TF092411: TEKNIK OPTIMASI TF092441: Optimization Techniques

[FAKULTAS TEKNOLOGI INDUSTRI] [FACULTY OF INDUSTRIAL TECHNOLOGY] ELECTIVE COURSES

TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES

KOMPETENSI/ COMPETENCY

Credits : 2/ 2 Semester: 3 x

Mahasiswa mampu menerapkan konsep optimasi pada suatu sistem

x

Students are able to apply the optimization concepts in a system

x x

Mahasiswa mampu menjelaskan konsep optimasi sebuah sistem Mahasiswa mampu melakukan prosedur dalam optimasi sebuah sistem

x x x

Students are able to explain the optimization concepts in a system Students are able to do the optimization procedures in a system Ruang lingkup, tingkatan optimasi dan prosedur memecahkan masalah optimasi Formulasi fungsi obyektif, biaya investasi, biaya operasional, mengukur dan mengoptimalkan keuntungan Teori dan metoda optimisasi : konsep dasar, optimisasi tanpa kendala, optimisasi multivariabel dengan kendala, Pemrograman Linier dan aplikasinya Aplikasi teknik optimisasi pada industri proses : boilers, compressors, CSTR, evaporators, heat exchanger, dan dan proses separasi; Optimisasi pada disain plant skala besar (large-scale)

x x

POKOK BAHASAN/ SUBJECTS

x

x x x x

The scope, level of optimization and optimization problem solving procedures Formulation of objective functions, investment costs, operational costs, measure and optimize the benefits Theory and methods of optimization: basic concepts, optimization without constraints, multivariable optimization with constraints, Linear Programming and its application The application of optimization techniques in industrial processes: boilers, Compressors, CSTR, Evaporators, heat exchangers, and

Kurikulum/Curriculum ITS : 2009-2014

MATA KULIAH/ COURSE TITLE

TF092411: TEKNIK OPTIMASI TF092441: Optimization Techniques

1



x x

TF092412: KONTROL OTOMATIK LANJUT TF092412: Advance Automatic Control Credits : 2/ 2 Semester: 3 x

Mahasiswa mampu merancang sistem pengendalian yang berbasis pada teknologi untuk pencapaian peningkatan produktivitas dan kualitas produk.

x

Students are able to design control systems based on technology for achieving increased productivity and product quality

x

Mahasiswa mampu menganalisis dan melakukan perancangan sistem pengendalian otomatik menggunakan persamaan ruang keadaan (state space), sampai pada optimasi system Mahasiswa mampu berfikir kreatif dalam membuat model sistem pengendalian otomatis dengan menggunakan media TIK, serta memprsentasikan hasil karya rancangan

x KOMPETENSI/ COMPETENCY x

x x x

Students can analyze and perform an automatic control system design using state space, until to the optimization system Students are able to think creatively to make a model of automatic control systems by using ICT media, and prsentetation their design work Kendali secara Prediktif Model Kendali Internal Sistem Kendali Model Referensi

x x x

Predictive Control Internal Model Control Reference Model Control

x



PUSTAKA UTAMA/ REFERENCES

separation process; Optimization of plant design of large-scale (large-scale) Rao, Optimization – Theory and design, Tata McGraw Hill. Himmelblau TF, Lasdon LS, Optimization of Chemical Process, McGraw Hill, 2001

2

x



x x

TF092413: STATISTICAL PROCESS CONTROL TF092413: Statistical Process Control Credits : 2/ 2 Semester: 3 x

Mahasiswa mampu menerapkan konsep kendali kualitas secara statistik, mengidentifikasi sistem untuk meningkatkan kualitas dari sistem

x

Students can apply the concept of statistical quality control, identifying the system to improve the quality of the system Mahasiswa mampu menerapkan prosedur dalam memperoleh chart kendali kualitas pada suatu sistem Mahasiswa mampu menganalisa kualitas dan kapabilitas suatu sistem Mahasiswa mampu merancang ulang untuk meningkatkan kualitas sistem

x x KOMPETENSI/ COMPETENCY

x x

x x x

Students can apply the procedure in obtaining the quality control charts in a system Students can analyze the quality and capability of a system Students are able to redesign the system to improve the quality of system Chart Control Prinsip sampling, karakteristik operasi Karakteristik proses

x x x

Chart Control Sampling priciples, operation characterization Process Characteristics

x x


Camacho and Bourdon, Model Predictive Control, Springer Verlag, 2000. Anshari R.M, Tade M O, Nonlinear Model Based Process Control – Application in Petroleum Refining, Springer Verlag, 2000. Bela L Liptak , Control Process, Chilton BC. 1995.



