3. Prodi Teknik Pertambangan (S-1) - ITB

Syllabus in English 

3. Prodi Teknik Pertambangan (S-1) 

TE2201 Numerical Methods (Compulsory, 3 Credits) 

Short syllabus 

Interpolation, numerical differential, numerical integration, simultaneous linier equation 

solution, simultaneous and single non linier equation solution, partial and common 

differential equation solution, data modeling. 

Offered To 

Dept/PS: Mining department 

Faculty: IKTM - ITB 

Related Courses 

1. Basic Calculus, Prerequisite 

2. Matrix and Vector space, Prerequisite 

References/Bibliography 

0. Press, W.H. & Flannery, B.P. & Teukolsky, S.A. & Vetterling, W.T., Numerical 

Recipes in Pascal, Cambridge University Press, 1994. 

0. Carnahan, B. & Luther, H.A. & Wilkes, J.O, Applied Numerical Methods, John Wiley 

and Sons, 1969. 

0. Davis, J.C., Statistic and Data Analysis in Geology, John Wiley and Sons, 1973. 

0. Harbaugh, J.W. & Carter, G.B., Computer Simulation in Geology, R.E. Krieger 

Publishing Company, 1981. 

0. Conte, S.D, Elementary Numerical Analysis, McGraw-Hill, 1981. 

TE2211 Cristallography and Mineralogy (Compulsory, 3 Credits) 


Explain the mineral science in value, human being need and also in relation with other 

sciences. It also give ability to identify and classification of mineral with megacopis 

method according to morfology, physical and chemical properties. 

Offered To 

Dept/PS: Mining Department 



Introduction to Mineral Technology, Prerequisite 


0. Blackburn, William H., & Dennen, William H., Principles of Mineralogy, Win C. 

Brown Publisher, Iowa, 1988 

0. Klein, Cornelis, & Hurlbut, Jr., Manual of Mineralogy, 21 st edition. After Dana, John 

Wiley & Son, New York, 1985 

0. Berry, L.G., & Mason, B.H., Mineralogy, 2 nd edition, revised by Dietrich, Freeman, 

New York, 1980 

0. Phillips,F.C., An Introduction to Crystallography, 4 th edition, Longman Bungay, 

Suffolk, 1977 

FIKTM - ITB 1


0. Dana, E.S. and Ford, W.E., A Textbook of Mineralogy, third edition, New York, 

Wiley, 1972 

TE3111 Mineral Genesis (Compulsory, 3 Credits) 


The course material cover the processes of deposit mineral, from hydrothermal solution, 

concentration processes, sedimentation control, thermodynamic of deposit also geological 

constraint, metallogenetic, petrology analysis, structure also stratigraphy analysis. 

Laboratory work will be stressed at mineral genesis type in Indonesia. 

Offered To 




1. Physical Geology, Prerequisite 

2. Mineralogy, Prerequisite 

3. Physical chemistry, Prerequisite 

4. Petrology, Prerequisite 


1. Jensen, Mead L. & Alan M. Bateman, Economic Mineral Deposits, John Wiley & 

Sons, New York, 1981 

2. Guilbert, John M. & Charles F. Park Jr., The Geology of Ore Deposits, W.H. Freeman 

and Company, New York, 1986 

3. Park, Charles F., Jr. & Roy A. MacDiarmid, Ore Deposit, W.H. Freeman and Co., San 

Francisco, 1975 

4 Lefond, Stanley J., Industrial Minerals and Rocks, American Institut of Mining, 

Metallurgical, and Petroleum Engineers, Inc., New York, 1975 

5 Van Krevelen, Coal, Elsevier, Amsterdam, 1993 

TE3121 Exploration Techniques (Compulsory, 3 Credits) 


Understanding of mineral exploration, introduction of exploration methods, which can be 

applied according to mineral condition, important data from exploration activities, 

function and data. 

Offered To 


Dept/PS: Geological Department 




1. Physical Geology, Prerequisite 

2. Geological Dynamic, Prerequisite 




5. Peters; Exploration. Mining. and Geology. John Willey. 1974 

5. Jensen & Bateman; Economics Mineral Deposits. John Willey. 1994 

5. Annels; Mineral Deposits Evaluation. Chapman & Hall. 1991 

5. Chaussier, Jean-Bernard & Jean Morer, Mineral Prospecting Manual, North Oxford 

Academic Publishers Ltd., 1987. 

5. Evans, Anthony. M., Introduction to Mineral Exploration., Blackwell Science Ltd., 

1995 

TE3221 Exploration Mapping (Compulsory, 3 Credits) 


The students can read geological map, understand and can do a mapping of mineral 

deposit indication in field either in the surface and underground, have ability to produce 

mineralization zone map (deposit zones), genetic model of mineral deposit and analysis 

mineralization condition for further exploration. 

Offered To 




1. Physical geology, Prerequisite 

2. Geology dynamic, Prerequisite 

3. Geomorphology, Prerequisite 

4. Structure geology, Prerequisite 

5. Principle of stratigraphy, Prerequisite 

6. Petrology, Prerequisite 


5. Compton, R.M., Geology in Field., John Wiley & Sons. Inc., Canada, 1985 

5. Berkman, D.A., Field Geologist Manual., The Australian Institute of Mining & 

Metallurgy., Third Edition., Australia., 1995 

5. Evans, A.M., Introduction to Mineral Exploration., Blackwell Science Ltd., 1995 

4. Chaussier, J.M., Mineral Prospecting Manual. North Oxford Academics., French., 1987 

TE3222 Geophysica Exploration for Mineral I (Compulsory, 3 Credits) 


Introducing theory and practice of seismic,geoelectric, electromagnetic, self potential, 

induced polarisation and logging method for mineral exploration purposes. Including 

design and field survey method in general and special condition. Theory and practice is 

directed to understand how to find an indication of mineral deposits. 

Offered To 




1. - Basic geology, Prerequisit 




1. Dobrin, Milton, B., Introduction to Geophysical Prospecting, McGraw-Hill, 1980. 

2. Parasnis, D. S., Principles of Applied Geophysics, Chapman & Hall, 1972. 

Keller, G. V. and F.C. Frischkneckt, Electric Methods in Geophysical Prospecting, 

McGraw-Hill 

3. Hirota, Sismic Exploration for Civil Engineering, Nippon Kaei, 1975, Unpublished 

paper 

TE3223 Exploration Drilling (Compulsory, 2 Credits) 


Introducing equipment and accessories of drilling, working sequences, drilling planing, 

analysis of drilling result, geophysical logging (resistivity, gamma, density and caliper), 

cost calculation, cosntraint and how to solve the drilling problems, and reporting. 

Offered To 




- 


1. Preston L, Moore, Drilling Practices Manual, The Petroleum Publishing Co, Tulsa, 

1974. 

2. Cumming J.D., Diamond Drill Handbook, The Hunter Rose Company, Canada, 1980. 

3. Australian Drilling Industry Training Committee Limited, Drilling the Manual of 

Methods, Applications, and Management, Lewis C.R.C., Virginia, 1996 

TE3231 Reserve Calculation Methods (Compulsory, 2 Credits) 


Introducing resources- reserve concept, classification, basic techniques in grade 

determination from bore hole/test pit, influence area of data, conventional method of 

resources/reserve calculation, cut of grade concept and stripping ratio, determination of 

deposit boundary, tabulation and presentation of resources/reserve calculation. 

Offered To 


Dept/PS: Department of geology 




1. Mining Method, Prerequisite 

2. Exploration Technique, Prerequisite 


3. Chaussier, Jean-Bernard & Jean Morer, Mineral Prospecting Manual, North Oxford 

Academic Publishers Ltd., 1987. 



3. Annels; Mineral Deposits Evaluation. Chapman & Hall. 1991. 

3. Popoff, C.C., Computing Reserves Deposits. Principles and Conventional Methods., 

1966. 

3. Hustrulid, W. and Kutcha, M., Open Pit Mine Planning and Design. A.A. 

Balkema/Rotterdam, 1995. 

3. Spereo Carras., Sampling Evaluation and Basic Principles of Reserve Estimation, 

Carras Mining & Associates, 1983. 

TE3241 Groundwater Hydrology (Compulsory, 3 Credits) 


Course content give an abilities of knowledge and skills in laboratory and field in: 

hydrogeology system, groundwater occurrence, exploration and exploitation in ground 

water, collecting data (laboratory test, pumping test etc), 

Offered To 




1. Geology, Prerequisite 

2. Basic course, Prerequisite 


1. Fetter, C.W (1994): Applied Hydrogeology 

2. Viessman,W & Lewis,G.L (1996): Introduction to Hydrology 

3. Todd, D.K (1980): Groundwater Hydrology 

4. Domenico, P.A & Schwartz, F.W (1990), Physical and Chemical Hydrogeology 

5. Streeter, V.L & Wylie, E.B (1996): Mekanika Fluida 

TE4111 Mineragraphy (Compulsory, 4 Credits) 


Give knowledge: refraction and reflection optics concepts and its interaction with 

transparent and opaque (rock and ore), basic principle of refraction and reflection 

polarization microscope, identification methods of thin section and opaque according to 

optic and morphology properties, also have ability to identify and description of rock and 

ore, structure and par agenesis, grain counting analysis and liberation degree. 

