan Perundangan Ketenagakerjaan”, Penerbit Andi,<br />
Yogyakarta, 2002<br />
TA5211 Tunnelling (Elective, 2 SKS)<br />
Short Syllabus<br />
It discusses tunnel construction, from survey, plan, design, to excavation and supporting.<br />
Types of tunnel in civil and mining projects are also discussed.<br />
Offered To<br />
SP: Mining Engineering<br />
Related Courses<br />
4. Rock Mechanics (Prerequisite)<br />
4. Structural Geology (Prerequisite)<br />
4. General Petrology (Prerequisite)<br />
Faculty: ESMT – <strong>ITB</strong><br />
References/Bibliography<br />
<strong>3.</strong> Bieniawski, Z.T., Rock Mechanics Design in Mining and Tunneling, A.A. Balkema,<br />
Rotterdam, 1984.<br />
<strong>3.</strong> Bieniawski, Z.T., Engineering Rock Mass Classification, John Wiley & Sons, New<br />
York, 1989.<br />
<strong>3.</strong> Szechy, The Art of Tunneling, Akademiai Kaido, 197<strong>3.</strong><br />
<strong>3.</strong> Made Astawa Rai, Diktat <strong>Teknik</strong> Terowongan, Jurusan <strong>Teknik</strong> <strong>Pertambangan</strong>, FTM-<br />
<strong>ITB</strong>, 1994<br />
<strong>3.</strong> Made Astawa Rai, Diktat Mekanika Batuan, Jurusan <strong>Teknik</strong> <strong>Pertambangan</strong>, FTM-<strong>ITB</strong>,<br />
1999.<br />
FIKTM - <strong>ITB</strong> 23
Syllabus in English<br />
MG2101 Applied Mathematics (Compulsory, 3 SKS)<br />
Syllabus<br />
Scalar and vector field and function, anisotropy, vector calculus, gradient and divergence,<br />
Green, Gauss and Stoke theorems, ordinary differential equation modeling and its various<br />
solutions, periodic and non-periodic functions, Fourier series, partial differential equation<br />
modeling and its various solutions.<br />
Offered To (Members of PS)<br />
Dept. / PS: Mining Engineering<br />
Faculty : IKTM - <strong>ITB</strong><br />
Related Courses<br />
5. Basic Calculus, Prerequisite<br />
5. Matrix and Vector, Co-requisite<br />
References/Bibliography<br />
2. Kreyszig, E., Advanced Engineering Mathematics, John Wiley and Sons, 1999<br />
2. Purcell, E.J. & Varberg, D., Kalkulus dan Geometri Analitis, Prentice Hall, 1987<br />
MG2201 Numerical Methods (Compulsory, 3 Credits)<br />
Short Syllabus<br />
Interpolation, numerical differentiations, numerical integrations, solutions of simultaneous<br />
linear equations, solutions of single and simultaneous non-linear equations, solutions of<br />
ordinary and partial differential equations, data modeling.<br />
Offered To<br />
Program Study: Mining Engineering<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Basic Calculus, Prerequisit<br />
2. Matrices and Vectors, Prerequisit<br />
<strong>3.</strong> Computer Programming, Corequisit<br />
References/Bibliography<br />
1. Press, W.H. & Flannery, B.P. & Teukolsky, S.A. & Vetterling, W.T., Numerical<br />
Recipes in Pascal, 1994.<br />
2. Carnahan, B. & Luther, H.A. & Wilkes, J.O, Applied Numerical Methods, 1969.<br />
<strong>3.</strong> Davis, J.C., Statistic and Data Analysis in Geology, 197<strong>3.</strong><br />
4. Harbaugh, J.W. & Carter, G.B., Computer Simulation in Geology, 1981.<br />
5. Conte, S.D, Elementary Numerical Analysis, 1981.<br />
MG2221 Metallurgical Thermodynamics (Compulsory, 3 SKS)<br />
Syllabus<br />
Studies the application of thermodynamic laws and macro thermodynamics concepts to<br />
explain the equilibrium condition and other conditions where phase transformation,<br />
chemical processes, and electrochemical processes occurr. Complete explanation about<br />
FIKTM - <strong>ITB</strong> 24
Syllabus in English<br />
thermodynamics of metal solution and aqueous solution, activity concept, alternative<br />
standard state, and interaction parameter of multi component dilute solution. Evaluation of<br />
experimental data and thermodynamics of phase diagram.<br />
Offered To (Members of PS)<br />
Dept. / PS: Mining Engineering<br />
Faculty of: IKTM`- <strong>ITB</strong><br />
Related Courses<br />
2. Physical Chemistry, Prerequisite<br />
2. Thermodynamic of Material, Prohibition<br />
References/Bibliography<br />
2. Ragone D.V., Thermodynamics of Materials, Vol. I, MIT, 1995.<br />
2. Bodsworth C. & Appleton A.S., Problems in Applied Thermodynamics, 1965<br />
2. Gaskell D.R., Introduction to The Thermodynamics of Materials, 3 rd edition, McGraw-<br />
Hill, 1995.<br />
2. Rao Y.K., Stoichiometry and Thermodynamics of Metallurgical Process, Univ.of<br />