3



x x

TF092414: SISTEM KECERDASAN BUATAN TF092414: Artificial Intelligence Credits : 2/ 2 Semester: 3 x

Students are able to apply some artificial intelligence systems in systems engineering

x

Mahasiswa mampu merancang sistem instrumentasi dan pengendalian dengan berdasarkan kecerdasan buatan Mahasiswa mampu menggunakan sistem kecerdasan buatan pada beberapa kasus keteknikan

x x


PUSTAKA

Mahasiswa mampu menerapkan beberapa sistem kecerdasan buatan dalam sistem rekayasa.

x

x KOMPETENSI/ COMPETENCY

Chen, C.L., Statistical Process Control Montgomery, D.C., Introduction to Statistical Quality Control, Wiley & Sons , 1996

Students are able to design instrumentation and control systems based on artificial intelligence Students are able to use artificial intelligence systems in some technical cases

x x x x

Kecerdasan Buatan Sistem Fuzzy Jaringan syaraf tiruan Sistem pakar

x x x x

Artificial Intelligence Fuzzy Systems Neural Network Expert System

x

Fawset L,

Fundamental of Neural Networks – Architectures,



4

x x x



TF092415: TEKNOLOGI SISTEM INFORMASI TF092415: Information System Technology Credits : 2/ 2 Semester: 3 x

Mahasiswa mampu menggunakan sistem teknologi informasi sebagai pendukung thesisnya

x

Students are able to use information technology systems to support the thesis

x

Mahasiswa mampu menggunakan sistem teknologi informasi untuk materi presentasi ilmiah Mahasiswa mampu merancang sistem informasi teknologi secara terintegrasi


x x


Algorithm and Applications, Prentice Hall, 1994. Zimmerman H J, Fuzzy Set Theory and Its Application, Kluwer Academic Publisher, Boston, 1996. Kosko B, Neural Networks and Fuzzy Systems, Prentice Hall, 1992 Kovacic, S., Bogdan, S., Fuzzy Controller Design,CRC Taylor & Francis Group, 2005

Students are able to use information technology systems for scientific presentation Students can design a system of integrated information technology

x x x x x

Arsitektur Sistem Informasi Terintegrasi, Sistem antarmuka Instrumen Integrasi dan Migrasi Database historis dan real time, relasi sistem data base Program otomasi, layer presentasi data Sistem berbasis pengetahuan

x

Integrated Information System Architecture, Information System Interfacing Instrument Integration and Migration Real-Time and Historical Database Program Automation , Data Presentation Layer Knowledge Based System

x x x x


UTAMA/ REFERENCES

5


x x

TF092416: DATA MINING DAN MANAJEMEN DATA TF092416: Mining and Managemen Data Credits : 2/ 2 Semester: 3



Mahasiswa mampu mengolah dan mengelola data untuk keperluan pelayanan kesehatan dan biomedis Students are able to process and manage data for health services and biomedical x x

Mahasiswa mampu melakukan pengolahan data mining Mahasiswa mampu mengelola data untuk pelayanan kesehatan dan biomedis

x x

Students are able to do the processing of data mining Students are able to manage data for health services and biomedical Manajemen pengetahuan dan data mining Strategi data mining: supervisi, un supervisi Algoritma dan teknik pada data mining: prediksi, klasifikasi, eksplorasi dan, analisa afinitas Aplikasi Data Mining pada Data Pelayanan Kesehatan dan biomedis

x x x POKOK BAHASAN/ SUBJECTS


Malaga, R., Information System Technology, Prentice Hall Davis, W.S. and Yen, D.C., The Information System Consultant’s Handbook: Systems Analysis and Design, CRC Press.

x x x x x x x x

Knowledge management and data mining (overview) Data mining strategies: supervised, unsupervised Algorithms and techniques in data mining: prediction, classification, exploration, affinity analysis Data Mining Applications in Health Care Data and biomedical Hand, Mannila, and Smyth., Principles of Data Mining. Cambridge, MA: MIT Press, 2001. Edelstein, Introduction to Data Mining and Knowledge Discovery, Cios, K.J., Medical Data Mining and Knowledge Discovery, Physica-