Offered To 




1. Crystallografi & Mineralogy, Prerequisite/ Coequality/ Prohibition 

2. GL xxx Physical Geology, Prerequisite/ Coequality/ Prohibition 


1. Phillips, Revell, Mineral Optics, Freeman & Co, San Fransisco, 1971 

2. Mac Kenzie, Atlas of Rock Forming Minerals. Longman Sci., 1980 

3. William, et al, Petrography, Freeman & Co, San Fransisco, 1955 



4. Craig and Vaughan, Ore Microscopy & Ore Petrography, John Wiley & Son, 

Singapore, 1981 

5. Ramdohr, Ore Minerals and Their Intergrowths, Pergamon Press, Frankfurt, 1980 

TE4121 Geophysical Exploration for Mineral II (Compulsory, 3 Credits) 


Introducing theory and practice of gravity, radioactive and magnetic method for mineral 

exploration purposes. Including design and field survey method in general and special 

condition. Theory and practice is directed to understand how to find an indication of 

mineral deposits. 

Offered To 




1. - Basic Geology, Prerequisite 

2- Geophysical Exploration for Mineral I, Prerequisite 


1. Parasnis, Mining Geophysics, Elservier, 1984. 

2. Dobrin dan Savitt, Introduction to Geophysical Prospecting, McGraww-Hill Book, Co, 

1988. 

3. SEG Mining Geophysic Volume Committee, Mining Geophysics, Volume I 

& II, SEG, 1972. 

4. Beck, A.E., Physical Prinsiples of Exploration Methods, The Macmillan Press 

TE4122 Geochemical Exploration and Ore Analysis (Compulsory, 2 Credits) 


Give knowledge and exercise to understand dispersion pattern and geochemical anomaly 

at mineralisation areas, technique for geochemical prospecting in field, chemical analysis 

and evaluation from field survey and construct mineralisation model for further 

exploration. 

Offered To 


Facult: IKTM - ITB 


1.TE 2211 Crystallography and Mineralogy, Prerequisite 

2. GL xxx Physical Geology, Prerequisite 


1. Hawkes & Webb, Geochemsitry in Mineral Exploration, Harper & Row, New York, 

1962 

2. Fletcher, Handbook of Exploration Geochemistry, Vol I & II, Elsevier, 1981 

3. Joyce, Exploration Geochemistry, Techsearch & Australian Mineral Fondation, 1976 

4. Siegel, Applied Geochemistry, Wiley Interscience Publication, 1974 



TE4123 Exploration and Evaluation of Geothermal (Elective, 2 Credits) 

Short syllabus Credit 

Introducing theory and pratice how to field data collection using airphoto, satellite, 

geology measurement, stratigraphy, hydrogeology, hydrochemistry, geophysics, surface 

manifestion mapping and geothermometer. Determine prospect area including resources. 

Effect toward environment either surface or subsurface if the geothermal field will be 

exploited. 

Offered To 




1. Exploration Mapping, Prerequisite 

2. Hydrogeology, Prerequisite 

3. Geophysical Exploration for Mineral I and 2, Prerequisite 

4. Geochemistry, Prerequisite 


1. L. Raybach, L and Muffler, L.J.P, Geothermal system: Principle and Case Histories, 

John Wiley & Sons, 1991. 

2. Edward et al, Handbook of Geothermal Energy 

3. Brown, K., Environmental Aspect of Geothermal Development 

4. Franco D/Amore, Application of Geochemistry in Geothermal Reservoir 

Development, Rome, 1991. 

5. Kevin, L. Brown, Environmental Aspects of Geothermal development, IGA, 1995. 

TE4131 Geostatistics (Compulsory, 2 Credits) 


Application of geostatistic method to get more broadly about data distribution in vertical 

or lateral, using semivariogram analysis also grade/thickness prediction of mineral deposit 

using krigging method. Course material cover basic theory of variogram, 

calculation/analysis/modeling of variogram, application of sferis model (Matheron), 

dispersion variation, estimation variant, krigging, reserve analysis. Exercise using 

GEOPLAN, KRIG3D, KRIGRES in FORTRAN. 

Offered To 




1. Mineral Deposit, Prerequisite 

2. Matrix & Vector Space, Prerequisite 

3. Numerical analysis & Simulation, Prerequisite 

4. Basic Statistic, Prerequisite 




1. David, M., Geostatistical Ore Reserve Estimation, Developments in Geomathematics 2, 

Elsevier Scientific Publishing Co., Amsterdam, Oxford-New York, 1980 

2. Matheron, G., Principles of Geostatistics, Economic Geology vol.58, 1963 

3. Journel, A.G. & C. Huijbregts, Mining Geostatistics, Academic Press, 1978 

4. Annels, Alwyn E., Mineral Deposit Evaluation, A practical approach, Chapman & Hall, 

London, 1991 

5. Rendu, J.M., An Introduction to Geostatistical Methods of Mineral Evaluation, 

Monograph of the South African Inst. Min. Metall., 1978 

TE4141 Geotechniques (Compulsory, 3 Credits) 


Introducing theory and practice in field data collection method using airphoto, satellite, 

structure measurement in field an also interpretation so that it can be applied with 

correctly. Field data collection method for rock clasification and its application. Soil and 

rock sampling. Hydrogeology and how to get parameter for geotechnical purposes. Slope 

stability analysis and underground opening. Safety and helath oocupation in relation with 

geotechnique. 

Offered To 




1. Structure Geology, Prerequisite 


3. Hydrogeology, Prerequisite 


1. Dunn, I.S, Fundamental Geotechnical Analysis, 1980 

2. Hoek, E and Bray, J.W., Rock Slope Engineering, 1981 

3. Hoek, E and Brown, E.T, Underground excavation in rock, 1980 

4. Giani, G.P., Rock Slope Stability Analysis, 1992. 

TE4201 Modelling and Reserve Evaluation (Compulsory, 3 Credits) 


Basic evaluation of resources and reserve. The scope of lecturing : Sampling, conventional 

geometric method, construction of resources model using computer block method (data 

basis, data analysis using descriptive statistic, geological simulation and topography, 

interpretation parameter, grade interpretation technique), resources and reserve 

classification, boundary grade concept and multi mineral equivalent grade, capital cost and 

operation prediction, life time of mine and mine reserve calculation. Semester project 

(carry out and evaluate the reserve model) is the important part of this course. 



Offered To 





2. Reserve Calculation Method, Prerequisite 


1. Annels, A. E., Mineral Deposit Evaluation, Chapman & Hall, 1991 

2. Barnes, M.P., Computer-Assisted Mineral Appraisal and Feasibility, SME, 1980 

3. Gentry, D.W. and O'Neill, T.J., Mine Investment Analysis, SME, 1984 

4. Isaaks, E.H. and R.M. Srivastava, An Introduction to Applied Geostatistics, Oxford 

University Press, 1989 

5. Lane, K.F., The Economic Definition of Ore, Mining Journal Books, 1991 

6. Popoff, C.C., Computing Reserves Deposits : Principles and Conventional Methods, 

USBM-IC 8283, 1966 

7. Weiss, A., Computer Methods for the 80's in the Mineral Industry, SME, 1979 

TE4211 Coal Exploration (Compulsory, 3 Credits) 


Knowledge of source material, environment and peat deposition facies, occiring 

processes, impact of processes to quality and coal rank. Quality and rank of coal. 

Guidence for exploration, mining, processing. Coal distribution mainly in Indonesia, coal 

potential basin forming, role of structure and stratigraphy in coal exploration, application 

of coal genesis for coal exploration, coal sampling and analysis, reserve calculation, 

activities economic analysis, case study of coal exploration. 

Offered To 




1. Stratigraphy, Prerequisite 

2. Structure Geology, Prerequisite 


1. Anggayana, Komang, Hand Out TA-346 Mineral Genesis, Mining Department ITB, 

1999. 

2. Cumming J. D. (1980) : Diamond Drill handbook, The Hunter Rose Company, Canada 

3. Diessel, C.F.K., Coal Bearing Depositional Systems, Gebrueder Borntraeger, Berlin- 

Stuttgart, 1993 

4. Hutchison C.S. (1989) : Geological Evolution of South – East Asia, Clarendon Press. 

Oxford : 368 S. 

5. Stach E., Mackowsky M. TH., Teichmueller M., Taylor G. H. Chandra D., Teichmuller 

R. 91982) : Stach’s Textbooks of Coal Petrology, Gebreuder Borntraeger, Berlin- 

Stuttgart : 535 s. 

6. Taylor G.H., Teichmuller M., Davis A. Diessel C.F.K., Littke R., Robert P., Organic 

Petrology, Gebrueder Borntraeger, Berlin - Stuttgart, 1998 



7. Van Krevelen, D.W., Coal, Typology-Chemistry-Physics Constitution, 3 rd Comp. Rev. 

ed. Elsevier, Amsterdam, 1993. 

TE4231 Exploration Management (Compulsory, 3 Credits) 


Application management in mineral exploration. Theory and management analysis will be 

focused at project management project which is related with economic, technique and 

human resources. 