Washington, 1985 (untuk simulasi kesetimbangan multi komponen).<br />
2. Jef Roos and Wollants P., Thermodynamica en kinetica voor Materiaalkundigen, Vol 1,<br />
Chemisch Evenwicht, ACCO, 199<strong>3.</strong><br />
2. Lee, H.G., Chemicals Thermodynamics for Metals and Materials, Imperial College<br />
Press, 1999.<br />
MG2222 Metallurgical Kinetics (Compulsory, 3 SKS)<br />
Syllabus<br />
Understanding of Arrhenius equation, activation energy, collision and transition state<br />
theory. Understanding of homogenous and heterogeneous kinetics modeling. Methods for<br />
analyzing homogenous reaction laboratory data: integral method, differential method, and<br />
half time method. Understanding of kinetics heterogeneous reaction for several solid<br />
reactant geometries: flat, sphere, and cylinder. Modeling approach of sphere geometry<br />
heterogeneous kinetics: progressive-conversion and shrinking core model. Examples of<br />
kinetics practice in hydro-electrometallurgy and pyrometallurgy.<br />
Offered To (Members of PS)<br />
Dept. / PS: Mining Engineering<br />
Faculty of: IKTM - <strong>ITB</strong><br />
Related Courses<br />
-<br />
References/Bibliography<br />
6. Habashi, F., Principles of Extractive Metallurgy, Vol. I, London, 1976<br />
6. Haung, H.H. : Fundamentals – Mass Transfer and Reaction Kinetics in Unit Process in<br />
Extractive Metallurgy, Hydrometallurgy by L.G. Twidwell (Editor), 1980.<br />
6. Levenspiel, O., Chemical reaction Engineering, 2nd Ed. John Wiley and Sons, New<br />
York, Chap 2, 1972.<br />
6. Mackowiak, J, Physical Chemistry for Metallurgists, 2nd Ed. George Allen and Unwin<br />
Ltd., London, 1966.<br />
6. Sohn, H.Y. and M.E. Wadsworth (Eds), Rate Process of Extractive Metallurgy,<br />
Plenum Press, New York, 1979.<br />
FIKTM - <strong>ITB</strong> 25
Syllabus in English<br />
6. Smith, J.M., Chemical Engineering Kinetics, 2nd McGraw-Hill, 1970.<br />
6. Artikel Ilmiah tentang Kinetika dari berbagai Jurnal Ilmiah.<br />
6. Faraz Umar, TA-332 Kinetika Metalurgi, Diktat Kuliah, <strong>ITB</strong>, Bandung, 2002<br />
MG3111 Mineral Processing A (Compulsory, 4 Credits)<br />
Short Syllabus<br />
Principles of comminution (crushing and grinding), screening and sieving, classification,<br />
comminution theory, sieve analysis, degree of liberation, sampling, material and<br />
metallurgical balances, theory and unit operation of mineral separation by gravity,<br />
magnetic, electrostatic, and flotation concentrations, efficiency test of concentration.<br />
Offered To<br />
Program Study: Mining Engineering<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Mineralogy, Prerequisit<br />
2. Physics, Prerequisit<br />
References/Bibliography<br />
1. Burt, R.O., Gravity Concentration Technology, Elsevier, 1984.<br />
2. Kelly, F.C., and Spottiswood, D.J., Introduction to Mineral Processing, John Wiley &<br />
Sons, 1982.<br />
<strong>3.</strong> Weis, N.L. (Ed), SME Mineral Processing handbook, vol. 1, 1985.<br />
4. Wills, Mineral Processing Technology, Pergamon Press, 1989.<br />
MG3112 Unit Operations (Compulsory, 3 Credits)<br />
Short Syllabus<br />
Fluid dynamics: viscosity, surface tension; Dewatering: sedimentation, settling pond,<br />
filtration, thickener; Materials Handling: industrial screening, circulating loads,<br />
transportation via pipe; Pumps and Compressors: cavity, shaft power and efficiency of<br />
pumps, pump construction, pump operation, serial and parallel pumps, compressor;<br />
Fluidized bed technology.<br />
Offered To<br />
Program Study: Mining Engineering<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
Mineralogy, Prerequisit<br />
References/Bibliography<br />
1. Ronald V. Giles, Schaum’s Outline Series : Fluid Mechanics and Hydraulics, Mc. Graw<br />
Hill, 198<strong>3.</strong><br />
2. Sularso & Haruo Tahara, Pompa dan Kompresor, Pradnya Paramita, 1996.<br />
<strong>3.</strong> E. G. Kelly & D. J. Spottiswood, Introduction to Mineral Processing, John Wiley &<br />
Sons, 1982.<br />
FIKTM - <strong>ITB</strong> 26
Syllabus in English<br />
MG3121 Calculations in Metallurgical Processes (Compulsory, 4 SKS)<br />
Syllabus<br />
The usages of thermodynamics concepts in explaining mechanism of metallurgical process<br />
units. Mass and heat balance calculation in several units in extractive metallurgical<br />
processes. The usage of simple binary and ternary diagrams and stability diagrams.<br />
