TF092412: KONTROL OTOMATIK LANJUT TF092412: Advance Automatic Control
[FAKULTAS TEKNOLOGI INDUSTRI] [FACULTY OF INDUSTRIAL TECHNOLOGY] ELECTIVE COURSES TF092411: TEKNIK OPTIMASI MATA KULIAH/ TF092441: Optimization Techniques
COURSE TITLE
2/ 2
Credits :
3 Semester:
TUJUAN Mahasiswa mampu menerapkan konsep optimasi pada suatu
x
PEMBELAJARAN/
sistem
LEARNING Students are able to apply the optimization concepts in a system
OBJECTIVES x
Mahasiswa mampu menjelaskan konsep optimasi sebuah sistem x Mahasiswa mampu melakukan prosedur dalam optimasi sebuah x
KOMPETENSI/
sistem
COMPETENCY Students are able to explain the optimization concepts in a system
x
Students are able to do the optimization procedures in a system
x Ruang lingkup, tingkatan optimasi dan prosedur memecahkan x masalah optimasi Formulasi fungsi obyektif, biaya investasi, biaya operasional, x mengukur dan mengoptimalkan keuntungan Teori dan metoda optimisasi : konsep dasar, optimisasi tanpa x kendala, optimisasi multivariabel dengan kendala, Pemrograman Linier dan aplikasinya Aplikasi teknik optimisasi pada industri proses : boilers, x
POKOK
compressors, CSTR, evaporators, heat exchanger, dan dan proses
BAHASAN/
separasi; Optimisasi pada disain plant skala besar (large-scale)
ITS : 2009-2014 SUBJECTS
The scope, level of optimization and optimization problem solving
x
procedures Formulation of objective functions, investment costs, operational
x
rriculum costs, measure and optimize the benefits
Cu Theory and methods of optimization: basic concepts, optimization
x
without constraints, multivariable optimization with constraints, Linear Programming and its application The application of optimization techniques in industrial processes:
x
Kurikulum/ boilers, Compressors, CSTR, Evaporators, heat exchangers, and
separation process; Optimization of plant design of large-scale (large-scale) PUSTAKA Rao, Optimization – Theory and design, Tata McGraw Hill.
x
UTAMA/ Himmelblau TF, Lasdon LS, Optimization of Chemical Process,
x McGraw Hill, 2001
REFERENCES TF092412: KONTROL OTOMATIK LANJUT MATA KULIAH/ TF092412: Advance Automatic Control
COURSE TITLE
Credits : 2/ 2 Semester:
3 Mahasiswa mampu merancang sistem pengendalian yang x
TUJUAN
berbasis pada teknologi untuk pencapaian peningkatan
PEMBELAJARAN/ produktivitas dan kualitas produk.
LEARNING OBJECTIVES
x Students are able to design control systems based on technology for
achieving increased productivity and product quality
Mahasiswa mampu menganalisis dan melakukan perancangan x sistem pengendalian otomatik menggunakan persamaan ruang keadaan (state space), sampai pada optimasi system Mahasiswa mampu berfikir kreatif dalam membuat model sistem x pengendalian otomatis dengan menggunakan media TIK, serta
KOMPETENSI/
memprsentasikan hasil karya rancangan
COMPETENCY Students can analyze and perform an automatic control system
x
design using state space, until to the optimization system Students are able to think creatively to make a model of
x
ITS : 2009-2014 automatic control systems by using ICT media, and prsentetation their design work
Kendali secara Prediktif x
rriculum
Model Kendali Internal x
POKOK Cu
Sistem Kendali Model Referensi x
BAHASAN/ Predictive Control
SUBJECTS x Internal Model Control
x
Reference Model Control
x
Kurikulum/ Camacho and Bourdon, Model Predictive Control, Springer Verlag, x 2000.
PUSTAKA
Anshari R.M, Tade M O, Nonlinear Model Based Process Control – x
UTAMA/ Application in Petroleum Refining, Springer Verlag, 2000.