Offered To 




Exploration technique, Prerequisite 

Mineral Economic, Prerequisite 


1. White, Andrew H., Management of Mineral Exploration, Rossco Print, Victoria 3072, 

1977 

2. Wellmer, Friedrich-Wilhelm, Economic Evaluations in Exploration, Springer- 

Verlag, Germany, 1989 

3. Iman Soeharto., Manajemen Proyek., Erlangga, 1997 

4. Tilton, John E., G.E. Roderick, H.L. Hans, World Mineral Exploration, Trends and 

Economic Issues., Resources For The Future, Washington D.C, 1988 

5. Wellmer, Fredrich-Wilhelm, Economic Evaluations in Exploration, Springer-Verlag, 

Germany, 1989 

TE5142 Water well Drilling Technique (Compulsory, 2 Credits) 


Knowledge of water rilling. Introduction of bore machine types, drilling accessories. 

Drilling methods. Aspects may cause effect on drilling speed and its constraints, drill mud, 

how to handle problems in drilling. How to choose bit and its types. Well construction and 

construction material. Well clean technique, introducing equipment and cleaning processes 

theory and well finishing. Pumping test and data analysis also physical meaning toward 

construction. Economic analysis of drilling and well design. Reporting of water well work. 

Offered To 




- 


1. Australian Drilling Industry Training Committee Limited, “Drilling The Manual of 

Methods Applications, and Management”, Lewis Publisher-New Yorks, 1996. 



2. Fletcher, G. Driscoll, Editor, “Groundwater and Wells”, Johnson Filtration Systems 

Inc., St. Paul, Minesota 55112, 1989. 

3. Cumming, J.D., “Diamond Drill Handbook”, The Hunter Rose Company, Canada, 

1980. 

4. Preston, L. Moore, “Drilling Practices Manual”, The Petroleum Publishing Co., Tulsa 

Oklahoma-USA, 1974. 

5. Brocure Long Year 

6. Brocure Koken Boring Machine Co. 

7. Brochure Acker Drill Co. Inc. Scranton 

8. Brochure Toho Drilling Machine and Grouting Pump. 

TE5241 Environmental Impact Analysis (Elective, 2 Credits) 


Knowledge and understanding must be owned by mine exploration engineer or mine 

engineer because their works have relation with environment problems. This course give 

ability to know problems in field, environmental scope, collection and analysis data in 

comprehensive, understand the regulations, ability to design to avoid imparts to 

environment. 

Offered To 




- 


1. UU, Peraturan Pemerintah, Perda tentang lingkungan 

2. Sunarwan, S.F : Analisis Mengenai Dampak Lingkungan, Gajah Mada Press, 

Yogyakarta, 1990 

3. Sumarwoto, O : Analisis Dampak Lingkungan, Gajah Mada Press, Yogyakarta, 1990 

4. Carter, L.W : Environmental Impact Assesment, McGraw Hill, New York, 1996 

5. Laporan-laporan AMDAL yang sudah ada 

TE5242 Groudwater Exploration (Elective, 2 Credits) 


Geological parameters in relation with ground water, aquifer parameter. Groundwater 

exploration method, ground water exploration report. 

Offered To 




1. - Hydrogeology, Prerequisite 

2. - Geology dynamic, Prerequisite 




1. Fetter, C.W Applied Hydrogeology, McMillan Publishing Company, 1994. 

2. Telford, W.M., Applied Geophysics, Cambridge University Press, 1977. 

TA10T1 Concept of Technology (Compulsory, 2 SKS) 

Short Syllabus 

Histories of science, technology, and art show that the continuing developments of 

science, technology, and art are based on human creativity to fulfil their needs of better 

lives. The developments are supported by the continuing improvement of human 

knowledge of model, system, feed back, stability, decision making, and optimisation. 

Applications of science, technology, and art and industrial development strategy are 

closely related to the invention and innovation required by the human needs. Knowledge 

and implementation of Intellectual Property Rights is a part of this course. 

Offered To 

SP: Mining Engineering 

Faculty: ESMT – ITB 


Environmental Science 


0. Lecture Notes of Concept of Technology ITB – 2003 

0. Saswinadi S. (Ed.) “Menerawang Masa Depan Ilmu, Teknik, dan Seni Dalam Budaya 

Masyarakat Bangsa Indonesia”, Penerbit ITB 1990 

0. Anonim “Manusia, Teknologi, dan Lingkungan : Kemampuan dan 

pengembangannya”, Penerbit ITB, 1996. 

TA1101 Intro. To Earth Sciences and Mineral Technology (Compulsory, 2 SKS) 


The following materials are given for understanding the relations between earth sciences 

and mineral technology. The origin of earth sciences, theory of earth forming, earth as a 

part of the galaxy, development of earth sciences, earth as a solid material (structure and 

composition), physic, atmosphere, and ocean of the earth, uniqueness of Indonesian 

geology, earth as mineral and energy resources, earth disasters. Natural resource 

exploration technology, mining and mineral processing technology, exploration and 

exploitation of oil, gas, and hydrothermal. For Mining Engineering, the materials of 

exploration, mining, and processing are more detailed and reviewed for observing their 

relationship in mining industry. 

Offered To 




- 




3. SME, Mining Engineering Handbook, John Wiley & Sons, 1973. 

3. Lewis, Elements of Mining, John Wiley & Sons, 1964. 

3. Seeley Mudd, Economics of Minerals Industries, AIME, 1985. 

3. Howard L. Hartman, Introductory Mining Engineering, 1987 

3. Fowler, CMR 1990, The Solid Earth : An Introduction to Global Geophysics, 

Cambridge Univerrsity Press, Cambridge. 

TA2101 Mining Systems (Compulsory, 2 SKS) 


This course consists of knowledge of surface and underground mining systems, 

reinforcement and support analyses, stability and monitoring analyses for slope and tunnel, 

including supporting knowledge required for ensuring the continuation of the mining 

systems. 

Offered To 




Intro. to Earth Sciences and Mineral Technology (Prerequisite) 


5. SME, Mining Engineering Handbook, John Wiley & Sons, 1973. 

5. Lewis, Elements of Mining, John Wiley & Sons, 1964. 

5. Seeley Mudd, Economics of Minerals Industries, AIME, 1985. 

5. Howard L. Hartman, Introductory Mining Engineering, 1987 

TA2221 Mine Investment Analysis (Compulsory, 2 SKS) 


Study various evaluation techniques for mining project using economical approaches such 

as Net Value analysis (NPV, NAV, NFV), DCFROR analysis, cash-flow analysis. Study 

various techniques in selecting investment alternatives using mutually–non-mutually 

exclusive approach and rent-purchase alternative. Study the concept of leverage and how it 

affects the cash-flow. Study the concepts of taxes, hedging, and currency rate. Estimate the 

income and capital and operating costs. 

Offered To 


Faculty.: ESMT – ITB 


4. Mining Systems (Prerequisite) 

4. Mining Equipment (Co-requisite) 


2. Stermole, F.J., Stermole, J.M., Economic Evaluation and Investment Decision 

Methods, Investment Corporation, 1990. 



2. Gentry, G.W., O’Neal, T.J., Mine Investment Methods, Society of Mining 

Engineering, 1984. 

2. Rudenno, V., The Mining Valuation Handbook, Wrightbooks Pty. Ltd., 1998. 

2. The Economist, Guide to Economic Indicator, The Economist, 1992. 

TA-2231 Mining Equipment (Compulsory, 4 SKS) 


This course is started with definition and analysis of work place followed by work 

principle and the use of various mining equipments for cyclic and continuous system in 

surface and underground mines, including equipment selection and system of allocation. 

Knowledge of production estimation, equipment operating cost, queuing theory and 

optimisation are also given. 

Offered To 




4. Intro. to Earth Sciences and Mineral Technology (Prerequisite) 



2. Church, Horace, Excavation Handbook, McGraw-Hill, 1981. 

2. Durst, W. dan Vogt, W., Bucket Wheel Excavator, Trans. Tech. Publication, Clausthal, 

1988. 

2. Partanto Prodjosumarto, Pemindahan Tanah Mekanis, Jurusan Teknik Pertambangan 

ITB, 1983. 

2. Peurifoy, Construction Planning Equipment and Method, McGraw-Hill, 1979. 

2. Suseno Kramadibrata, Rock Excavation by Cutting, Mining Engineering Department 

ITB, 1996. 

2. Whittaker, B.N. dan Fruth, R.C., Tunneling-design Stability and Construction, The 

Institute of Mining and Metallurgy, London, 1990. 

2. Hustrulid, W.A. (ed), Underground Mining Handbook, Society of Mining Engineers of 

The American Institute of Mining, Metallurgical, and Petroleum Engineers, Inc., New 

York, 1981. 

2. Sinclair, J., Winding and Transport in Mines, Sir lsaac Pitman and Sons, Ltd., London, 

1959. 

2. Koehler, S., Mining Methods and Equipment, McGraw-Hill, Inc., New York, 1980. 

2. Staley, W.W., Mine Plant Design, McGraw-Hill Book Company, 1949. 

2. Walker, S.C., Mine Winding and Transport, Advances in Mining Science and 

Technology, Elsevier, 1988. 



TA3111 Rock Mechanics (Compulsory, 3 SKS) 


Rock mechanics principles, physical and mechanical properties of rock, laboratory tests to 

determine rock properties so that work in the rock mass can be conducted safely, rock 

mass behaviour, stress distribution around an underground excavation, in situ stress 

measurement. 