Physical and chemical properties of slag. Equilibrium and kinetic of electrodic reaction,<br />
potential-pH diagram construction and application in several temperatures, and<br />
polarization curve application in electrodic processes.<br />
Offered To (Members of PS)<br />
Dept. / PS: Mining Engineering<br />
Faculty of: IKTM - <strong>ITB</strong><br />
Related Courses<br />
8. Thermodynamics of Metallurgy, Prerequisite<br />
8. Kinetics of Metallurgy, Prerequisite<br />
References/Bibliography<br />
2. Rosenqvist T., Principles of Extractive Metallurgy, McGraw-Hill, 198<strong>3.</strong><br />
2. Coudurier, L., Hopkins D.W., Wilkomirsky I., Fundamental of Metallurgical Process,<br />
Pergamon Press, 1978.<br />
2. Bockris, J.O.M. and Reddy, A.K., Modern Electrochemistry, Vol. II, Plenum/Rosseta,<br />
1977.<br />
2. Barner, H.E. and Scheuerman, R.V., Handbook of Thermochemical Data for<br />
Compounds and Aqueous Species, John Wiley and Sons ,1978.<br />
2. Gaskel, D.R., Introduction to The Thermodynamics of Materials, 3 rd Ed. Taylor &<br />
Francis, 1995.<br />
MG3122 Transport Phenomena in Metallurgy (Compulsory, 3 SKS)<br />
Syllabus<br />
Phenomena of momentum, heat, and mass transport. Basic laws in transport phenomena,<br />
formulation of neraca sel equation with geometry factor, and mathematical solution.<br />
Transport properties: steady/un-steady state system, system that consists generation, and<br />
combined transport. Several applications in process.<br />
Offered To (Members of PS)<br />
Dept. / PS: Mining Engineering<br />
Faculty of: IKTM - <strong>ITB</strong><br />
Related Courses<br />
5. Differential Equations, Prerequisite/ Co-requisite<br />
5. Physical Chemistry, Prerequisite/ Co-requisite<br />
5. Thermodynamics, Prerequisite/ Co-requisite<br />
References/Bibliography<br />
<strong>3.</strong> D.R. Gaskel, An Introduction to Transport Phenomena in Materials Engineering,<br />
Macmillan Publishing Co., 1992.<br />
FIKTM - <strong>ITB</strong> 27
Syllabus in English<br />
<strong>3.</strong> S. Soepriyanto, Pengantar Fenomena Perpindahan dengan Faktor Geometri, Diktat<br />
Kuliah <strong>ITB</strong>, 200<strong>3.</strong><br />
<strong>3.</strong> Geiger and Poirier, Transport Phenomena in Metalurgy, McGraw-Hill, 197<strong>3.</strong><br />
<strong>3.</strong> Bird, Stewart, and Lightfoot, Transport Phenomena, John Wiley & Sons, 1960.<br />
MG3131 Physical Metallurgy (Compulsory, 4 SKS)<br />
Short Syllabi<br />
Relationship between microstructures of metals and alloys and physical metallurgy.<br />
Crystal structures of metals, crystal defects, elastic and plastic deformations, theoretical<br />
concepts of alloy strength, strengthening mechanisms of metals and alloys. Testing of<br />
mechanical properties, x-ray diffraction analysis, metallography. Phase diagrams, steel and<br />
sact iron phase diagrams and their microstructures. Alloys of Al, Cu and Ni and basics of<br />
alloy heat treatment. Diffusion in alloys.<br />
Offered To(PS Peserta)<br />
Department of metallurgical Engineering<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Crystallography, Prerequisit<br />
2. Static and Strength of Materials, Prerequisit<br />
References/Bibliography<br />
1. Reed-Hill, R.E., Abbaschian, R., Physical Metallurgy Principles, PWS-Kent<br />
Publishing Company, Boston, 1992.<br />
2. Verhoeven, J.D., Fundamentals of Physical Metallurgy, John Wiley&Sons, 1975.<br />
<strong>3.</strong> Avner, S.H., Introduction to Physical Metallurgy, McGraw-Hill, 1974.<br />
4. Smallman, R.E., Modern Physical Metallurgy, Butterworth, 1985.<br />
5. Sinha, K., Ferrous Physical Metallurgy, Elsevier, 1990.<br />
6. Basuki, E. A., Buku Ajar Metalurgi Fisika, 200<strong>3.</strong><br />
MG3211 Coal Processing and Utilization (Compulsory, 3 Credits)<br />
Short Syllabus<br />
Introduction to coal quality: its origin and parameters. Role of coal as an energy source<br />
for industry. Coal preparation and washing. Coal pirolysis, gasification, and liquefaction.<br />
Clean coal technology.<br />
Offered To<br />
Program Study: Mining Engineering<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
-<br />
References/Bibliography<br />
1. Eliot, Chemistry of Coal Utilization, John Wiley & Sons, 1981.<br />
2. Edgar, Coal Processing and Pollution Control, Gulf Publishing, 198<strong>3.</strong><br />
<strong>3.</strong> Meyers, Coal Handbook, Marcel Dekker, 1981.<br />
FIKTM - <strong>ITB</strong> 28
Syllabus in English<br />