REFERENCES Bela L Liptak , Control Process, Chilton BC. 1995.
x
TF092413: STATISTICAL PROCESS CONTROL
MATA KULIAH/ TF092413: Statistical Process Control
COURSE TITLE
Credits : 2/ 2 Semester:
3 Mahasiswa mampu menerapkan konsep kendali kualitas secara x
TUJUAN
statistik, mengidentifikasi sistem untuk meningkatkan kualitas
PEMBELAJARAN/
dari sistem
LEARNING OBJECTIVES Students can apply the concept of statistical quality control,
x
identifying the system to improve the quality of the system
Mahasiswa mampu menerapkan prosedur dalam memperoleh x chart kendali kualitas pada suatu sistem Mahasiswa mampu menganalisa kualitas dan kapabilitas suatu x sistem Mahasiswa mampu merancang ulang untuk meningkatkan x
KOMPETENSI/
kualitas sistem
COMPETENCY Students can apply the procedure in obtaining the quality control
x
charts in a system Students can analyze the quality and capability of a system
x
ITS : 2009-2014 Students are able to redesign the system to improve the quality of
x
system
Chart Control x
rriculum
Prinsip sampling, karakteristik operasi x
POKOK
Karakteristik proses Cu x
BAHASAN/ Chart Control
SUBJECTS
x
Sampling priciples, operation characterization
x
Process Characteristics
x
Kurikulum/
PUSTAKA
Chen, C.L., Statistical Process Control x Montgomery, D.C., Introduction to Statistical Quality Control,
UTAMA/
x Wiley & Sons , 1996
REFERENCES TF092414: SISTEM KECERDASAN BUATAN MATA KULIAH/ TF092414: Artificial Intelligence
COURSE TITLE
2/ 2
Credits :
3 Semester: x Mahasiswa mampu menerapkan beberapa sistem kecerdasan
TUJUAN buatan dalam sistem rekayasa. PEMBELAJARAN/ LEARNING
Students are able to apply some artificial intelligence systems in
x
OBJECTIVES systems engineering
Mahasiswa mampu merancang sistem instrumentasi dan x pengendalian dengan berdasarkan kecerdasan buatan Mahasiswa mampu menggunakan sistem kecerdasan buatan pada x beberapa kasus keteknikan
KOMPETENSI/ COMPETENCY
x Students are able to design instrumentation and control systems
based on artificial intelligence
x Students are able to use artificial intelligence systems in some
technical cases
Kecerdasan Buatan x Sistem Fuzzy x
ITS : 2009-2014
Jaringan syaraf tiruan x
POKOK
Sistem pakar x
BAHASAN/ rriculum
Artificial Intelligence SUBJECTS
x
Cu Fuzzy Systems
x
Neural Network
x
Expert System
x
Kurikulum/ PUSTAKA Fawset L, Fundamental of Neural Networks – Architectures,
x
UTAMA/ Algorithm and Applications, Prentice Hall, 1994.
Zimmerman H J, Fuzzy Set Theory and Its Application, Kluwer
REFERENCES x Academic Publisher, Boston, 1996.
Kosko B, Neural Networks and Fuzzy Systems, Prentice Hall, 1992 x Kovacic, S., Bogdan, S., Fuzzy Controller Design,CRC Taylor & x Francis Group, 2005
TF092415: TEKNOLOGI SISTEM INFORMASI MATA KULIAH/ TF092415: Information System Technology
COURSE TITLE
2/ 2
Credits :
3 Semester:
Mahasiswa mampu menggunakan sistem teknologi informasi x
TUJUAN
sebagai pendukung thesisnya
PEMBELAJARAN/ LEARNING
Students are able to use information technology systems to
x
OBJECTIVES support the thesis
Mahasiswa mampu menggunakan sistem teknologi informasi x untuk materi presentasi ilmiah Mahasiswa mampu merancang sistem informasi teknologi secara x terintegrasi
KOMPETENSI/ COMPETENCY
Students are able to use information technology systems for
x
scientific presentation Students can design a system of integrated information
x
technology
Arsitektur Sistem Informasi Terintegrasi, Sistem antarmuka x Instrumen Integrasi dan Migrasi x
ITS : 2009-2014
Database historis dan real time, relasi sistem data base x Program otomasi, layer presentasi data x
POKOK
Sistem berbasis pengetahuan x
rriculum BAHASAN/
Cu Integrated Information System Architecture, Information System
SUBJECTS
x
Interfacing Instrument Integration and Migration
x
Real-Time and Historical Database
x
Program Automation , Data Presentation Layer
x
Kurikulum/ Knowledge Based System
x
PUSTAKA Malaga, R., Information System Technology, Prentice Hall
x
UTAMA/ Davis, W.S. and Yen, D.C., The Information System Consultant’s
x Handbook: Systems Analysis and Design, CRC Press.