Offered To 




1. Engineering Mechanics (Prerequisite) 

2. Physical Geology (Prerequisite) 

3. Structural Geology (Co-requisite) 

4. General Petrology (Co-requisite) 


1. Jumikis, Rock Mechanics, Trans. Tech. Publication, 1983 

2. Brady, B.H.D. and Brown, E.T., Rock Mechanics for Underground Mining, George 

Allen & Unwin Ltd., London, 1985 

3. Goodman, lntroduction Rock Mechanics, Second Edition, John Wiley & Sons, 1989 

4. Obert, Duvall, Rock Mechanics and the Design of Structures in Rock, John Wiley & 

Sons, 1967 

5. Bieniawski, Engineering Rock Mass Classification, John Wiley & Sons, 1989 

6. Hoek, E. and Brown, E.T., Underground Excavation in Rock, Institution of Mining and 

Metallurgy, London, 1982. 

7. Made Astawa Rai, Mekanika Batuan, Laboratorium Geoteknik PAU-IR ITB, 1993 

TA3121 Mining Valuation (Compulsory, 2 SKS) 


This course is started with a review of mining company activities: exploration techniques 

and reserve calculation, mining techniques, and processing techniques. It is focused on 

economics analysis and mine financing (equity financing & debt financing); analysis of 

financial report using accounting ratios (solvability, profitability, and leverage ratios); 

fiscal aspect to describe the effects of tax system on cash-flow, various techniques of 

mining valuation including financial and management aspects. 

Offered To 





2. Mine Investment Analysis (Prerequisite) 


1. Gentry & O’Neal, “Mine Investment Analysis” SME, Colorado, 1984 (MIA) 

2. Kernot, Charles, “ Valuing Mining Company”, Woodhead Publishing Ltd, Cambridge, 



1999. (VMC) 

2. Rudenno, V., The Mining Valuation Handbook, Wrightbooks Pty. Ltd., 1998. 

2. Pricewaterhouse Copper,”Comparative Mining Taxation Regime”, PwC, 1998, (CMT) 

2. Prastowo, Adi,” Analisis Laporan Keuangan”, YKPN, Jogya, 1987 (ALK) 

TA3141 Mine Ventilation (Compulsory, 2 SKS) 


This course describes the use mine ventilation for providing ventilation network for an 

underground mine that comply with the regulations related to healthy working 

environment. It discusses air flow in the mine, including quality, quantity, and comfortable 

environment to the miners, as well as hazardous gases and dust in the mine. Quantitative 

analysis of ventilation network, calculation of head losses, and the effects of natural 

ventilation on mine ventilation system are also given. 

Offered To 




Introduction to Fluid System (Prerequisite) 


5. Hartman, Mine Ventilation and Air Conditioning, John Wiley & Sons, 1982 

TA3211 Explosives and Blasting Techniques (Compulsory, 2 SKS) 


This course includes knowledge of types of explosives and blasting accessories, the use of 

explosives in a number of works, in particular in mining, transportation and storage of 

explosives. Ground vibration and air blast criteria are also given. 

Offered To 




1. Rock Mechanics (Prerequisite) 

1. Physical Chemistry (Prerequisite) 


2. Ash, The Mechanics of Rock Breakage, Pit & Quarry, 1963 

2. Gregory, Explosives for North American Engineers, Trans. Tech. Publications 

Clausthal, 1973. 

2. Langefors, The Modern Technique of Rock Blasting, John Wiley & Sons, 1972. 

2. ------, Blaster Handbook, EU Du Pont de nmours & Co. 

2. Scot, A., Cocker, A., Djordjevic, N., Higgins, M., La Rosa, D., Sarma, K.S. and 

Wedmaier, R., Open Pit Design - Analysis and Optimazation JKMRC Monograph 

Series in Mining & Mineral Processing I, University of Queensland, 1996. 



2. ------, Explosivers and Rock Blasting, Atlas Poweder Company, Field Technical 

Operations. 

2. Person, Per-Ander, R. Holenberg, J. Lee, Rock Blasting And Explosives Engineering, 

CRC Press, 1994 

TA3212 Mining Geotechniques (Compulsory, 3 SKS) 


This course covers the knowledge of surface mining system, slope design, slope stability 

analysis using numerical and manual techniques, reinforcement and monitoring analyses, 

and supporting knowledge required in a surface mining operation. 

Offered To 





7. Structural Geology (Prerequisite) 

7. Soil Mechanics (Prerequisite) 


7. Mining Systems (Preequisite) 


5. Bieniawski, Z.T., Engineering Rock Mass Classifications, A Wiley-Interscience 

Publication, John Wiley & Sons, Copyright 1989. 

5. Brady, B.H.G., and Brown, E.T., Rock Mechanics for Underground Mining, George 

Allen & Unwin,1985. 

5. Lang, T.A., Theory and Practice of Rock Bolting, Transactions of the American 

Institution of Mining Engineers, vol. 220, pp. 333-348, 1961. 

5. Stillborg, B., Professional Users Handbook for Rock Bolting, Trans. Tech. 

Publications, 1986. 

TA3231 Drilling & Digging Techniques (Compulsory, 2 SKS) 


It provides knowledge of intact rock and rock mass properties that affecting the success of 

drilling and digging, types of drilling equipment for blast hole drilling, and digging 

equipment for surface and underground mines using continuous or discontinuous systems. 

In addition, knowledge for equipment selection, determination of continuous mechanical 

digging equipment, and application of dimensional analysis are also given. 

Offered To 





4. Mining System (Prerequisite) 




4. Introduction to Fluid System (Prerequisite) 

4. General Petrology (Prerequisite) 


5. Clark, G. B., Principles of Rock Drilling and Bit Wear, Colorado School of Mines 

Quarterly, Vol. 77, January, Number 1, 1982. 

5. Durst, W. and Vogt, W., Bucket Wheel Excavator, Series on Mining Engineering, Vol. 

7, Trans, Tech. Publication, Clausthal. 

5. Evans, I.A. and Poremoy, C.D., Strength Fracture and Workability of Coal, Pergamon 

& Press, 132 p., 1966. 

5. Golonsinski, T.S., Continuous Surface Mining Technology, Bulk Solids Handling, 

Vol. 4, pp. 781-189, 1984. 

5. Roxborough, F.F. and Philips, H.R., Applied Rock and Coal Cutting Mechanics, 

Australian Foundation Workshop Course 156/81. 

5. Whittaker, B.N. and Fruth, R.C., Tunneling-design Stability and Construction, the 

Institute of Mining and Metallurgy, London, 1990. 

5. Kramadibrata S., Rock Excavation By Cutting, Mining Engineering Dept. ITB, 1996. 

TA3241 Mine Drainage (Compulsory, 2 SKS) 


Hydrology aspect including hydrology components, hydrology data collecting and 

analysis, especially rainfall; hydrogeology aspect including groundwater and aquifer, 

groundwater hydrochemistry, aquifer hydraulic parameters, aquifer tests and drawdown 

analysis; pumps (types, calculations of pump requirement, pump selection); methods and 

means of mine drainage; acid mine drainage phenomenon; environmental consideration. 

Offered To 





7. Introduction to Fluid System (Prerequisite) 



3. Canmet, Pit Slope Manual, Chapter 4: Groundwater, 1977. 

3. Chow, Maidment & Mays, Applied Hydrology, McGraw-Hill, 19852. 

3. Gautama, Diktat Sistem Penyaliran Tambang, Jurusan Teknik Pertambangan ITB, 

1997 

3. Ranga Raju, Flow Through Open Channels, Tata McGraw-Hill., 1981 

3. Sosrodarsono & Takeda, Hidrologi Untuk Pengairan, PT. Pradnya Paramita, 1983 

3. Sularso & Tahara, Pompa & Kompresor, PT. Pradnya Paramita, 1994 



TA4101 Coal and Its Utilisation (Compulsory, 3 SKS) 


Introduction to coal and coal quality parameters. The role of coal as energy source for 

industry. Coal preparation and washing. Pyrolysis, gasification, and liquefaction processes, 

and clean coal technology. 

Offered To 







2. Eliot, Chemistry of Coal Utilisation, John Wiley & Sons, 1981. 

2. Edgar, Coal Processing and Pollution Control, Gulf Publishing, 1983. 

2. Meyers, Coal Handbook, Marchel Dkker, 1981. 

2. Mitchell, L.B., Coal Preparation, AIME, 1968. 

2. Osborne, D.G., Coal Preparation Technology, Vol. 1 & II 

2. Speight, J.G., The Chemistry and Technology of Coal, Marcel Dekker, Inc., 1994. 

2. Van Krevelen, Coal Science and Technolgy, Elsevier, 1981. 

2. Berkowitz, The Chemistry of Coal, Elsevier, 1985. 

TA4102 Mine Planning (Compulsory, 4 SKS) 


To summarise and to synthesise the engineering and economics knowledge that are 

already understood into a modern open pit mine design and plan. The scope includes cutoff-grade 

and multi mineral equivalent, optimisation of pit limits (floating cone and 

Lerchs-Grossman methods), pit and pushback design, production scheduling, waste dump 

design, yearly plan, equipment and man power requirement, calculation of capital and 

operating costs, and financial evaluation. Project scheduling and environmental impact 

problems are discussed briefly. Semester project of mining pre-feasibility study using 

computer model is an important part of this course. 