4. Mitchell, L.B., Coal Preparation, AIME, 1968.<br />
5. Osborne, D.G., Coal Preparation Technology, Vol. 1 & II<br />
6. Speight, J.G., The Chemistry and Technology of Coal, Marcel Dekker, Inc., 1994.<br />
7. Van Krevelen, Coal Science and Technology, Elsevier, 1981.<br />
8. Berkowitz, The Chemistry of Coal, Elsevier, 1985.<br />
MG3212 Industrial Mineral Utilization (Compulsory, 3 Credits)<br />
Short Syllabus<br />
Introduction to industrial minerals: their potentials to be utilized in industry. Industrial<br />
minerals properties as basic commodities, their processing, and their requirements needed<br />
in industry. Process analyses of cement, ceramic, and refractory makings, and other<br />
processes in industry both as basic and inter product commodities. Phase diagrams<br />
especially for oxides in order to maintain quality of product.<br />
Offered To<br />
Program Study: Mining Engineering<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
-<br />
References/Bibliography<br />
1. Lefond, S.J., Industrial Mineral and Rocks, 198<strong>3.</strong><br />
2. Johnstone, Minerals for the Chemicals and Allied Industries.<br />
<strong>3.</strong> Norton, Refractories, McGraw-Hill 1977.<br />
4. Kingery, Bower and Uhlman, Introduction to Ceramics, John Wiley 1976.<br />
5. Jan Bijen, Blast Furnace Slag Cement.<br />
6. Ghost, Cement and Concrete Science & Technology, ABI Books, 1991.<br />
7. Banerjea, Technology of Portland Cement and Blended Cement, Wheeler Publishing,<br />
1980.<br />
MG3213 Mineral Processing B (Compulsory, 3 Credits)<br />
Short Syllabus<br />
Basic knowledge on crushing, grinding, sizing and techniques in separation of valuable<br />
minerals from their gangues based on their physical properties in order to produce<br />
concentrate which meets consument requirements.<br />
Offered To<br />
Program Study: Mining Engineering<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
-<br />
References/Bibliography<br />
1. Wills, Mineral Processing Technology, Pergamon Press, 1977.<br />
2. Pryor, Mineral Processing, Mining Publication, 1960.<br />
<strong>3.</strong> Robert, Mineral Processing, Pergamon Press, 196<strong>3.</strong><br />
FIKTM - <strong>ITB</strong> 29
Syllabus in English<br />
4. Kelly, F.C., and Spottiswood, D.J., Introduction to Mineral Processing, John Wiley &<br />
Sons, 1982.<br />
5. Currie J.H., Unit Operation in Mineral Processing, DCMT, 197<strong>3.</strong><br />
6. SME Mineral Processing Handbook, Vol. 1., N.L. Weiss (editor), 1985.<br />
7. Taggart, A.F., Handbook of Mineral Dressing, John Wiley & Sons, 1954.<br />
MG3231 Phase Transformation and Heat-tretment (Compulsory, 3 SKS)<br />
Short Syllabi<br />
Annealing of steels, recovery, recrystallization and grain-growth. Diffusion induced phase<br />
transformation, nucleation, growth and coarsening of precipitates,. Age-hardening of Al,<br />
and Ni alloys. Diffusionless phase transformation, quench hardening and tempering of<br />
steels. Surface haedening, carburizing, nitriding, nitrocarburizing, carbonitriding. Post<br />
carburizing heat treatment.<br />
Offered To(PS Peserta)<br />
Dept. Tek. <strong>Pertambangan</strong><br />
Fak: IKTM - <strong>ITB</strong><br />
Related Courses<br />
Physical metallurgy, Prerequisit<br />
References/Bibliography<br />
1. Porter, D.A., and Easterling, K.E., Phase Transformation in Metals and Alloys,<br />
Chapman & Hall, Second Edition, 1992.<br />
2. Brooks, C.R., Heat Treatment, Structure and Properties of nonferrous Alloys,<br />
American Society for Metals, 1982.<br />
<strong>3.</strong> Martin, J.W., and Doherty, R.D., Stability of Microstructure in Metallic Systems,<br />
Cambridge University Press, 1976.<br />
4. Cahn, R.W., Haasen, P., and Kramer, E.J., Phase Transformations in Materials, in<br />
Materials Science and Technology, A Comprehensive Treatment, VCH Publishers Inc.,<br />
1991.<br />
5. Polmear, I.J., Light Alloys, Metallurgy of The Light Alloys, Edward Arnold. 1989.<br />
6. Glicksman, M.E., Diffusion in Solids, John Wiley and Sons, 2000.<br />
7. Basuki. E.A., Buku Ajar Transformasi Fasa dan Perlakuan Panas, Dept. Tek.<br />
<strong>Pertambangan</strong>, <strong>ITB</strong>, 200<strong>3.</strong><br />
MG4101 Metal Forming Technique (Wajib, 3 SKS)<br />
Short sylabi<br />
Continum mechanic concept, plasticity theory, stress-strain analysis, yield criteria.<br />
Clasification of metal forming and examples of various metal forming products. Force and<br />