6

Verlag Heidelberg, 2001

Credits : 2/ 2 Semester: 3 Mahasiswa mampu menganalisa fenomena fisika dalam sistem tubuh manusia


Students are able to analyze physical phenomena in the human body system x x

KOMPETENSI/ COMPETENCY x x x x


x x

Mahasiswa mampu menganalisa fenomena fisika yang terkait dengan anatomi dan fisiologi tubuh manusia Mahasiswa mampu menganalisa sifat keteknikan yang terkait dengan anatomi dan fisiologi tubuh manusia Students able to analyze the physical phenomena associated with the anatomy and physiology of the human body Students able to analyze the technical nature related to the anatomy and physiology of the human body Terminologi-terminologi penting terkait dalam anatomi dan fisiologi tubuh, sel: organ, Mekanisme komunikasi serta pertukaran antar sel, rangka dan sistem otot, jantung dan sistem peredaran darah, sistem pernafasan, sistem dan organ pencernaan, ginjal dan sistem urogenital, sistem endokrin, darah dan sistem kekebalan, otak dan sistem syaraf, organ-organ pengindera, kulit. Terminology is important-related terminology in anatomy and physiology, cell: organ, The mechanism of communication and exchange between cells, 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 system, brain and nervous system, organs, sensors, skin



TF092421: FISIKA TUBUH MANUSIA TF092421: Human Body Physics

7


x x

TF092422: DASAR-DASAR CLINICAL ENGINEERING TF092422: Fundamental Of Clinical Engineering Credits : 2/ 2 Semester: 3 Mahasiswa mampu memahami dan menjalankan prosedur untuk memenuhi standard pelayanan kesehatan yang terkait dengan bidang keteknikan


Students are able to understand and carry out procedures to meet the standard of health services associated with the field of engineering x x

KOMPETENSI/ COMPETENCY x

Mahasiswa mampu memahami standard prosedur dalam pengelolaan rumah sakit yang terkait dengan problem keteknikan Mahasiswa mampu memahami regulasi dan standard dalam pelayanan kesehatan

x

Students are able to understand the standard procedures in the management of hospital-related technical problems Students are able to understand the regulations and standards in health care Clinical Engineer (CE) sebagai suatu profesi (overview), Peran, karier & tanggung jawab CE, Model suatu Departemen CE di Rumah Sakit, CE dan peran manajerial, CE dan issues Patient-safety, CE dan problem keteknikan di Rumah Sakit, Regulasi dan Standard di bidang pelayanan kesehatan, Professionalism and Ethics, CE dimasa depan

x x

Clinical Engineer (CE) as a profession (overview), Roles, responsibilities careers & CE, Model CE Department in a


Herman, Irving P., Physics of the Human Body, Springer, 2007 Marieb, E. N., Human Anatomy and Physiology, Benjamin Cummings, 2003

x x



8

x x



x x x

Hospital CE and managerial roles, CE and Patient-safety issues, CE and technical problems at the hospital Regulations and Standards in the field of health services, Professionalism and Ethics CE in the future Dyro, J., Clinical Engineering Handbook, Elsevier David, Y., Clincal Engineering (Principles and Applications), Taylor & Francis.

TF092423: ASSESMEN DAN MANAJEMEN TEKNOLOGI KESEHATAN TF092423: Assesment And Management of Healthcare Credits : 2/ 2 Semester: 3 Mahasiswa mampu melakukan asesmen dan manajemen yang terkait dengan instrumen dalam teknologi kesehatan


x x KOMPETENSI/ COMPETENCY

x x x

POKOK BAHASAN/

x x x

Mahasiswa mampu melakukan asesmen instrumen untuk pelayanan kesehatan Mahasiswa mampu mengelola penggunaan intrumen untuk pelayanan kesehatan Mahasiswa mampu mengelola laboratorium untuk pelayanan kesehatan Students are able to do an assessment of instrument for health services Students are able to manage the use of instruments for health services Students are able to manage the laboratory for health services Penilaian teknologi, Usability / Kompatibilitas penilaian seleksi Produk / seleksi vendor, Device integrasi perencanaan, analisis siklus hidup, Device / upgrade sistem perencanaan


Students are able to do an assessment and manage the instrument in health technology