REFERENCES TF092416: DATA MINING DAN MANAJEMEN DATA MATA KULIAH/ TF092416: Mining and Managemen Data
COURSE TITLE
2/ 2
Credits : Semester: 3 TUJUAN Mahasiswa mampu mengolah dan mengelola data untuk
keperluan pelayanan kesehatan dan biomedis
PEMBELAJARAN/ LEARNING
Students are able to process and manage data for health services OBJECTIVES and biomedical
Mahasiswa mampu melakukan pengolahan data mining x Mahasiswa mampu mengelola data untuk pelayanan kesehatan x
KOMPETENSI/
dan biomedis
COMPETENCY Students are able to do the processing of data mining
x
Students are able to manage data for health services and
x
biomedical
Manajemen pengetahuan dan data mining x Strategi data mining: supervisi, un supervisi x Algoritma dan teknik pada data mining: prediksi, klasifikasi, x eksplorasi dan, analisa afinitas
POKOK
Aplikasi Data Mining pada Data Pelayanan Kesehatan dan x
BAHASAN/ biomedis
ITS : 2009-2014 SUBJECTS
Knowledge management and data mining (overview)
x
Data mining strategies: supervised, unsupervised
x
Algorithms and techniques in data mining: prediction, rriculum
x
classification, exploration, affinity analysis Cu
Data Mining Applications in Health Care Data and biomedical
x
PUSTAKA
Hand, Mannila, and Smyth., Principles of Data Mining. Cambridge, x MA: MIT Press, 2001.
UTAMA/
Edelstein, Introduction to Data Mining and Knowledge Discovery, x
REFERENCES Kurikulum/
Cios, K.J., Medical Data Mining and Knowledge Discovery, Physica- x
Verlag Heidelberg, 2001
TF092421: FISIKA TUBUH MANUSIA MATA KULIAH/ TF092421: Human Body Physics
COURSE TITLE
2/ 2
Credits : Semester: 3
Mahasiswa mampu menganalisa fenomena fisika dalam sistem
TUJUAN
tubuh manusia
PEMBELAJARAN/ LEARNING
Students are able to analyze physical phenomena in the human OBJECTIVES body system
x Mahasiswa mampu menganalisa fenomena fisika yang terkait dengan anatomi dan fisiologi tubuh manusia x Mahasiswa mampu menganalisa sifat keteknikan yang terkait
KOMPETENSI/
dengan anatomi dan fisiologi tubuh manusia
COMPETENCY
x Students able to analyze the physical phenomena associated with
the anatomy and physiology of the human body
x Students able to analyze the technical nature related to the
anatomy and physiology of the human body
Terminologi-terminologi penting terkait dalam anatomi dan x fisiologi tubuh, sel: organ, Mekanisme komunikasi serta pertukaran antar sel, rangka dan x sistem otot, jantung dan sistem peredaran darah, sistem pernafasan, sistem dan organ pencernaan, ginjal dan sistem
ITS : 2009-2014
urogenital, sistem endokrin, darah dan sistem kekebalan, otak
POKOK dan sistem syaraf, organ-organ pengindera, kulit. BAHASAN/ SUBJECTS rriculum
Terminology is important-related terminology in anatomy and
x
Cu physiology, cell: organ, The mechanism of communication and exchange between cells,
x
the framework and the muscular system, heart and circulatory system, respiratory system, digestive system and organs, kidney and urogenital system, endocrine system, blood and immune
Kurikulum/ system, brain and nervous system, organs, sensors, skin
PUSTAKA
x Herman, Irving P., Physics of the Human Body, Springer, 2007
UTAMA/
x Marieb, E. N., Human Anatomy and Physiology, Benjamin Cummings, 2003
REFERENCES TF092422: DASAR-DASAR CLINICAL ENGINEERING MATA KULIAH/ TF092422: Fundamental Of Clinical Engineering
COURSE TITLE
2/ 2
Credits : Semester: 3
Mahasiswa mampu memahami dan menjalankan prosedur untuk memenuhi standard pelayanan kesehatan yang terkait dengan
TUJUAN
bidang keteknikan
PEMBELAJARAN/ LEARNING
Students are able to understand and carry out procedures to meet OBJECTIVES the standard of health services associated with the field of engineering
x Mahasiswa mampu memahami standard prosedur dalam pengelolaan rumah sakit yang terkait dengan problem keteknikan x Mahasiswa mampu memahami regulasi dan standard dalam
KOMPETENSI/
pelayanan kesehatan
COMPETENCY
x Students are able to understand the standard procedures in the
management of hospital-related technical problems
x Students are able to understand the regulations and standards in
health care Clinical Engineer (CE) sebagai suatu profesi (overview),
x
ITS : 2009-2014
Peran, karier & tanggung jawab CE, Model suatu Departemen CE x di Rumah Sakit, CE dan peran manajerial, CE dan issues Patient-safety, CE dan x
POKOK rriculum
problem keteknikan di Rumah Sakit,
BAHASAN/
Regulasi dan Standard di bidang pelayanan kesehatan, Cu x
SUBJECTS
Professionalism and Ethics, CE dimasa depan x
Clinical Engineer (CE) as a profession (overview),
x
Kurikulum/ Roles, responsibilities careers & CE, Model CE Department in a
x
Hospital CE and managerial roles, CE and Patient-safety issues, CE and
x
technical problems at the hospital Regulations and Standards in the field of health services,
x
Professionalism and Ethics CE in the future
x
PUSTAKA Dyro, J., Clinical Engineering Handbook, Elsevier
x David, Y., Clincal Engineering (Principles and Applications), Taylor
UTAMA/
x & Francis.