work energy calculation for various metal forming . Metallurgical engineering concepts to<br />
obtain better formability and standards of deformation boundaries for metals.<br />
Offered To(PS Peserta)<br />
Dept/PS: Tek. <strong>Pertambangan</strong><br />
Fak: IKTM/FTI - <strong>ITB</strong><br />
FIKTM - <strong>ITB</strong> 30
Syllabus in English<br />
Related Courses<br />
1. Physics - mechanics, Prerequisit<br />
2. Physical metallurgy, Prerequisit<br />
References/Bibliography<br />
1. Dieter, G.E., Mechanical Metallurgy, SI-Metric, Ed., McGraw-Hill, 1988.<br />
2. Chawla, Mechanical Metallurgy, McGraw-Hill, 1992.<br />
<strong>3.</strong> Kalpakjian, S., Manufacturing Processes for Engineering Materials, Addison Wasley,<br />
1992.<br />
4. Prosiding Simposium Besi-baja Nasional, <strong>ITB</strong>, 1996.<br />
5. ASM-International, Metals Handbook, vol.5 : Forming of Metals, 10 th Ed., 1990.<br />
MG4121 Hydro-Electrometallurgy (Compulsory, 3 SKS)<br />
Syllabus<br />
Study of metal extraction by using leaching agent. Explanation of several theories that<br />
support it, latest developments in process, leaching method, and recovery, and its<br />
application in industries. In addition, the explanation of several methods in electrowining,<br />
electrorefining, electrodissolution, electroplating, and metal anodization by using DC or<br />
electrolitically.<br />
Offered To (Members of PS)<br />
Dept. / PS: Mining Engineering<br />
Faculty of: IKTM - <strong>ITB</strong><br />
Related Courses<br />
-<br />
References/Bibliography<br />
4. Butler, J.N., Ionic Equilibrium, A Mathematical Approach, Addison-Wesley, London,<br />
1964.<br />
4. Breet C.M.A. and Breet A.M.O., Electrochemistry, Principles, Methods and<br />
Application, Oxford University Press., Oxford, 199<strong>3.</strong><br />
4. Habashi, F., A Textbook of Hydrometallurgy, Metallurgie Extractive Quebec, Enr.,<br />
Quebec, 199<strong>3.</strong><br />
4. Gjortheim, K. and Welch B.J., Aluminium Smelter Technology, Aluminium Verlag,<br />
Dusserldorf, 1987.<br />
4. Jackson, E, Hydrometallurgical Extraction and Reclamation, Ellis Horwood & Sons,<br />
New York, 1986.<br />
4. Marsden, J and I House, The Chemistry of Gold Extraction, Ellis Horwood, New<br />
York, 199<strong>3.</strong><br />
4. Umar, Faraz, Hidrometallurgi, Diktat & Kuliah <strong>ITB</strong>/PAU Ilmu Rekayasa, Bandung,<br />
2002 (Pengembangan)<br />
4. Umar Faraz, Elektrometallurgi, Diktat Kuliah <strong>ITB</strong>/PAU Ilmu Rekayasa, Bandung,<br />
2002 (Pengembangan)<br />
4. Artikel ilmiah dari berbagai jurnal ilmiah terbaru.<br />
FIKTM - <strong>ITB</strong> 31
Syllabus in English<br />
MG4122 Pyrometallurgy (Compulsory, 3 SKS)<br />
Syllabus<br />
Fundamental characteristics of units in pyrometallurgical process for extraction and<br />
refining of non-ferrous metals. Thermodynamics and kinetics theories are implemented for<br />
explaining interaction and equilibrium between phases in the system, including calculation<br />
examples as its analysis fundamental and process evaluation. Several examples of<br />
important metals extraction and refining are described, i.e. copper, nickel, zinc, tin, and<br />
lead.<br />
Offered To (Members of PS)<br />
Dept. / PS: Mining Engineering<br />
Faculty of: IKTM - <strong>ITB</strong><br />
Related Courses<br />
9. Thermodynamics of Metallurgy, Prerequisite<br />
9. Kinetics of Metallurgy, Prerequisite<br />
9. Calculation in Metallurgical Processes, Prerequisite<br />
References/Bibliography<br />
<strong>3.</strong> Alcock, Principles of Pyrometallurgy, Academic Press, 1976.<br />
<strong>3.</strong> Coudourier, Fundamental of Metallurgical Process, Pergamon Press, 1978<br />
<strong>3.</strong> Rosenqvist, Principles of Extractive Metallurgy, McGraw-Hill, 198<strong>3.</strong><br />
<strong>3.</strong> Rao, Y.K., Stoichiometry and Thermodynamics of Metallurgical Processes,<br />
Cambridge University Press, 1985<br />
<strong>3.</strong> Soetjipto, R.B., Pirometalurgi Logam-logam Non-Ferro, Diktat Kuliah, <strong>ITB</strong>, 2002.<br />
MG4131 Foundry Technology (Compulsory, 2 SKS)<br />
Short Syllabi<br />
Principles of metal casting, moulding materials, sand testing, pattern making, fluidity of<br />
fluid metals. Solidification of metals, effects of thermal gradient and solidification gap on<br />
the grain staructures of casting.. Gating systems and design, risers and risers design, chill.<br />