Offered To 




Accumulation of all courses already taken (Prerequisite) 


8. Hustrulid, W.A. and M. Kuchta, Mine Planning and Design, A.A. Balkema, 1995. 

8. Wright, E.A., Open Pit Mine Design Models, Trans. Tech. Publications, 1990. 

8. Kennedy, B.A., Surface Mining, 2nd ed., SME, 1990. 

8. Crawford, J.T. and W.A. Hustrulid, Open Pit Mine Planning and Design, SME, 1979. 

8. Gentry, D.W. and T.J., O’Neill, Mine Investment Analysis, SME, 1984. 

8. Weiss, A., Computer Methods for the 80’s in the Mineral Insutry, SME, 1979. 



8. Lane, K.F., The Economics Definition of Ore, Mining Journal Books, 1991. 

TA4111 Underground Stability (Compulsory, 3 SKS) 


This course is started with the types of underground excavation instabilities, followed by 

underground design methodology, field investigation, and laboratory tests. Graphical 

analysis and rock mass classification is introduced to predict the type of instability. 

Various types of supports, such as wood, steel, rock bolt, and concrete, including their 

calculations are given to improve the underground excavation stability. Stress distribution, 

pillar design, and numerical analysis are also given, and finally, the monitoring is 

discussed. 

Offered To 









0. Bieniawski, Z.T., Rock Mechanics Design in Mining and Tunneling, .A. Balkema, 

Rotterdam, 1984. 

6. Bieniawski, Z.T., Engineering Rock Mass Classification, John Wiley & Sons, New 

York, 1989. 

6. Szechy, The Art of Tunneling, Akademiai Kaido, 1973. 

6. Made Astawa Rai, Diktat Teknik Terowongan, Jurusan Teknik Pertambangan, FTM- 

ITB, 1994 

6. Made Astawa Rai, Diktat Mekanika Batuan, Jurusan Teknik Pertambangan, FTM-ITB, 

1999. 

TA4121 Mineral Economics (Compulsory, 3 SKS) 


This course covers the application of economics principles in mineral resources 

management, from preliminary and advanced exploration to economics feasibility study of 

mineral resources mining. The course mainly discusses the occurrence and distribution of 

minerals; exploration stages and functions, regional, national, and international supply & 

demand; mineral commodity analysis, financial method, cost structure, and capital cost 

components; mineral policy analysis and government roles, legal aspect; utilisation and 

market of mineral commodity; substitution and competition factors; economics and 

technology aspects of mineral business and its relation to the environment quality.. 

Offered To 







4. Mine Investment Analysis (Prerequisite) 


2. Gocht, W.R., H. Zantop, R.G. Eggert., International Mineral Economics., Springer- 

Verlag, Germany, 1988 

2. Howe, Charles W., Natural Resource Economics., John Wiley & Sons, N.Y. 1979 

2. Stermole, F.J, Stermole, J.M., Economic Evaluation and Investment Decision 

Methods., Investment Evaluations Corporation, Colorado, 1987 

2. Tilton, John E., G.E. Roderick, H.L. Hans, World Mineral Exploration, Trends and 

Economic Issues., Resources For The Future, Washington D.C, 1988 

2. Vogely, William A. (ed.), Economics of the Mineral Industries, Seeley W. Mudd 

Series, American Institute of Mining, Metallurgical, and Petroleum Engineers, Inc., 

New York, 1985 

2. Wellmer, Friedrich-Wilhelm, Economic Evaluations in Exploration, Springer-Verlag, 

Germany, 1989 

TA4122 Mine Management (Compulsory, 3 SKS) 


Basic principles of management and its development; characteristics of mining industry 

and national economics frame, management components, management level, management 

level, management process, strategic planning, organisation aspect, and human resource. 

Examples related to mining industry and equipment band human resource managements 

are also discussed. 

Offered To 





6. Mining Equipment (Prerequisite) 


2. Siregar, Ali Basyah, Samadhi, TMA Ari, Manajemen, 1th, Institut Teknologi Bandung. 

2. Sloan, Mine Management, Chapman and Hall, LTd., 1983. 

2. Hartman (Ed)., SME Mining Engineering Handbook, 2 edition, Society for Mining, 

Metallulrgy and Exploration, Inc., Littleton, Colorado, 1992. 

2. K. Jackson, Jr. and N.L. Frifon, Management 2000, Van Nostrand Reinhold, New 

York, 1994. 

2. Gibson, Ivancevich and Donnelly, Organization, 5th ed., Bussiness Publications, Inc., 

Plano Texas, 1985. 



TA4142 Mining Environment (Compulsory, 2 SKS) 


Relationship between mining and environment and the associated regulations, 

environmental impact of mining activities, impact management, community development, 

post mining planning and mine closure. In the impact management, the technical aspects 

are also discussed. 

Offered To 




5. Mining System (Prerequisite) 


5. Mine Drainage (Prerequisite) 


3. Hartman, Howard L., Introductory Mining Engineering. John Wiley & Sons, 1987. 

3. Undang-undang No. 23, 1997 Mengenai Ketentuan Pokok Pengelolaan Lingkungan 

Hidup. 

TA4241 Occ. Health-Safety and Labour Law (Compulsory, 2 SKS) 


This course consists of two parts: Occupational Health and Safety (OHS) and Labour Law. 

The OHS covers the basic principles of OHS and the related regulations, mining accident, 

accident statistics, principles of accident prevention, accident analysis, and OHS 

management. The Labour Law consists of manpower policy and the related regulations, 

work relationship, work agreement, work protection, salary, manpower social security, and 

manpower-related issues. 

Offered To 







2. Gautama, R.S., Gautama A.S., Diktat Undang-Undang Tambang, Jurusan Teknik 

Pertambangn ITB, 1997. 

2. Soepomo, I., Pengantar Hukum Perburuhan, Penerbit Djambatan, 1995. 

2. Undang-Undang No. 11 Tahun 1967 

2. Undang-Undang No. 25 Tahun 1997 



TA4242 Mining Policy (Compulsory, 2 SKS) 


It discusses policies related to the mining sector, including laws and regulations in mining 

sector, history of Indonesian mining, mineral resource management and its relation to 

other sectors, laws and regulations that are related to or affect the mining activities, issues 

in mining sector such as sustainable mining development. 

Offered To 







2. Keputusan Menteri Pertambangan & Energi No. 555.K/26/M.PE/1995 tentang 

Keselamatan & Kesehatan Kerja Pertambangan Umum 

2. Informasi & laporan K3 dari berbagai perusahaan tambang 

2. Soepomo, “Pengantar Hukum Perburuhan”, Penerbit Djambatan, Jakarta, 1995 

2. Wibowo, “Himpunan Peraturan Perundangan Ketenagakerjaan”, Penerbit Andi, 

Yogyakarta, 2002 

TA5211 Tunnelling (Elective, 2 SKS) 


It discusses tunnel construction, from survey, plan, design, to excavation and supporting. 

Types of tunnel in civil and mining projects are also discussed. 

Offered To 








3. Bieniawski, Z.T., Rock Mechanics Design in Mining and Tunneling, A.A. Balkema, 

Rotterdam, 1984. 

3. Bieniawski, Z.T., Engineering Rock Mass Classification, John Wiley & Sons, New 

York, 1989. 

3. Szechy, The Art of Tunneling, Akademiai Kaido, 1973. 

3. Made Astawa Rai, Diktat Teknik Terowongan, Jurusan Teknik Pertambangan, FTM- 

ITB, 1994 

3. Made Astawa Rai, Diktat Mekanika Batuan, Jurusan Teknik Pertambangan, FTM-ITB, 

1999. 



MG2101 Applied Mathematics (Compulsory, 3 SKS) 

Syllabus 

Scalar and vector field and function, anisotropy, vector calculus, gradient and divergence, 

Green, Gauss and Stoke theorems, ordinary differential equation modeling and its various 

solutions, periodic and non-periodic functions, Fourier series, partial differential equation 

modeling and its various solutions. 

Offered To (Members of PS) 

Dept. / PS: Mining Engineering 

Faculty : IKTM - ITB 


5. Basic Calculus, Prerequisite 

5. Matrix and Vector, Co-requisite 


2. Kreyszig, E., Advanced Engineering Mathematics, John Wiley and Sons, 1999 

2. Purcell, E.J. & Varberg, D., Kalkulus dan Geometri Analitis, Prentice Hall, 1987 

MG2201 Numerical Methods (Compulsory, 3 Credits) 


Interpolation, numerical differentiations, numerical integrations, solutions of simultaneous 

linear equations, solutions of single and simultaneous non-linear equations, solutions of 

ordinary and partial differential equations, data modeling. 

Offered To 

Program Study: Mining Engineering 



1. Basic Calculus, Prerequisit 

2. Matrices and Vectors, Prerequisit 

3. Computer Programming, Corequisit 


1. Press, W.H. & Flannery, B.P. & Teukolsky, S.A. & Vetterling, W.T., Numerical 

Recipes in Pascal, 1994. 

2. Carnahan, B. & Luther, H.A. & Wilkes, J.O, Applied Numerical Methods, 1969. 

3. Davis, J.C., Statistic and Data Analysis in Geology, 1973. 

4. Harbaugh, J.W. & Carter, G.B., Computer Simulation in Geology, 1981. 

5. Conte, S.D, Elementary Numerical Analysis, 1981. 

MG2221 Metallurgical Thermodynamics (Compulsory, 3 SKS) 

Syllabus 

Studies the application of thermodynamic laws and macro thermodynamics concepts to 

explain the equilibrium condition and other conditions where phase transformation, 

chemical processes, and electrochemical processes occurr. Complete explanation about 



thermodynamics of metal solution and aqueous solution, activity concept, alternative 

standard state, and interaction parameter of multi component dilute solution. Evaluation of 

experimental data and thermodynamics of phase diagram. 