9

x x

x

x x x x x




x x

Analisis laba atas investasi (Return on Invesment - ROI), perencanaan strategis teknologi kesehatan, manajemen Uji klinis (non-penelitian), perencanaan kapital Management Project, EMI / manajemen frekuensi radio, 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 Koordinator interoperabilitas / interfacing, jaringan sistem Klinis, Interpretasi kode dan standar Technology assessment, usability/compatibility assessment, Product selection/vendor selection, device integration planning, life cycle analysis, device / system upgrade planning, Return on investment (ROI) analysis, Healthcare technology strategic planning, Clinical trials management (noninvestigational), Capital planning, Project management, EMI / radio frequency management, Clinical 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 device interoperability / interfacing, Clinical systems networking, Interpretation of codes and standards Geisler, E. & Heller, O., Managing Technology in Healthcare, Springer Verlag, 2006 Chan, A.Y.K., Medical Technology Management Practice, Charles C. Thomas Publ., 2003

TF092424: FOTONIKA BIOMEDIS TF092424: Biomedical Photonics Credits : 2/ 2 Semester: 3 Mahasiswa mampu menerapkan dan menganalisa aplikasi sinar laser dalam bidang kedokteran Students can apply and analyze the laser applications in medicine


SUBJECTS

10


x x x x x x



x x x x x x x x x x x x


TUJUAN

Mahasiswa mampu memahami sifat interaksi tisue tubuh dengan sinar laser Mahasiswa mampu merancang sistem laser untuk aplikasi dalam bidang kedokteran Mahasiswa mampu merancang secara teknis untuk sistem keamanan laser untuk penggunaan dalam bidang kedokteran Students are able to understand the nature of the laser interaction with the tisue of body Students can design a laser system for applications in medicine Students are technically capable of designing a security system for the use of lasers in medicine Dasar-dasar fisika laser. Tissue tubuh dan karakteristik terhadap sinar laser. Interaksi cahaya laser dengan materi tissue. Sistem laser dan komponennya dalam kedokteran. Berbagai aplikasi sistem laser dalam kedokteran. Laser safety. QA program untuk sisem laser medis. Basics of laser physics. Tissue and body characteristics of the laser beam. Laser light interaction with tissue materials. Laser system and its components in medicine. Various applications of laser systems in medicine. Laser safety. QA programs for medical laser sisem. Waynant, R.W., Laser in Medicine, CRC Publ., 2001. Katzir, A., Lasers and Optical Fibers in Medicine, Academic Press, 1993 Berlien, H-P & Mueller, G.J. (eds.), Applied Laser Medicine, Springer Verlag, 2003. Lubatschowski, H., Lasers in Medicine: Laser-Tissue Interaction , Wiley-VCH.

TF092425: TEKNOLOGI PENCITRAAN MEDIS TF092425: Medical Imaging Technology Credits : 2/ 2 Semester: 3 Mahasiswa

mampu

merancang

dan

menganalisa

sistem


x

11

PEMBELAJARAN/ LEARNING OBJECTIVES

Students are able to design and analyze medical imaging systems x x

Mahasiswa mampu melakukan pencitraan data medis Mahasiswa mampu melakukan pemrosesan sinyal dari data medis

x x x x

Students are able to do medical imaging data Students can perform signal processing of medical data Dasar-dasar fisika pencitraan medis Detektor dalam pencitraan medis: besaran fisis terkait, prinsip deteksi, Pengolahan sinyal dan displaynya Metoda-metoda rekonstruksi citra Berbagai aplikasi: CT Scan, Ultrasonografi, MRI, Optical Endosopy, Thermography

x x POKOK BAHASAN/ SUBJECTS

x x x x x x x


x x x


The basics of medical imaging physics Detector in medical imaging: relevant physical quantities, the principle of detection, Signal processing and its display. Method-image reconstruction Various applications: CT Scan, Ultrasound, MRI, Optical Endosopy, Thermography Laondes, C.T., Medical Imaging Systems Techniques and Applications: Computational Techniques, CRC Press Rostenberg, B., The Architecture of Medical Imaging: Designing Healthcare Fascilities for Advanced Radiological Diagnostics and Therapeutic Techniques, John Wiley, 2006 Bankmann, I.N. (ed), Handbook of medical Imaging: Processing and Analysing, Academic Press, 2000 Bushberg, J.T. et.al., The Essential Physics of Medical Imaging, Lippincott Williams & Wilkins, 2001.