Calculation of gating and riser dimensions. Melting practices and alloying, inspection and<br />
finishing. Casting defects, causes and preventions.<br />
Offered To(PS Peserta)<br />
Dept/PS: Tek. <strong>Pertambangan</strong><br />
Nd<br />
Fak: : IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Metalurgi Fisika, Prerequisit<br />
2 Transformasi Fasa, Prerequisit<br />
<strong>3.</strong> Fenomena Transport, Prerequisit<br />
References/Bibliography<br />
1. Beeley P.R., Foundry Technology<br />
2. Flint, Fundamental of Metal Casting, Adiwes.<br />
<strong>3.</strong> Carl Loper, Rosenthal, Principles of Metals Casting, McGraw Gill<br />
4. Sylvia J.G., Cast Metals Technology<br />
FIKTM - <strong>ITB</strong> 32
Syllabus in English<br />
5. International Atlas of Casting Defect, AFS.<br />
MG4123 Iron and Steel Metallurgy (Compulsory, 3 SKS)<br />
Syllabus<br />
Descriptions of iron and steel making in general with its installation equipments.<br />
Understanding of thermodynamics and kinetics principles in blast furnace iron and steel<br />
making. Alternative iron making processes, especially the direct reduction and smelting<br />
reduction processes. Basic oxygen furnace processes, electric furnace steel making,<br />
secondary steel making, stainless steel and continuous casting.<br />
Offered To (Members of PS)<br />
Dept. / PS: Mining Engineering<br />
Faculty of: IKTM - <strong>ITB</strong><br />
Related Courses<br />
5. Thermodynamics of Metallurgy, Prerequisite<br />
5. Kinetics of Metallurgy, Prerequisite<br />
5. Calculation in Metallurgical Processes, Prerequisite<br />
5. Pyrometallurgy, Prerequisite<br />
References/Bibliography<br />
4. Bodsworth, Physical Chemistry of Iron and Steel Manufacture, Longmans Green,<br />
1965.<br />
4. Biswas, A.K., Principles of Blast Furnace Ironmaking, Cootha Publ.,1980.<br />
4. Deo, B. and Boom, R., Fundamentals of Steel Making Metallurgy, Prentice Hall, 199<strong>3.</strong><br />
4. Turkdogan, E.T., Fundamentals of Steel Making, The Institute of Materials, London,<br />
1996.<br />
4. Fruehan, R. J., The Making, Shaping, and Treating of Steel, Steelmaking and Refining<br />
Volume, The AISE Steel Foundation, 1998.<br />
4. AISE, The Making, Shaping and Treating of Steel, Ironmaking Volume, The AISE<br />
Foundation, Edisi ke-11, Pitsburg, 1999.<br />
4. Soetjipto, R.B., Metalurgi Besi dan Baja, Diktat Kuliah, <strong>ITB</strong>, 2002.<br />
MG4251 Corrosion Control (Compulsory, 3 SKS)<br />
Short sylabi<br />
Mechanisms of metal degradation and kinetics due to aqueous corrosion, corrosion forms,<br />
degradation beharvious and corrosion control technology and material selection. Corrosion<br />
rate determination, aqueous corrosion tests and description on corrosive environments in<br />
various places and operations. Principles and design of catodic and anodic protections.<br />
Mechanism and kinetics of high temperature corrosion. Application of corrosion resistance<br />
materials.<br />
Offered To(PS Peserta)<br />
Dept/PS: Tek. <strong>Pertambangan</strong><br />
Fak: IKTM - <strong>ITB</strong><br />
Related Courses<br />
1. Termodinamika Metalurgi, Prerequisit<br />
FIKTM - <strong>ITB</strong> 33
Syllabus in English<br />
2. Perhitungan – perhitungan dalam Metalurgi Proses, Prerequisit<br />
<strong>3.</strong> <strong>Teknik</strong> Pengendalian Korosi, Prohibition<br />
4. Proses Elektrokimia Material, Prohibition<br />
References/Bibliography<br />
1. Purwadaria, S., Diktat Kuliah Korosi Aqueous dan Pengendaliannya, 2002.<br />
2. Jones, D.A., Principles and Prevention of Corrosion, Maxwell McMillan, 1995.<br />
<strong>3.</strong> Roberge, P.R., Handbook of Corrosion Engineering, McGraw-Hill, 2000.<br />
4. Shreir et al, Corrosion, Vol 1 & II, 3 rd Edd., Butterworth-Heinemann, 1995.<br />
5. Briks, N. and Meier, G.H., Introduction to High Temperature Oxidation of Metals,<br />
Edward Arnold, 198<strong>3.</strong><br />
MG5101 Process Control (Compulsory, 3 SKS)<br />
Syllabus<br />
Introduction. Laplace Transformation. Response from first and second order systems.<br />
Fundamental process control components consist of measurement, decision making and<br />
action. Block diagram. Transfer function for closed loop. Stability concept. Plant and<br />
instrumentation diagrams. P-PI-PID loop tuning. Introduction to computer application in<br />
process control. Examples of process control application in mineral processing and<br />