REFERENCES
TF092423: ASSESMEN DAN MANAJEMEN TEKNOLOGI KESEHATAN MATA KULIAH/
TF092423: Assesment And Management of
COURSE TITLE
Healthcare Credits : 2/ 2 Semester: 3
Mahasiswa mampu melakukan asesmen dan manajemen yang
TUJUAN
terkait dengan instrumen dalam teknologi kesehatan
PEMBELAJARAN/ LEARNING
Students are able to do an assessment and manage the OBJECTIVES instrument in health technology
x Mahasiswa mampu melakukan asesmen instrumen untuk pelayanan kesehatan x Mahasiswa mampu mengelola penggunaan intrumen untuk pelayanan kesehatan x Mahasiswa mampu mengelola laboratorium untuk pelayanan
KOMPETENSI/
kesehatan
ITS : 2009-2014 COMPETENCY
x Students are able to do an assessment of instrument for health
services rriculum
x Students are able to manage the use of instruments for health
Cu services
x Students are able to manage the laboratory for health services Penilaian teknologi, Usability / Kompatibilitas penilaian x
POKOK
seleksi Produk / seleksi vendor, Device integrasi perencanaan, x
BAHASAN/ Kurikulum/
analisis siklus hidup, Device / upgrade sistem perencanaan
SUBJECTS Analisis laba atas investasi (Return on Invesment - ROI),
x perencanaan strategis teknologi kesehatan, manajemen Uji klinis (non-penelitian), perencanaan kapital Management Project, EMI / manajemen frekuensi radio, x penggunaan dan / atau aplikasi perangkat Klinis, prosedur set-up / pengujian Pre-Clinical, Partisipasi dalam prosedur klinis (misalnya pembedahan), Manajemen kualitas air, laboratorium, dialisis, farmasi, perangkat x Koordinator interoperabilitas / interfacing, jaringan sistem Klinis, Interpretasi kode dan standar
Technology assessment, usability/compatibility assessment,
x
Product selection/vendor selection, device integration planning,
x
life cycle analysis, device / system upgrade planning, Return on investment (ROI) analysis, Healthcare technology
x
strategic planning, Clinical trials management (non- investigational), Capital planning, Project management, EMI / radio frequency management, Clinical
x
devices use and / or application, Pre-Clinical procedure set-up / testing, Participation in clinical procedures (e.g. surgery), Water quality management, lab, dialysis, pharmacy, Coordinating
x
device interoperability / interfacing, Clinical systems networking, Interpretation of codes and standards PUSTAKA
Geisler, E. & Heller, O., Managing Technology in Healthcare, x Springer Verlag, 2006
UTAMA/
Chan, A.Y.K., Medical Technology Management Practice, Charles x
REFERENCES
C. Thomas Publ., 2003
TF092424: FOTONIKA BIOMEDIS MATA KULIAH/ TF092424: Biomedical Photonics
ITS : 2009-2014
2/ 2
COURSE TITLE Credits : Semester: 3 rriculum
Mahasiswa mampu menerapkan dan menganalisa aplikasi sinar
Cu TUJUAN
laser dalam bidang kedokteran
PEMBELAJARAN/ LEARNING
Students can apply and analyze the laser applications in medicine OBJECTIVES
Kurikulum/
Kurikulum/ Cu rriculum
ITS : 2009-2014 KOMPETENSI/ COMPETENCY
TUJUAN Mahasiswa mampu merancang dan menganalisa sistem
TF092425: TEKNOLOGI PENCITRAAN MEDIS TF092425: Medical Imaging Technology Credits : 2/ 2 Semester: 3
Lubatschowski, H., Lasers in Medicine: Laser-Tissue Interaction , Wiley-VCH.
Katzir, A., Lasers and Optical Fibers in Medicine, Academic Press, 1993 x Berlien, H-P & Mueller, G.J. (eds.), Applied Laser Medicine, Springer Verlag, 2003. x
x Waynant, R.W., Laser in Medicine, CRC Publ., 2001. x
REFERENCES
x Laser system and its components in medicine. x Various applications of laser systems in medicine. Laser safety. x QA programs for medical laser sisem.