Faculty of: IKTM`- ITB 


2. Physical Chemistry, Prerequisite 

2. Thermodynamic of Material, Prohibition 


2. Ragone D.V., Thermodynamics of Materials, Vol. I, MIT, 1995. 

2. Bodsworth C. & Appleton A.S., Problems in Applied Thermodynamics, 1965 

2. Gaskell D.R., Introduction to The Thermodynamics of Materials, 3 rd edition, McGraw- 

Hill, 1995. 

2. Rao Y.K., Stoichiometry and Thermodynamics of Metallurgical Process, Univ.of 

Washington, 1985 (untuk simulasi kesetimbangan multi komponen). 

2. Jef Roos and Wollants P., Thermodynamica en kinetica voor Materiaalkundigen, Vol 1, 

Chemisch Evenwicht, ACCO, 1993. 

2. Lee, H.G., Chemicals Thermodynamics for Metals and Materials, Imperial College 

Press, 1999. 

MG2222 Metallurgical Kinetics (Compulsory, 3 SKS) 

Syllabus 

Understanding of Arrhenius equation, activation energy, collision and transition state 

theory. Understanding of homogenous and heterogeneous kinetics modeling. Methods for 

analyzing homogenous reaction laboratory data: integral method, differential method, and 

half time method. Understanding of kinetics heterogeneous reaction for several solid 

reactant geometries: flat, sphere, and cylinder. Modeling approach of sphere geometry 

heterogeneous kinetics: progressive-conversion and shrinking core model. Examples of 

kinetics practice in hydro-electrometallurgy and pyrometallurgy. 



Faculty of: IKTM - ITB 


- 


6. Habashi, F., Principles of Extractive Metallurgy, Vol. I, London, 1976 

6. Haung, H.H. : Fundamentals – Mass Transfer and Reaction Kinetics in Unit Process in 

Extractive Metallurgy, Hydrometallurgy by L.G. Twidwell (Editor), 1980. 

6. Levenspiel, O., Chemical reaction Engineering, 2nd Ed. John Wiley and Sons, New 

York, Chap 2, 1972. 

6. Mackowiak, J, Physical Chemistry for Metallurgists, 2nd Ed. George Allen and Unwin 

Ltd., London, 1966. 

6. Sohn, H.Y. and M.E. Wadsworth (Eds), Rate Process of Extractive Metallurgy, 

Plenum Press, New York, 1979. 



6. Smith, J.M., Chemical Engineering Kinetics, 2nd McGraw-Hill, 1970. 

6. Artikel Ilmiah tentang Kinetika dari berbagai Jurnal Ilmiah. 

6. Faraz Umar, TA-332 Kinetika Metalurgi, Diktat Kuliah, ITB, Bandung, 2002 

MG3111 Mineral Processing A (Compulsory, 4 Credits) 


Principles of comminution (crushing and grinding), screening and sieving, classification, 

comminution theory, sieve analysis, degree of liberation, sampling, material and 

metallurgical balances, theory and unit operation of mineral separation by gravity, 

magnetic, electrostatic, and flotation concentrations, efficiency test of concentration. 

Offered To 




1. Mineralogy, Prerequisit 

2. Physics, Prerequisit 


1. Burt, R.O., Gravity Concentration Technology, Elsevier, 1984. 

2. Kelly, F.C., and Spottiswood, D.J., Introduction to Mineral Processing, John Wiley & 

Sons, 1982. 

3. Weis, N.L. (Ed), SME Mineral Processing handbook, vol. 1, 1985. 

4. Wills, Mineral Processing Technology, Pergamon Press, 1989. 

MG3112 Unit Operations (Compulsory, 3 Credits) 


Fluid dynamics: viscosity, surface tension; Dewatering: sedimentation, settling pond, 

filtration, thickener; Materials Handling: industrial screening, circulating loads, 

transportation via pipe; Pumps and Compressors: cavity, shaft power and efficiency of 

pumps, pump construction, pump operation, serial and parallel pumps, compressor; 

Fluidized bed technology. 

Offered To 




Mineralogy, Prerequisit 


1. Ronald V. Giles, Schaum’s Outline Series : Fluid Mechanics and Hydraulics, Mc. Graw 

Hill, 1983. 

2. Sularso & Haruo Tahara, Pompa dan Kompresor, Pradnya Paramita, 1996. 

3. E. G. Kelly & D. J. Spottiswood, Introduction to Mineral Processing, John Wiley & 

Sons, 1982. 



MG3121 Calculations in Metallurgical Processes (Compulsory, 4 SKS) 

Syllabus 

The usages of thermodynamics concepts in explaining mechanism of metallurgical process 

units. Mass and heat balance calculation in several units in extractive metallurgical 

processes. The usage of simple binary and ternary diagrams and stability diagrams. 

Physical and chemical properties of slag. Equilibrium and kinetic of electrodic reaction, 

potential-pH diagram construction and application in several temperatures, and 

polarization curve application in electrodic processes. 





8. Thermodynamics of Metallurgy, Prerequisite 

8. Kinetics of Metallurgy, Prerequisite 


2. Rosenqvist T., Principles of Extractive Metallurgy, McGraw-Hill, 1983. 

2. Coudurier, L., Hopkins D.W., Wilkomirsky I., Fundamental of Metallurgical Process, 

Pergamon Press, 1978. 

2. Bockris, J.O.M. and Reddy, A.K., Modern Electrochemistry, Vol. II, Plenum/Rosseta, 

1977. 

2. Barner, H.E. and Scheuerman, R.V., Handbook of Thermochemical Data for 

Compounds and Aqueous Species, John Wiley and Sons ,1978. 

2. Gaskel, D.R., Introduction to The Thermodynamics of Materials, 3 rd Ed. Taylor & 

Francis, 1995. 

MG3122 Transport Phenomena in Metallurgy (Compulsory, 3 SKS) 

Syllabus 

Phenomena of momentum, heat, and mass transport. Basic laws in transport phenomena, 

formulation of neraca sel equation with geometry factor, and mathematical solution. 

Transport properties: steady/un-steady state system, system that consists generation, and 

combined transport. Several applications in process. 





5. Differential Equations, Prerequisite/ Co-requisite 

5. Physical Chemistry, Prerequisite/ Co-requisite 

5. Thermodynamics, Prerequisite/ Co-requisite 


3. D.R. Gaskel, An Introduction to Transport Phenomena in Materials Engineering, 

Macmillan Publishing Co., 1992. 



3. S. Soepriyanto, Pengantar Fenomena Perpindahan dengan Faktor Geometri, Diktat 

Kuliah ITB, 2003. 

3. Geiger and Poirier, Transport Phenomena in Metalurgy, McGraw-Hill, 1973. 

3. Bird, Stewart, and Lightfoot, Transport Phenomena, John Wiley & Sons, 1960. 

MG3131 Physical Metallurgy (Compulsory, 4 SKS) 

Short Syllabi 

Relationship between microstructures of metals and alloys and physical metallurgy. 

Crystal structures of metals, crystal defects, elastic and plastic deformations, theoretical 

concepts of alloy strength, strengthening mechanisms of metals and alloys. Testing of 

mechanical properties, x-ray diffraction analysis, metallography. Phase diagrams, steel and 

sact iron phase diagrams and their microstructures. Alloys of Al, Cu and Ni and basics of 

alloy heat treatment. Diffusion in alloys. 

Offered To(PS Peserta) 

Department of metallurgical Engineering 



1. Crystallography, Prerequisit 

2. Static and Strength of Materials, Prerequisit 


1. Reed-Hill, R.E., Abbaschian, R., Physical Metallurgy Principles, PWS-Kent 

Publishing Company, Boston, 1992. 

2. Verhoeven, J.D., Fundamentals of Physical Metallurgy, John Wiley&Sons, 1975. 

3. Avner, S.H., Introduction to Physical Metallurgy, McGraw-Hill, 1974. 

4. Smallman, R.E., Modern Physical Metallurgy, Butterworth, 1985. 

5. Sinha, K., Ferrous Physical Metallurgy, Elsevier, 1990. 

6. Basuki, E. A., Buku Ajar Metalurgi Fisika, 2003. 

MG3211 Coal Processing and Utilization (Compulsory, 3 Credits) 


Introduction to coal quality: its origin and parameters. Role of coal as an energy source 

for industry. Coal preparation and washing. Coal pirolysis, gasification, and liquefaction. 

Clean coal technology. 

Offered To 




- 


1. Eliot, Chemistry of Coal Utilization, John Wiley & Sons, 1981. 

2. Edgar, Coal Processing and Pollution Control, Gulf Publishing, 1983. 

3. Meyers, Coal Handbook, Marcel Dekker, 1981. 



4. Mitchell, L.B., Coal Preparation, AIME, 1968. 

5. Osborne, D.G., Coal Preparation Technology, Vol. 1 & II 

6. Speight, J.G., The Chemistry and Technology of Coal, Marcel Dekker, Inc., 1994. 

7. Van Krevelen, Coal Science and Technology, Elsevier, 1981. 

8. Berkowitz, The Chemistry of Coal, Elsevier, 1985. 

MG3212 Industrial Mineral Utilization (Compulsory, 3 Credits) 


Introduction to industrial minerals: their potentials to be utilized in industry. Industrial 

minerals properties as basic commodities, their processing, and their requirements needed 

in industry. Process analyses of cement, ceramic, and refractory makings, and other 

processes in industry both as basic and inter product commodities. Phase diagrams 

especially for oxides in order to maintain quality of product. 