metallurgy industries.<br />
Offered To (Members of PS)<br />
Dept. / PS: Mining Engineering<br />
Faculty of: IKTM - <strong>ITB</strong><br />
Related Courses<br />
Matematika Terapan, Prerequisite<br />
References/Bibliography<br />
7. Coughanowr, D.R., Process System Analysis and Control, second edition, McGraw-<br />
Hill, 1991<br />
7. Smith, C.A., and Corripio, A.B., Principles and Practice of Automatic Process<br />
Control, second edition, John Wiley & Sons, 1997.<br />
7. Flintoff, B.C., dan Mular, A.L., A Practical Guide to Process Controls in Minerals<br />
Industry, University of British Columbia- Brenda Mines Ltd.-The Mining Industriy<br />
Technology Council of Canada, 1992.<br />
7. Stephanopoulos, Chemical Process Control, Prentice-Hall, 1984.<br />
7. Paper-paper yang berhubungan.<br />
MG5221 Plant Design of Extractive Metallurgy (Preference, 3 SKS)<br />
Syllabus<br />
Study of design method, calculation, and other aspects that related in planning<br />
hydrometallurgy and electrometallurgy plant construction. This study describes the way in<br />
selecting equipments and the technique to calculate equipment, plant capacity, and its<br />
economic factors as well.<br />
FIKTM - <strong>ITB</strong> 34
Syllabus in English<br />
Offered To (Members of PS)<br />
Dept. / PS: Mining Engineering<br />
Faculty of: IKTM - <strong>ITB</strong><br />
Related Courses<br />
--<br />
References/Bibliography<br />
5. Fine, H.A. and Geiger G.H., Handbook on Material Balance and Energy Balance<br />
Calculation in Metallurgical Processes, The Metallurgical Society of AIME, New<br />
York, 1979.<br />
5. Frank J.V.R., Project Evaluation in the Chemical Process Industries, New York, 198<strong>3.</strong><br />
5. Van Zyl, D.J.A., Hushison I.P.G. and Kiel J.E., Society of Mining Engineering Inc.,<br />
Littleton, Colorado, 1988.<br />
5. Umar, Faraz, Perencanaan Pabrik Hidro-Elektrometallurgi, Diktat Kuliah, Departemen<br />
<strong>Teknik</strong> <strong>Pertambangan</strong> IKTM-<strong>ITB</strong>, 200<strong>3.</strong><br />
MG5211 Mill Plant Design (Limited Choice, 3 Credits)<br />
Short Syllabus<br />
Mill selection with regard to mine location, to water sources, to tailings disposal, to<br />
topography of mill site, etc. Smelter schedule and its benefit. Designing of a mill plant: its<br />
calculation of material and water balances, and selection of equipments. Plant layout and<br />
drawing. Estimation of plant investment.<br />
Offered To<br />
Program Study: Mining Engineering<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
Mineral Processing or Unit Operations, Prerequisit<br />
References/Bibliography<br />
1. Newton, Chemical Engineering Cost Estimation, McGraw-Hill, 1955<br />
2. Denver, Modern Numerical Processing Flowsheet<br />
<strong>3.</strong> Denver, Equipment Handbook<br />
4. Weiss, Mineral Processing Handbook, SME, 1985.<br />
5. Mular, Manual Processing Plant design and Economic for Chemical Engineering,<br />
McGraw-Hill, 1968.<br />
6. Mular, Mineral Processing Equipment Cost and Preliminary Capital Cost Estimation,<br />
1978.<br />
7. Rexnold, Reference Manual - Nodberg Process Machinery, 1976.<br />
8. Pegson, Aggregate Producers Handbook.<br />
9. Leaflet and other manuals.<br />
FIKTM - <strong>ITB</strong> 35
Syllabus in English<br />
MG5212 Advance Mineral Processing (Limited Choice, 3 Credits)<br />
Short Syllabus<br />
Capillarity, Adsorption from liquid, Electrical double layer, Zeta potential calculation,<br />
Flotation thermodynamics, Cationic flotation of oxide and silicate minerals, Anionic<br />
flotation of oxide and silicate minerals, Electrochemical of sulphide minerals, Flotation<br />
kinetics, Water quality: coagulation, flocculation, sedimentation, and filtration,<br />
Management of cyanidation process waste, Air pollution, Mathematical modeling of<br />
mineral process operation.<br />
Offered To<br />
Program Study: Mining Engineering<br />
Faculty: IKTM - <strong>ITB</strong><br />
Related Courses<br />
-<br />
References/Bibliography<br />
1. Jaycock, M.J., Parfitt, G.D., Chemistry of Interfaces, John Wiley & Sons, 1981.<br />
2. Paul C. Hiemenz, Principles of Colloid and Surface Chemistry, Marcel Dekker, Inc.,<br />
New York and Basel, 1986.<br />
<strong>3.</strong> Adamson, A.W., Physical Chemistry of Surfaces, John Wiley & Sons. Inc, 1990.<br />
4. Hunter, R.J., Zeta Potential in Colloid Science, Principles and Applications, Academic<br />