Tissue and body characteristics of the laser beam. Laser light interaction with tissue materials.
x Tissue tubuh dan karakteristik terhadap sinar laser. Interaksi cahaya laser dengan materi tissue. x Sistem laser dan komponennya dalam kedokteran. x Berbagai aplikasi sistem laser dalam kedokteran. Laser safety. x QA program untuk sisem laser medis. x Basics of laser physics. x
SUBJECTS x Dasar-dasar fisika laser.
Students are technically capable of designing a security system for the use of lasers in medicine
x
Students can design a laser system for applications in medicine
x
Students are able to understand the nature of the laser interaction with the tisue of body
Mahasiswa mampu merancang secara teknis untuk sistem keamanan laser untuk penggunaan dalam bidang kedokteran x
Mahasiswa mampu merancang sistem laser untuk aplikasi dalam bidang kedokteran x
x Mahasiswa mampu memahami sifat interaksi tisue tubuh dengan sinar laser x
POKOK BAHASAN/
PUSTAKA UTAMA/
MATA KULIAH/
PEMBELAJARAN/ pencitraan medis LEARNING
Students are able to design and analyze medical imaging systems OBJECTIVES
Mahasiswa mampu melakukan pencitraan data medis x
KOMPETENSI/
Mahasiswa mampu melakukan pemrosesan sinyal dari data medis x
COMPETENCY Students are able to do medical imaging data
x
Students can perform signal processing of medical data
x Dasar-dasar fisika pencitraan medis x Detektor dalam pencitraan medis: besaran fisis terkait, prinsip x deteksi, Pengolahan sinyal dan displaynya x Metoda-metoda rekonstruksi citra x Berbagai aplikasi: CT Scan, Ultrasonografi, MRI, Optical Endosopy,
x POKOK
Thermography
BAHASAN/ SUBJECTS
The basics of medical imaging physics
x
Detector in medical imaging: relevant physical quantities, the
x
principle of detection, Signal processing and its display.
x
Method-image reconstruction
x
Various applications: CT Scan, Ultrasound, MRI, Optical Endosopy,
x
Thermography
Laondes, C.T., Medical Imaging Systems Techniques and x Applications: Computational Techniques, CRC Press Rostenberg, B., The Architecture of Medical Imaging: Designing x
PUSTAKA
Healthcare Fascilities for Advanced Radiological Diagnostics and
UTAMA/
Therapeutic Techniques, John Wiley, 2006
REFERENCES
Bankmann, I.N. (ed), Handbook of medical Imaging: Processing x and Analysing, Academic Press, 2000 Bushberg, J.T. et.al., The Essential Physics of Medical Imaging, x Lippincott Williams & Wilkins, 2001.
ITS : 2009-2014 rriculum
TF092426: RADIASI DAN PROTEKSINYA
Cu MATA KULIAH/ TF092426: Radiation And Protection COURSE TITLE 2/ 2
Credits : Semester: 3 Kurikulum/
TUJUAN
Mahasiswa mampu menganalisa fisika radiasi dalam kesehatan
PEMBELAJARAN/ tubuh manusia LEARNING
Students are able to analyze the physics of radiation in the human OBJECTIVES body health
Mahasiswa mampu memahami konsep fisika radiasi x Mahasiswa mampu menganalisa karakteristik interaksi tubuh x manusia dengan radiasi
KOMPETENSI/
Mahasiswa mampu merancang sistem perlindungan radiasi x
COMPETENCY Students are able to understand the concept of radiation physics
x
Students can analyze the characteristics of the human body's
x
interaction with the radiation Students can design a system of radiation protection
x Konsep-konsep dasar dalam fisika radiasi, radiasi mengion dan tak x mengion, jenis dan energi radiasi, interaksi radiasi dengan materi, Bahan radioaktif dalam aplikasi medis. x Dasar-dasar dosimetri: dosis radiasi dan pengukurannya. x
Pengaruh radiasi terhadap kesehatan manusia. Batas aman x radiasi. Perlindungan radiasi bagi pasien dan operator instalasi penyedia pelayanan radiasi.
Design sistem perlindungan radiasi pada instalasi pengguna x radiasi. Radiation safety dan QA.
POKOK BAHASAN/
Basic concepts in radiation physics, radiation ionisation and non
x
SUBJECTS ionisation, type and energy of radiation, interaction of radiation with matter
Radioactive materials in medical applications.
x Basics dosimetry: radiation dose and measurement. x
The influence of radiation on human health. The influence of
x
radiation on human health. Safe limit of radiation. Radiation protection for patient and operator radiation installation service provider.