TF092426: RADIASI DAN PROTEKSINYA TF092426: Radiation And Protection Credits : 2/ 2 Semester: 3



pencitraan medis

12


Mahasiswa mampu menganalisa fisika radiasi dalam kesehatan tubuh manusia Students are able to analyze the physics of radiation in the human body health


x x x x x x x x x


x x x x

x x PUSTAKA UTAMA/ REFERENCES

x x x

Mahasiswa mampu memahami konsep fisika radiasi Mahasiswa mampu menganalisa karakteristik interaksi tubuh manusia dengan radiasi Mahasiswa mampu merancang sistem perlindungan radiasi Students are able to understand the concept of radiation physics Students can analyze the characteristics of the human body's interaction with the radiation Students can design a system of radiation protection Konsep-konsep dasar dalam fisika radiasi, radiasi mengion dan tak mengion, jenis dan energi radiasi, interaksi radiasi dengan materi, Bahan radioaktif dalam aplikasi medis. Dasar-dasar dosimetri: dosis radiasi dan pengukurannya. Pengaruh radiasi terhadap kesehatan manusia. Batas aman radiasi. Perlindungan radiasi bagi pasien dan operator instalasi penyedia pelayanan radiasi. Design sistem perlindungan radiasi pada instalasi pengguna radiasi. Radiation safety dan QA. Basic concepts in radiation physics, radiation ionisation and non ionisation, type and energy of radiation, interaction of radiation with matter Radioactive materials in medical applications. Basics dosimetry: radiation dose and measurement. The influence of radiation on human health. The influence of radiation on human health. Safe limit of radiation. Radiation protection for patient and operator radiation installation service provider. Design the system of radiation protection at the user installation of radiation. Radiation safety and QA Attix, H., Introduction to Radiological Physics and Radiation Dosimetry, John Wiley and Sons. Dyson, N.A., Radiation Physics with Applications in Medicine and Biology, Ellis Horwood Ltd.. Ahmed, S.N., Physics and Engineering of Radiation Detection, Academic Press, 2007 Coggle, J.E., Biological Effects of Radiation, Wykeham Publications, London.


x x

13

TF092431: AUDIT & MANAJEMEN ENERGI TF092431: Energy Audit And Management Credits : 2/ 2 Semester: 3


Mahasiswa mampu menganalisa siklus dalam manajemen energi

Students are able to analyze the cycle of energy management x x


x x x x x x


PUSTAKA

x x x x x x x x x

Mahasiswa mampu menganalisa kebijakan energi nasional dan internasional Mahasiswa mampu menjalankan prosedur standard dalam audit energi Mahasiswa mampu merancang secara teknik untuk penghematan energi Students are able to analyze the national energy policy and international Students are capable of running standard procedure in the energy audit Students are able to design a technique for energy savings Kebijakan energi nasional dan internasional Pengguna akhir energi, keamanan pasokan dan ketersediaan energi Standar - standar dalam audit energi Analisa dari suatu survey energi Potensi-potensi penghematan energi dan rekomendasi dari suatu proses audit energi National and international energy policies, End users of energy, security of energy supply and availability, The standards in the energy audit, Analysis of a survey of energy, Potential energy-saving and recommendations from an energy audit process Turner, W.C., Energy Management Handbook, The Fairmont



14

x x x x x x


TF092432: SISTEM HVAC & KELISTRIKAN TF092432: HVAC and Electricity System Credits : 2/ 2 Semester: 3


Mahasiswa mampu merancang sistem kelistrikan pada HVAC

Students are able to design electrical systems in the HVAC x x


x x x


Press, Inc. 1997 Capehart, B.L. et.al., Guide to Energy Management, Donald R. Wulfinghoff, Energy Efficiency Manual, Energy Institute Press, 1999 Wulfinghoff, D.R., Energy Efficiency Manual, Energy Institute Press, 1999 Thumann, A. et.al., Handbook of Energy Audits, Chen, K., Energy Management in Illuminating Systems, CRC Press. Standar Nasional Indonesia (SNI)

x x x x x x

Mahasiswa mampu melakukan perhitungan beban pemanasan dan pendinginan suatu bangunan Mahasiswa mampu merancang komponen kelistrikan pada sistem HVAC bangunan Mahasiswa mampu menganalisa sistem kelistrikan pada HVAC bangunan Students are able to calculate the heating and cooling load of a building Students are able to design electrical components to the HVAC building system Students can analyze HVAC electrical systems in buildings Prinsip – prinsip dasar dan komponen dari suatu sistem HVAC, Perhitungan beban pemanasan dan pendinginan, Potensi opsi-opsi penghematan dalam suatu sistem HVAC, Konsep-konsep dasar listrik dan sistem tenaga, sistem distribusi daya, sistem wiring dan shielding, sistem proteksi dan emergency dalam sistem besar utilitas kelistrikan, Perencanaan sistem kelistrikan, managemen sistem kelistrikan.