Press, 1981.<br />
5. Lynch, A.J., et. al, Mineral and Coal Flotation Circuits, Elsevier, 1981.<br />
6. Mathematical Modeling in Chemical Processes.<br />
MG5222 Advanced Metallurgical Process (Preference, 3 SKS)<br />
Syllabus<br />
Application of thermodynamics and kinetics calculation in common multi components and<br />
multi phases systems, which are used for metal extraction and refining process designs.<br />
Several examples will be discussed, such as: mass and energy balance calculation of<br />
complex systems, equilibrium of complex sulphide roasting process. Multi-component<br />
equilibrium in slag-metal-gas system in iron making, etc.<br />
Offered To (Members of PS)<br />
Dept. / PS: Mining Engineering<br />
Faculty of: IKTM - <strong>ITB</strong><br />
Related Courses<br />
4. Thermodynamics of Metallurgy, Prerequisite<br />
4. Kinetics of Metallurgy, Prerequisite<br />
4. Calculation in Metallurgical Processes, Prerequisite<br />
References/Bibliography<br />
<strong>3.</strong> Alcock, Principles of Pyrometallurgy, Academic Press, 1976.<br />
<strong>3.</strong> Coudourier, Fundamental of Metallurgical Process, Pergamon Press, 1978<br />
<strong>3.</strong> Fine, H.A. and Geiger, G.H., Handbook on Material and Energy Balance Calculations<br />
in Metallurgical Processes, The Metallurgical Society of AIME, 1979.<br />
<strong>3.</strong> Rosenqvist, Principles of Extractive Metallurgy, McGraw-Hill, 198<strong>3.</strong><br />
FIKTM - <strong>ITB</strong> 36
Syllabus in English<br />
<strong>3.</strong> Rao, Y.K., Stoichiometry and Thermodynamics of Metallurgical Processes,<br />
Cambridge University Press, 1985<br />
<strong>3.</strong> Soetjipto, R.B., Kumpulan kasus-kasus metalurgi proses, dalam persiapan.<br />
MG5231 Alloy Design and Casting (Pilihan Wajib, 3 SKS)<br />
Short sylabi<br />
Design methodology: stages and activities on engineering design. Design criteria,<br />
properties and important factors in alloy design and selection. Application of metal charts,<br />
and relation between various alloy and other materials. Properties and selection of steels<br />
and cast irons and non-ferrous. Concepts of alloy development for various applications<br />
and components, alloy making practices.<br />
Offered To(PS Peserta)<br />
Dept/PS: TA<br />
Fak: IKTM - <strong>ITB</strong><br />
Related Courses<br />
Transformasi Fasa dan Perlakuan Panas, Prerequisit<br />
References/Bibliography<br />
1. Mangonon, P.L., The Principles of Materials Selection for Engineering Design,<br />
Prentice-Hall International, Inc., 1999.<br />
2. ……, Materials Selection and Design, ASM, 1997.<br />
<strong>3.</strong> Davis, J.R., Alloying: Understanding the Basics, ASM, 2001.<br />
4. Donachie, M.J., and Donachie, S.J., Superalloys, ASM International, 2002.<br />
5. Davis, J.R., Stainless Steels, ASM International, 1994.<br />
MG5232 Advanced Physical Metallurgy (Wajib, 3 SKS)<br />
Short syllabi<br />
Discuss metal structures and crystallography, mechanical properties of metals and<br />
mechanical tests. Alloy constitutions and phase diagrams will be given. Crystal defects<br />
and dislocation theory as the basic for metal deformation will be further discussed in<br />
detail. Annealing and hot working, kinetics of heat treatment (TTT, CCT diagrams), and<br />
phase transformation is given in heat treatment. Desiagn and classification of alloys will<br />
be discussed in general. Principles of solidification is offered in relation with casting and<br />
welding. Relation between alloy, microstructure and process, with mechanical aspects<br />
such as brittle and ductile fractures, deformation at high temperature (creep and rupture),<br />
fracture mechanics, metal fatigue.<br />
Offered To (PS Peserta)<br />
Dept : Tek. <strong>Pertambangan</strong> Fak : IKTM <strong>ITB</strong><br />
Related Course<br />
-<br />
References / Bibliography<br />
FIKTM - <strong>ITB</strong> 37
Syllabus in English<br />
1. Physical Metallurgy Principles 3 rd Ed, Reed Hill, PWS-KENT, Publishing<br />
Company,1992<br />
2. Introduction to Physical Metallurgy, Avner, McGraw Hill, 1987.<br />
<strong>3.</strong> Mechanical Metallurgy, Dieter, McGraw-Hill, 1986.<br />
4. Deformation and Fracture Mechanics of Engineering Materials, Hertzberg, Willey,<br />
198<strong>3.</strong><br />
FIKTM - <strong>ITB</strong> 38
Syllabus in English<br />
FIKTM - <strong>ITB</strong> 39