ITS : 2009-2014 Design the system of radiation protection at the user installation
x
of radiation. Radiation safety and QA
Attix, H., Introduction to Radiological Physics and Radiation x
rriculum Dosimetry, John Wiley and Sons. Cu
PUSTAKA
Dyson, N.A., Radiation Physics with Applications in Medicine and x
UTAMA/ Biology, Ellis Horwood Ltd..
Ahmed, S.N., Physics and Engineering of Radiation Detection,
REFERENCES
x Academic Press, 2007 Coggle, J.E., Biological Effects of Radiation, Wykeham Kurikulum/ x Publications, London.
MATA KULIAH/
TUJUAN PEMBELAJARAN/
x Kebijakan energi nasional dan internasional x Pengguna akhir energi, keamanan pasokan dan ketersediaan energi x
POKOK BAHASAN/
x Turner, W.C., Energy Management Handbook, The Fairmont
Potential energy-saving and recommendations from an energy audit process PUSTAKA
x
Analysis of a survey of energy,
x
The standards in the energy audit,
x
End users of energy, security of energy supply and availability,
x
National and international energy policies,
Potensi-potensi penghematan energi dan rekomendasi dari suatu proses audit energi x
Standar - standar dalam audit energi x Analisa dari suatu survey energi x
Kurikulum/ Cu rriculum
ITS : 2009-2014
Students are able to design a technique for energy savings
x
Students are capable of running standard procedure in the energy audit
x
Students are able to analyze the national energy policy and international
Mahasiswa mampu merancang secara teknik untuk penghematan energi x
Mahasiswa mampu menjalankan prosedur standard dalam audit energi x
x Mahasiswa mampu menganalisa kebijakan energi nasional dan internasional x
Students are able to analyze the cycle of energy management KOMPETENSI/ COMPETENCY
Mahasiswa mampu menganalisa siklus dalam manajemen energi
LEARNING OBJECTIVES
Semester: 3
2/ 2
TF092431: AUDIT & MANAJEMEN ENERGI TF092431: Energy Audit And Management Credits :
SUBJECTS
MATA KULIAH/
TUJUAN PEMBELAJARAN/
Kurikulum/ Cu rriculum
x
x Prinsip – prinsip dasar dan komponen dari suatu sistem HVAC, x Perhitungan beban pemanasan dan pendinginan, x Potensi opsi-opsi penghematan dalam suatu sistem HVAC, x Konsep-konsep dasar listrik dan sistem tenaga, sistem distribusi daya, sistem wiring dan shielding, sistem proteksi dan emergency dalam sistem besar utilitas kelistrikan, x Perencanaan sistem kelistrikan, managemen sistem kelistrikan.
SUBJECTS
Students can analyze HVAC electrical systems in buildings
x
Students are able to design electrical components to the HVAC building system
Students are able to calculate the heating and cooling load of a building
ITS : 2009-2014 UTAMA/ REFERENCES
Mahasiswa mampu merancang komponen kelistrikan pada sistem HVAC bangunan x Mahasiswa mampu menganalisa sistem kelistrikan pada HVAC bangunan x
x Mahasiswa mampu melakukan perhitungan beban pemanasan dan pendinginan suatu bangunan x
Students are able to design electrical systems in the HVAC KOMPETENSI/ COMPETENCY
Mahasiswa mampu merancang sistem kelistrikan pada HVAC
LEARNING OBJECTIVES
TF092432: SISTEM HVAC & KELISTRIKAN TF092432: HVAC and Electricity System Credits : 2/ 2 Semester: 3
Standar Nasional Indonesia (SNI)
Press, Inc. 1997 x Capehart, B.L. et.al., Guide to Energy Management, x Donald R. Wulfinghoff, Energy Efficiency Manual, Energy Institute Press, 1999 x Wulfinghoff, D.R., Energy Efficiency Manual, Energy Institute Press, 1999 x Thumann, A. et.al., Handbook of Energy Audits, x Chen, K., Energy Management in Illuminating Systems, CRC Press. x
POKOK BAHASAN/
PUSTAKA UTAMA/
Kurikulum/ Cu rriculum
ITS : 2009-2014
x Sistem Kendali dalam manajemen energi x Dasar-loop kendali, Sensor, Transmiter, Pengendali, Divais yang
contro lin air distribution for comfort room
x Students are able analyze intrumentation system performances as
control for comfort room
x Mahasiswa mampu merancang sistem intrumentasi untuk pengendalian distribusi udara untuk kenyamanan ruang x Mahasiswa mampu menganalisa performansi sistem intrumentasi sebagai pengendali distribusi udara untuk kenyamanan ruang x Students can design an intrumentation system in air distribution
Students are able to design the control system of energy management KOMPETENSI/ COMPETENCY
Mahasiswa mampu merancang sistem kendali dalam manajemen energi
LEARNING OBJECTIVES
TF092433: SISTIM OTOMASI BANGUNAN TF092433: Building Automation System Credits : 2/ 2 Semester: 3
2000) , 2001 x Glen A. Mazur, Power Quality Measurement and Troubleshooting, Fluke , 1999
ASHRAE, ASHRAE Handbooks x BSN, Persyaratan Umum Instalasi Listrik 2000, ( SNI 04-0225-
Donald R. Wulfinghoff, Energy Efficiency Manual, Energy Institute Press, 1999 x
x Wiliam K.Y.Tao & Richard R. Janis, Mechanical and Electrical system in Building, Prentice Hall, 2001 x
REFERENCES
x Planning electrical systems, electrical systems management.