Offered To 




- 


1. Lefond, S.J., Industrial Mineral and Rocks, 1983. 

2. Johnstone, Minerals for the Chemicals and Allied Industries. 

3. Norton, Refractories, McGraw-Hill 1977. 

4. Kingery, Bower and Uhlman, Introduction to Ceramics, John Wiley 1976. 

5. Jan Bijen, Blast Furnace Slag Cement. 

6. Ghost, Cement and Concrete Science & Technology, ABI Books, 1991. 

7. Banerjea, Technology of Portland Cement and Blended Cement, Wheeler Publishing, 

1980. 

MG3213 Mineral Processing B (Compulsory, 3 Credits) 


Basic knowledge on crushing, grinding, sizing and techniques in separation of valuable 

minerals from their gangues based on their physical properties in order to produce 

concentrate which meets consument requirements. 

Offered To 




- 


1. Wills, Mineral Processing Technology, Pergamon Press, 1977. 

2. Pryor, Mineral Processing, Mining Publication, 1960. 

3. Robert, Mineral Processing, Pergamon Press, 1963. 



4. Kelly, F.C., and Spottiswood, D.J., Introduction to Mineral Processing, John Wiley & 

Sons, 1982. 

5. Currie J.H., Unit Operation in Mineral Processing, DCMT, 1973. 

6. SME Mineral Processing Handbook, Vol. 1., N.L. Weiss (editor), 1985. 

7. Taggart, A.F., Handbook of Mineral Dressing, John Wiley & Sons, 1954. 

MG3231 Phase Transformation and Heat-tretment (Compulsory, 3 SKS) 

Short Syllabi 

Annealing of steels, recovery, recrystallization and grain-growth. Diffusion induced phase 

transformation, nucleation, growth and coarsening of precipitates,. Age-hardening of Al, 

and Ni alloys. Diffusionless phase transformation, quench hardening and tempering of 

steels. Surface haedening, carburizing, nitriding, nitrocarburizing, carbonitriding. Post 

carburizing heat treatment. 


Dept. Tek. Pertambangan 

Fak: IKTM - ITB 


Physical metallurgy, Prerequisit 


1. Porter, D.A., and Easterling, K.E., Phase Transformation in Metals and Alloys, 

Chapman & Hall, Second Edition, 1992. 

2. Brooks, C.R., Heat Treatment, Structure and Properties of nonferrous Alloys, 

American Society for Metals, 1982. 

3. Martin, J.W., and Doherty, R.D., Stability of Microstructure in Metallic Systems, 

Cambridge University Press, 1976. 

4. Cahn, R.W., Haasen, P., and Kramer, E.J., Phase Transformations in Materials, in 

Materials Science and Technology, A Comprehensive Treatment, VCH Publishers Inc., 

1991. 

5. Polmear, I.J., Light Alloys, Metallurgy of The Light Alloys, Edward Arnold. 1989. 

6. Glicksman, M.E., Diffusion in Solids, John Wiley and Sons, 2000. 

7. Basuki. E.A., Buku Ajar Transformasi Fasa dan Perlakuan Panas, Dept. Tek. 

Pertambangan, ITB, 2003. 

MG4101 Metal Forming Technique (Wajib, 3 SKS) 

Short sylabi 

Continum mechanic concept, plasticity theory, stress-strain analysis, yield criteria. 

Clasification of metal forming and examples of various metal forming products. Force and 

work energy calculation for various metal forming . Metallurgical engineering concepts to 

obtain better formability and standards of deformation boundaries for metals. 


Dept/PS: Tek. Pertambangan 

Fak: IKTM/FTI - ITB 




1. Physics - mechanics, Prerequisit 

2. Physical metallurgy, Prerequisit 


1. Dieter, G.E., Mechanical Metallurgy, SI-Metric, Ed., McGraw-Hill, 1988. 

2. Chawla, Mechanical Metallurgy, McGraw-Hill, 1992. 

3. Kalpakjian, S., Manufacturing Processes for Engineering Materials, Addison Wasley, 

1992. 

4. Prosiding Simposium Besi-baja Nasional, ITB, 1996. 

5. ASM-International, Metals Handbook, vol.5 : Forming of Metals, 10 th Ed., 1990. 

MG4121 Hydro-Electrometallurgy (Compulsory, 3 SKS) 

Syllabus 

Study of metal extraction by using leaching agent. Explanation of several theories that 

support it, latest developments in process, leaching method, and recovery, and its 

application in industries. In addition, the explanation of several methods in electrowining, 

electrorefining, electrodissolution, electroplating, and metal anodization by using DC or 

electrolitically. 





- 


4. Butler, J.N., Ionic Equilibrium, A Mathematical Approach, Addison-Wesley, London, 

1964. 

4. Breet C.M.A. and Breet A.M.O., Electrochemistry, Principles, Methods and 

Application, Oxford University Press., Oxford, 1993. 

4. Habashi, F., A Textbook of Hydrometallurgy, Metallurgie Extractive Quebec, Enr., 

Quebec, 1993. 

4. Gjortheim, K. and Welch B.J., Aluminium Smelter Technology, Aluminium Verlag, 

Dusserldorf, 1987. 

4. Jackson, E, Hydrometallurgical Extraction and Reclamation, Ellis Horwood & Sons, 

New York, 1986. 

4. Marsden, J and I House, The Chemistry of Gold Extraction, Ellis Horwood, New 

York, 1993. 

4. Umar, Faraz, Hidrometallurgi, Diktat & Kuliah ITB/PAU Ilmu Rekayasa, Bandung, 

2002 (Pengembangan) 

4. Umar Faraz, Elektrometallurgi, Diktat Kuliah ITB/PAU Ilmu Rekayasa, Bandung, 

2002 (Pengembangan) 

4. Artikel ilmiah dari berbagai jurnal ilmiah terbaru. 



MG4122 Pyrometallurgy (Compulsory, 3 SKS) 

Syllabus 

Fundamental characteristics of units in pyrometallurgical process for extraction and 

refining of non-ferrous metals. Thermodynamics and kinetics theories are implemented for 

explaining interaction and equilibrium between phases in the system, including calculation 

examples as its analysis fundamental and process evaluation. Several examples of 

important metals extraction and refining are described, i.e. copper, nickel, zinc, tin, and 

lead. 







9. Calculation in Metallurgical Processes, Prerequisite 


3. Alcock, Principles of Pyrometallurgy, Academic Press, 1976. 

3. Coudourier, Fundamental of Metallurgical Process, Pergamon Press, 1978 

3. Rosenqvist, Principles of Extractive Metallurgy, McGraw-Hill, 1983. 

3. Rao, Y.K., Stoichiometry and Thermodynamics of Metallurgical Processes, 

Cambridge University Press, 1985 

3. Soetjipto, R.B., Pirometalurgi Logam-logam Non-Ferro, Diktat Kuliah, ITB, 2002. 

MG4131 Foundry Technology (Compulsory, 2 SKS) 

Short Syllabi 

Principles of metal casting, moulding materials, sand testing, pattern making, fluidity of 

fluid metals. Solidification of metals, effects of thermal gradient and solidification gap on 

the grain staructures of casting.. Gating systems and design, risers and risers design, chill. 

Calculation of gating and riser dimensions. Melting practices and alloying, inspection and 

finishing. Casting defects, causes and preventions. 



Nd 

Fak: : IKTM - ITB 


1. Metalurgi Fisika, Prerequisit 

2 Transformasi Fasa, Prerequisit 

3. Fenomena Transport, Prerequisit 


1. Beeley P.R., Foundry Technology 

2. Flint, Fundamental of Metal Casting, Adiwes. 

3. Carl Loper, Rosenthal, Principles of Metals Casting, McGraw Gill 

4. Sylvia J.G., Cast Metals Technology 



5. International Atlas of Casting Defect, AFS. 

MG4123 Iron and Steel Metallurgy (Compulsory, 3 SKS) 

Syllabus 

Descriptions of iron and steel making in general with its installation equipments. 

Understanding of thermodynamics and kinetics principles in blast furnace iron and steel 

making. Alternative iron making processes, especially the direct reduction and smelting 

reduction processes. Basic oxygen furnace processes, electric furnace steel making, 

secondary steel making, stainless steel and continuous casting. 








5. Pyrometallurgy, Prerequisite 


4. Bodsworth, Physical Chemistry of Iron and Steel Manufacture, Longmans Green, 

1965. 

4. Biswas, A.K., Principles of Blast Furnace Ironmaking, Cootha Publ.,1980. 

4. Deo, B. and Boom, R., Fundamentals of Steel Making Metallurgy, Prentice Hall, 1993. 

4. Turkdogan, E.T., Fundamentals of Steel Making, The Institute of Materials, London, 

1996. 

4. Fruehan, R. J., The Making, Shaping, and Treating of Steel, Steelmaking and Refining 

Volume, The AISE Steel Foundation, 1998. 