UTAMA/ REFERENCES

15

x x x x x x x x x x


TF092433: SISTIM OTOMASI BANGUNAN TF092433: Building Automation System Credits : 2/ 2 Semester: 3


Mahasiswa mampu merancang sistem kendali dalam manajemen energi Students are able to design the control system of energy management x x

KOMPETENSI/ COMPETENCY x x POKOK BAHASAN/

x x

Mahasiswa mampu merancang sistem intrumentasi untuk pengendalian distribusi udara untuk kenyamanan ruang Mahasiswa mampu menganalisa performansi sistem intrumentasi sebagai pengendali distribusi udara untuk kenyamanan ruang Students can design an intrumentation system in air distribution control for comfort room Students are able analyze intrumentation system performances as contro lin air distribution for comfort room Sistem Kendali dalam manajemen energi Dasar-loop kendali, Sensor, Transmiter, Pengendali, Divais yang



The basic principles and components of an HVAC system Calculation of heating and cooling load Potential savings options in an HVAC system, 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, Planning electrical systems, electrical systems management. Wiliam K.Y.Tao & Richard R. Janis, Mechanical and Electrical system in Building, Prentice Hall, 2001 Donald R. Wulfinghoff, Energy Efficiency Manual, Energy Institute Press, 1999 ASHRAE, ASHRAE Handbooks BSN, Persyaratan Umum Instalasi Listrik 2000, ( SNI 04-02252000) , 2001 Glen A. Mazur, Power Quality Measurement and Troubleshooting, Fluke , 1999

16

SUBJECTS x x x x x x x


x x

TF092434: REKAYASA SISTEM TERMAL TF092434: Thermal System Engineering Credits : 2/ 2 Semester: 3


Mahasiswa mampu menganalisa sistem kerja pada unit perubah energi di industri Students are able to analyze in industry units of energy transformation x x


The Control System in energy management system Basic-loop control, sensor, transmitter, controller, controller devices Controller Strategies AHU Controller, Controller of major equipment, Control of distribution system Capehart, B.L. and Capehart, L.C., Web Bases Enterprise Energy and Building Automation Systems, Fairmont Press, 2007 Turner, W.C., , Energy Management Handbook , The Fairmont Press, Inc. 1997 Wulfinghoff, D.R., Energy Efficiency Manual, Energy Institute Press, 1999

x x x

Mahasiswa mampu menganalisa sistem kerja pada beberapa jenis peubah energi Mahasiswa mampu menganalisa effisiensi dari unit peubah energi di industri Mahasiswa mampu menganalisa sistem keamanan pada unit peubah energi di industri Students can analyze in several types of energy change Students able to analyze the efficiency of the changes energy units in industry



dikendalikan Strategi kendali Pengendali AHU, Pengendali peralatan utama, Pengendali sistem distribusi udara kenyamanan

17


x

x x x x x


x x x


Thermal system on the boiler, cooling and heating systems, energy review, grade and type of boiler Performance and efficiency, and fuel combustion The influence of operating variables, Feeder and fluid condition, isolation, burners, combustion and fluid control feedback Security systems, variable operation, maintenance, performance testing, calculation efficiency, and plant systems SG Dukelow, Improving Boiler Efficiency, Instrument Society of Amerika, 2000 Donald R. Wulfinghoff, Energy Efficiency Manual, Energy Institute Press, 1999 Decher, Reiner, Energy Conversion Systems, Flow Physics and Engineering, Oxford Eng.Sci Series. Dincer, I. and Rosen, M.A., Thermal Energy Storage: Systems and Applications, Wiley, 2001.