Basic concepts of electricity and power systems, power distribution systems, wiring and shielding systems, and emergency protection system in a large system of electric utilities,
x
Potential savings options in an HVAC system,
x
Calculation of heating and cooling load
x
The basic principles and components of an HVAC system
x
MATA KULIAH/
TUJUAN PEMBELAJARAN/
POKOK BAHASAN/
PUSTAKA UTAMA/
Kurikulum/ Cu rriculum
2/ 2
Students able to analyze the efficiency of the changes energy units in industry
x
Students can analyze in several types of energy change
Mahasiswa mampu menganalisa sistem keamanan pada unit peubah energi di industri x
Mahasiswa mampu menganalisa effisiensi dari unit peubah energi di industri x
x Mahasiswa mampu menganalisa sistem kerja pada beberapa jenis peubah energi x
Students are able to analyze in industry units of energy transformation KOMPETENSI/ COMPETENCY
Mahasiswa mampu menganalisa sistem kerja pada unit perubah energi di industri
LEARNING OBJECTIVES
Semester: 3
TF092434: REKAYASA SISTEM TERMAL TF092434: Thermal System Engineering Credits :
ITS : 2009-2014 SUBJECTS
x Turner, W.C., , Energy Management Handbook , The Fairmont Press, Inc. 1997 x Wulfinghoff, D.R., Energy Efficiency Manual, Energy Institute Press, 1999
and Building Automation Systems, Fairmont Press, 2007
x Capehart, B.L. and Capehart, L.C., Web Bases Enterprise Energy
REFERENCES
AHU Controller, Controller of major equipment, Control of distribution system
x
Controller Strategies
x
Basic-loop control, sensor, transmitter, controller, controller devices
x
The Control System in energy management system
dikendalikan x Strategi kendali x Pengendali AHU, Pengendali peralatan utama, Pengendali sistem distribusi udara kenyamanan x
MATA KULIAH/
TUJUAN PEMBELAJARAN/
POKOK BAHASAN/
Kurikulum/ Cu rriculum
x SG Dukelow, Improving Boiler Efficiency, Instrument Society of Amerika, 2000 x Donald R. Wulfinghoff, Energy Efficiency Manual, Energy Institute Press, 1999 x Decher, Reiner, Energy Conversion Systems, Flow Physics and Engineering, Oxford Eng.Sci Series. x
PUSTAKA UTAMA/
x Mahasiswa mampu menganalisa jenis – jenis energi saat ini x Mahasiswa mampu merancang sistem peubah energi yang
Students can design a system of renewable energy
KOMPETENSI/Mahasiswa mampu merancang sistem peubah energi terbarukan
LEARNING OBJECTIVES
Semester: 3
2/ 2
TF092435: TEKNOLOGI ENERGI TERBARUKAN
TF092435: Renewable Energy Technology Credits :Dincer, I. and Rosen, M.A., Thermal Energy Storage: Systems and Applications, Wiley, 2001.