4. AISE, The Making, Shaping and Treating of Steel, Ironmaking Volume, The AISE 

Foundation, Edisi ke-11, Pitsburg, 1999. 

4. Soetjipto, R.B., Metalurgi Besi dan Baja, Diktat Kuliah, ITB, 2002. 

MG4251 Corrosion Control (Compulsory, 3 SKS) 

Short sylabi 

Mechanisms of metal degradation and kinetics due to aqueous corrosion, corrosion forms, 

degradation beharvious and corrosion control technology and material selection. Corrosion 

rate determination, aqueous corrosion tests and description on corrosive environments in 

various places and operations. Principles and design of catodic and anodic protections. 

Mechanism and kinetics of high temperature corrosion. Application of corrosion resistance 

materials. 





1. Termodinamika Metalurgi, Prerequisit 



2. Perhitungan – perhitungan dalam Metalurgi Proses, Prerequisit 

3. Teknik Pengendalian Korosi, Prohibition 

4. Proses Elektrokimia Material, Prohibition 


1. Purwadaria, S., Diktat Kuliah Korosi Aqueous dan Pengendaliannya, 2002. 

2. Jones, D.A., Principles and Prevention of Corrosion, Maxwell McMillan, 1995. 

3. Roberge, P.R., Handbook of Corrosion Engineering, McGraw-Hill, 2000. 

4. Shreir et al, Corrosion, Vol 1 & II, 3 rd Edd., Butterworth-Heinemann, 1995. 

5. Briks, N. and Meier, G.H., Introduction to High Temperature Oxidation of Metals, 

Edward Arnold, 1983. 

MG5101 Process Control (Compulsory, 3 SKS) 

Syllabus 

Introduction. Laplace Transformation. Response from first and second order systems. 

Fundamental process control components consist of measurement, decision making and 

action. Block diagram. Transfer function for closed loop. Stability concept. Plant and 

instrumentation diagrams. P-PI-PID loop tuning. Introduction to computer application in 

process control. Examples of process control application in mineral processing and 

metallurgy industries. 





Matematika Terapan, Prerequisite 


7. Coughanowr, D.R., Process System Analysis and Control, second edition, McGraw- 

Hill, 1991 

7. Smith, C.A., and Corripio, A.B., Principles and Practice of Automatic Process 

Control, second edition, John Wiley & Sons, 1997. 

7. Flintoff, B.C., dan Mular, A.L., A Practical Guide to Process Controls in Minerals 

Industry, University of British Columbia- Brenda Mines Ltd.-The Mining Industriy 

Technology Council of Canada, 1992. 

7. Stephanopoulos, Chemical Process Control, Prentice-Hall, 1984. 

7. Paper-paper yang berhubungan. 

MG5221 Plant Design of Extractive Metallurgy (Preference, 3 SKS) 

Syllabus 

Study of design method, calculation, and other aspects that related in planning 

hydrometallurgy and electrometallurgy plant construction. This study describes the way in 

selecting equipments and the technique to calculate equipment, plant capacity, and its 

economic factors as well. 







-- 


5. Fine, H.A. and Geiger G.H., Handbook on Material Balance and Energy Balance 

Calculation in Metallurgical Processes, The Metallurgical Society of AIME, New 

York, 1979. 

5. Frank J.V.R., Project Evaluation in the Chemical Process Industries, New York, 1983. 

5. Van Zyl, D.J.A., Hushison I.P.G. and Kiel J.E., Society of Mining Engineering Inc., 

Littleton, Colorado, 1988. 

5. Umar, Faraz, Perencanaan Pabrik Hidro-Elektrometallurgi, Diktat Kuliah, Departemen 

Teknik Pertambangan IKTM-ITB, 2003. 

MG5211 Mill Plant Design (Limited Choice, 3 Credits) 


Mill selection with regard to mine location, to water sources, to tailings disposal, to 

topography of mill site, etc. Smelter schedule and its benefit. Designing of a mill plant: its 

calculation of material and water balances, and selection of equipments. Plant layout and 

drawing. Estimation of plant investment. 

Offered To 




Mineral Processing or Unit Operations, Prerequisit 


1. Newton, Chemical Engineering Cost Estimation, McGraw-Hill, 1955 

2. Denver, Modern Numerical Processing Flowsheet 

3. Denver, Equipment Handbook 

4. Weiss, Mineral Processing Handbook, SME, 1985. 

5. Mular, Manual Processing Plant design and Economic for Chemical Engineering, 

McGraw-Hill, 1968. 

6. Mular, Mineral Processing Equipment Cost and Preliminary Capital Cost Estimation, 

1978. 

7. Rexnold, Reference Manual - Nodberg Process Machinery, 1976. 

8. Pegson, Aggregate Producers Handbook. 

9. Leaflet and other manuals. 



MG5212 Advance Mineral Processing (Limited Choice, 3 Credits) 


Capillarity, Adsorption from liquid, Electrical double layer, Zeta potential calculation, 

Flotation thermodynamics, Cationic flotation of oxide and silicate minerals, Anionic 

flotation of oxide and silicate minerals, Electrochemical of sulphide minerals, Flotation 

kinetics, Water quality: coagulation, flocculation, sedimentation, and filtration, 

Management of cyanidation process waste, Air pollution, Mathematical modeling of 

mineral process operation. 

Offered To 




- 


1. Jaycock, M.J., Parfitt, G.D., Chemistry of Interfaces, John Wiley & Sons, 1981. 

2. Paul C. Hiemenz, Principles of Colloid and Surface Chemistry, Marcel Dekker, Inc., 

New York and Basel, 1986. 

3. Adamson, A.W., Physical Chemistry of Surfaces, John Wiley & Sons. Inc, 1990. 

4. Hunter, R.J., Zeta Potential in Colloid Science, Principles and Applications, Academic 

Press, 1981. 

5. Lynch, A.J., et. al, Mineral and Coal Flotation Circuits, Elsevier, 1981. 

6. Mathematical Modeling in Chemical Processes. 

MG5222 Advanced Metallurgical Process (Preference, 3 SKS) 

Syllabus 

Application of thermodynamics and kinetics calculation in common multi components and 

multi phases systems, which are used for metal extraction and refining process designs. 

Several examples will be discussed, such as: mass and energy balance calculation of 

complex systems, equilibrium of complex sulphide roasting process. Multi-component 

equilibrium in slag-metal-gas system in iron making, etc. 









3. Alcock, Principles of Pyrometallurgy, Academic Press, 1976. 

3. Coudourier, Fundamental of Metallurgical Process, Pergamon Press, 1978 

3. Fine, H.A. and Geiger, G.H., Handbook on Material and Energy Balance Calculations 

in Metallurgical Processes, The Metallurgical Society of AIME, 1979. 

3. Rosenqvist, Principles of Extractive Metallurgy, McGraw-Hill, 1983. 



3. Rao, Y.K., Stoichiometry and Thermodynamics of Metallurgical Processes, 

Cambridge University Press, 1985 

3. Soetjipto, R.B., Kumpulan kasus-kasus metalurgi proses, dalam persiapan. 

MG5231 Alloy Design and Casting (Pilihan Wajib, 3 SKS) 

Short sylabi 

Design methodology: stages and activities on engineering design. Design criteria, 

properties and important factors in alloy design and selection. Application of metal charts, 

and relation between various alloy and other materials. Properties and selection of steels 

and cast irons and non-ferrous. Concepts of alloy development for various applications 

and components, alloy making practices. 


Dept/PS: TA 



Transformasi Fasa dan Perlakuan Panas, Prerequisit 


1. Mangonon, P.L., The Principles of Materials Selection for Engineering Design, 

Prentice-Hall International, Inc., 1999. 

2. ……, Materials Selection and Design, ASM, 1997. 

3. Davis, J.R., Alloying: Understanding the Basics, ASM, 2001. 

4. Donachie, M.J., and Donachie, S.J., Superalloys, ASM International, 2002. 

5. Davis, J.R., Stainless Steels, ASM International, 1994. 

MG5232 Advanced Physical Metallurgy (Wajib, 3 SKS) 

Short syllabi 

Discuss metal structures and crystallography, mechanical properties of metals and 

mechanical tests. Alloy constitutions and phase diagrams will be given. Crystal defects 

and dislocation theory as the basic for metal deformation will be further discussed in 

detail. Annealing and hot working, kinetics of heat treatment (TTT, CCT diagrams), and 

phase transformation is given in heat treatment. Desiagn and classification of alloys will 

be discussed in general. Principles of solidification is offered in relation with casting and 

welding. Relation between alloy, microstructure and process, with mechanical aspects 

such as brittle and ductile fractures, deformation at high temperature (creep and rupture), 

fracture mechanics, metal fatigue. 

Offered To (PS Peserta) 

Dept : Tek. Pertambangan Fak : IKTM ITB 

Related Course 

- 

References / Bibliography 



1. Physical Metallurgy Principles 3 rd Ed, Reed Hill, PWS-KENT, Publishing 

Company,1992 

2. Introduction to Physical Metallurgy, Avner, McGraw Hill, 1987. 

3. Mechanical Metallurgy, Dieter, McGraw-Hill, 1986. 

4. Deformation and Fracture Mechanics of Engineering Materials, Hertzberg, Willey, 

1983.

3. Prodi Teknik Pertambangan (S-1) - ITB

You also want an ePaper? Increase the reach of your titles

Delete template?

Save as template?