TF092435: TEKNOLOGI ENERGI TERBARUKAN TF092435: Renewable Energy Technology Credits : 2/ 2 Semester: 3

TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES KOMPETENSI/

Students are able to analyze the security system on changes of energy in industry Sistem thermal pada boiler, sistem pendinginan dan pemanasan, tinjauan energi, kelas dan jenis boiler, Kinerja dan effisiensi, Bahan bakar dan pembakaran, Pengaruh dari variable operasi, Feeder dan kondisi fluida, isolasi, burners, pembakaran dan kendali fluida umpan, Sistem keamanan, variable operasi, pemeliharaan, uji kinerja, perhitungan efisiensi, dan system plant.

Mahasiswa mampu merancang sistem peubah energi terbarukan Students can design a system of renewable energy x x

Mahasiswa mampu menganalisa jenis – jenis energi saat ini Mahasiswa mampu merancang sistem peubah energi yang


x

18

berasal dari energi terbarukan x x x


x x x x x x


x x x


Energy demand and the types of energy, solar energy, wind energy, hydro energy, biomass, ocean thermal energy, bio diesel The new energy sources: fuel cell, the micro gas turbine, The scheme of waste treatment into energy AOTS–AIT-EBARA, Effective Energy systems For Sustainable Development, Asean Institute of Technology, 2007 Wayne C. Turner, Energy Management Handbook, The Fairmont Press, Inc. 1997 Geller, H., Energy Revolution: policies for a Sustainable Future, Island Press, 2002 Komor, P., Revewable Energy Policy, Universe Inc., 2004

TF092436: METEOROLOGI ENERGI TF092436: Energy Meteorology Credits : 2/ 2 Semester: 3


Mahasiswa mampu menganalisa ketersediaaan energi dan merancang secara optimal terhadap ekstraksi ketersediaan energi Students are able to analyze of avalilable energy and optimal design for the extraction of energy availability x


Students able to analyze the types of energy currently Students can design a the system for changes of energy from renewable energy Permintaan Energi dan jenis-jenisnya, Solar Energy, Energi angin, Energi Hidro, Biomass, Ocean Thermal energy, Bio Diesel, Sumber energi baru : Fuel Cell, Turbin gas mikro, Skema pengolahan limbah menjadi energi.

x

Mahasiswa mampu menganalisa secara statistik sumber energi terbarukan Mahasiswa mampu melakukan optimalisasi terhadap ekstraksi ketersediaan energi


COMPETENCY

19

x



x x x x

TF092437: EKONOMI ENERGI TF092437: Energy Economics Credits : 2/ 2 Semester: 3 Mahasiswa mampu menganalisa aspek ekonomi terhadap ketersediaan sistem energi terbarukan


Students are able to analyze the economic aspects of the availability of renewable energy systems x

Mahasiswa mampu menganalisa ketersediaan sistem energi terbarukan untuk instalasi di suatu daerah

x

Students are able to analyze the availability of renewable energy systems for installation in an region Konsep dasar dalam analisa ketersediaan suatu system energi terbarukan untuk keperluan instalasi di suatu daerah Pertimbangan akan aspek geografis, lingkungan, ekonomi


x POKOK BAHASAN/ SUBJECTS

The nature of statistical availability of renewable energy sources, Optimize method to extraction the availability of energy resources Rojey, A., Energy & Climate: How to Achieve a Succesful Energy Transition, Wiley Interscience, 2009. Şen, Z., Solar Energy Fundamentals and Modelling Techniques: Atmosphere, Environment, Climate Change and Renewable Energy, Springer Verlag, 2008.

x x x

The basic concept in the analysis of the availability of a renewable energy system for installation in a region Consideration will be aspects of geographical, environmental, economic



x x x

Students are able to statistically analyze renewable energy sources Students are able to optimize the extraction of energy availability Sifat statistik dari ketersediaan sumber energi terbarukan, Metoda-metoda optimalisasi ekstraksi ketersediaan sumbersumber energi

20

x

x

Mallon, K, Renewable Energy Policy and Politics, Earthscan, 2006 Quasching, V, Understanding Renewable Energy Systems, Carl Hanser Verlag, 2005. Pimentel, D., Biofuels, Solar, and Wind as Renewable Energy Systems: Benefits and Risks, Springer Velrlag, 2008. Kreith & Mahajan, Handbook of Energy Efficiency and Renewable Energy, CRC Press 2007.



x x

21

TF092411: TEKNIK OPTIMASI TF092441: Optimization Techniques

Recommend Documents