REFERENCES
ITS : 2009-2014
Security systems, variable operation, maintenance, performance
testing, calculation efficiency, and plant systems
x
The influence of operating variables, Feeder and fluid condition, isolation, burners, combustion and fluid control feedback
x Performance and efficiency, and fuel combustion x
Thermal system on the boiler, cooling and heating systems, energy review, grade and type of boiler
Sistem keamanan, variable operasi, pemeliharaan, uji kinerja, perhitungan efisiensi, dan system plant. x
Kinerja dan effisiensi, Bahan bakar dan pembakaran, x Pengaruh dari variable operasi, Feeder dan kondisi fluida, isolasi, burners, pembakaran dan kendali fluida umpan, x
x Sistem thermal pada boiler, sistem pendinginan dan pemanasan, tinjauan energi, kelas dan jenis boiler, x
SUBJECTS
Students are able to analyze the security system on changes of energy in industry
x
MATA KULIAH/
TUJUAN PEMBELAJARAN/
POKOK BAHASAN/
Kurikulum/ Cu rriculum
ITS : 2009-2014 COMPETENCY
Mahasiswa mampu melakukan optimalisasi terhadap ekstraksi ketersediaan energi
x Mahasiswa mampu menganalisa secara statistik sumber energi terbarukan x
Students are able to analyze of avalilable energy and optimal
design for the extraction of energy availability
KOMPETENSI/ COMPETENCYMahasiswa mampu menganalisa ketersediaaan energi dan merancang secara optimal terhadap ekstraksi ketersediaan energi
LEARNING OBJECTIVES
TF092436: METEOROLOGI ENERGI TF092436: Energy Meteorology Credits : 2/ 2 Semester: 3
x AOTS–AIT-EBARA, Effective Energy systems For Sustainable Development, Asean Institute of Technology, 2007 x Wayne C. Turner, Energy Management Handbook, The Fairmont Press, Inc. 1997 x Geller, H., Energy Revolution: policies for a Sustainable Future, Island Press, 2002 x Komor, P., Revewable Energy Policy, Universe Inc., 2004
REFERENCES
The scheme of waste treatment into energy
x
The new energy sources: fuel cell, the micro gas turbine,
x
Energy demand and the types of energy, solar energy, wind energy, hydro energy, biomass, ocean thermal energy, bio diesel
x Permintaan Energi dan jenis-jenisnya, Solar Energy, Energi angin, Energi Hidro, Biomass, Ocean Thermal energy, Bio Diesel, x Sumber energi baru : Fuel Cell, Turbin gas mikro, x Skema pengolahan limbah menjadi energi. x
SUBJECTS
Students can design a the system for changes of energy from renewable energy
x
Students able to analyze the types of energy currently
berasal dari energi terbarukan x
PUSTAKA UTAMA/
MATA KULIAH/
TUJUAN PEMBELAJARAN/
POKOK BAHASAN/
PUSTAKA UTAMA/
MATA KULIAH/
Kurikulum/ Cu rriculum
Mahasiswa mampu menganalisa aspek ekonomi terhadap ketersediaan sistem energi terbarukan
TUJUAN PEMBELAJARAN/
Consideration will be aspects of geographical, environmental, economic
x
The basic concept in the analysis of the availability of a renewable energy system for installation in a region
x Konsep dasar dalam analisa ketersediaan suatu system energi terbarukan untuk keperluan instalasi di suatu daerah x Pertimbangan akan aspek geografis, lingkungan, ekonomi x
SUBJECTS
systems for installation in an region
x Mahasiswa mampu menganalisa ketersediaan sistem energi terbarukan untuk instalasi di suatu daerah x Students are able to analyze the availability of renewable energy
Students are able to analyze the economic aspects of the availability of renewable energy systems KOMPETENSI/ COMPETENCY
LEARNING OBJECTIVES
ITS : 2009-2014
TF092437: EKONOMI ENERGI TF092437: Energy Economics Credits : 2/ 2 Semester: 3
Şen, Z., Solar Energy Fundamentals and Modelling Techniques: Atmosphere, Environment, Climate Change and Renewable Energy, Springer Verlag, 2008.
x Rojey, A., Energy & Climate: How to Achieve a Succesful Energy Transition, Wiley Interscience, 2009. x
REFERENCES
Optimize method to extraction the availability of energy resources
x
The nature of statistical availability of renewable energy sources,
x Sifat statistik dari ketersediaan sumber energi terbarukan, x Metoda-metoda optimalisasi ekstraksi ketersediaan sumber- sumber energi x
SUBJECTS
Students are able to optimize the extraction of energy availability
x
Students are able to statistically analyze renewable energy sources
x
POKOK BAHASAN/
Mallon, K, Renewable Energy Policy and Politics, Earthscan, 2006 x Quasching, V, Understanding Renewable Energy Systems, Carl x
PUSTAKA Hanser Verlag, 2005. UTAMA/
Pimentel, D., Biofuels, Solar, and Wind as Renewable Energy x
REFERENCES Systems: Benefits and Risks, Springer Velrlag, 2008.
Kreith & Mahajan, Handbook of Energy Efficiency and Renewable
x Energy, CRC Press 2007.
ITS : 2009-2014 rriculum Cu Kurikulum/