114 The groups of the courses can be seen according to the char acteristic and the education purposes that are expected as shown in figure below
ENME 6 1 0024 ENGINEERING ETHICS
2 SKS
Learning Objectives:
Syllabus:
Pre-requisites:
Textbooks:
ELECTIVE COURSE FROM MASTER PROGRAM ENERGY CONVERSION STREAM ENME800114
COMBUSTION ENGINEERING (4 SKS) Refer to Page 389
ENME800115
INTERNAL COMBUSTION ENGINE (4 SKS) Refer to Page 389
ENME800116
APPLIED FLOW MEASUREMENT AND VISUALIZATION (4 SKS)
Refer to Page 389 ENME80117
CFD APPLICATIONS (4 SKS) Refer to Page
ENME800111
HEAT AND MASS TRANSFER ENGINEERING (4 SKS)
Refer to Page 387 ENME800112
AERODYNAMIC ENGINEERING (4 SKS) Refer to Page 388
ENME800113
POWER GENERATION (4 SKS) Refer to Page 388
BUILDING UTILITY SYSTEM AND FIRE SAFETY STREAM
ENME800202
BUILDING MECHANICAL AND ELECTRICAL SYSTEM (4 SKS)
Refer to Page 391 ENME800214
REFRIGERATION ENGINEERING (4 SKS) Refer to Page 392
ENME800215
FIRE SAFETY AND PROTECTION ENGINEERING (4 SKS)
Refer to Page 393 ENME800211
VENTILATION AND AIR CONDITIONING SYSTEM (4 SKS)
Refer to Page 391 ENME800212
BUILDING UTILITY SYSTEM DESIGN (4 SKS) Refer to Page 392
ENME800213
ENERGY AUDIT (4 SKS) Refer to Page 392
DESIGN AND PRODUCT MANUFACTURING STREAM
ENME800314
MICROFABRICATION AND PRECISION MANU- FACTURING (4 SKS)
Refer to Page 395 ENME800315
DYNAMICS OF MECHANICAL SYSTEM (4 SKS) Refer to Page 396
ENME800316
COMPOSITE PRODUCT DEVELOPMENT (4 SKS)
Refer to Page 396 ENME800317
FINITE ELEMENT AND MULTIPHYSICS (4 SKS) Refer to Page 396
ENME800311
DESIGN FOR MANUFACTURE AND ASSEMBLY (4 SKS)
Refer to Page 394
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ENME800312
MECHANICAL FAILURE (4 SKS) Refer to Page 394
ENMEB00313
NOISE AND VIBRATION Refer to Page 395
AUTOMATION AND MANUFACTURING SYSTEM STREAM
ENME800413
SYSTEM MACHINE VISION (4 SKS) Refer to Page 397
ENME800414
QUALITY AND PRODUCTION MANAGEMENT SYSTEM (4 SKS)
Refer to Page 397 ENME800411 CAD/CAM (4 SKS) Refer to Page 397 ENME800412
MANUFACTURING PERFORMANCE ASSESMENT (4 SKS)
Refer to Page 397 ENME800402
AUTOMATION AND ROBOTICS (4 SKS) Refer to Page 428
VEHICLE ENGINEERING AND HEAVY EQUIPMENT STREAM
ENME800513
MODERN VEHICLE TECHNOLOGY (4 SKS) Refer to Page 399
ENME800514
OIL AND GAS DRILLING EQUIPMENT (4 SKS) Refer to Page 400
ENME800511
RAILWAY VEHICLE ENGINEERING (4 SKS) Refer to Page 398
ENME800512
HANDLING AND CONSTRUCTION EQUIPMENT (4 SKS)
Refer to Page 398
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4.4. UNDERGRADUATE PROGRAM IN NAVAL ARCHITECTURE AND MARINE ENGINEERING
Program Specification1. Awarding Institution Universitas Indonesia 2. Teaching Institution Universitas Indonesia
3. Programme Tittle Undergraduate Program in Naval Architecture and Marine Engineering
4. Class Regular
5. Final Award Sarjana Teknik (S.T)
6. Accreditation / Recognition BAN-PT: A - Accredited AUN-QA 7. Language(s) of Instruction Bahasa Indonesia and English 8. Study Scheme (Full Time / Part
Time) Full Time
9. Entry
Requirements High school /equivalent AND pass the entrance exam.
10. Study Duration Designed for 4 years
Type of Semester Number of Semester Number of weeks / semester
Regular 8 17
Short (optional) 3 8
11. Graduate Profiles:
Engineering graduates who have abilities to design and analyze in the field of naval architecture and marine engineering with excellent leadership and professional characters.
12. List of Graduates Competency:
Capable to understand and apply basic knowledge of mathematics, numerical methods, statis- 1.
tical analysis and the basic sciences(physics and chemistry) required to achieve competencein the disciplineof Maritime Engineering,
Capable of describing the problems with carrying out scientific research and report the results 2.
of experiments, including analysis of statistical data obtained,
Capable to identify, formulate, and solve engineering problems in the field of systems and 3.
design of maritime engineering
Able to carry out product design innovation maritime activities, including identification 4.
of needs for products, preparation of product specifications, developing design concepts, selection of design, engineering calculations and economic analysis, detail design and design aggregate components, and design drawings
Able to design components, operate, manage, and maintain machinery and related systems 5.
maritime engineering aspects of energy conservation, manufacturing, cost, safety, and sus- tainability.
Able to utilize the methods, skills, and modern engineering tools necessary for engineering 6.
work
Able to perform the selection of materials, processes, and automation systems that suit your 7.
needs engineering work,
Capable of supervising, monitoring, evaluation, and decision making, 8.
Able to utilize and develop computer-aided design(CAD) system in maritime engineering 9.
Understand and committe to professional ethics, professional responsibility and commitment, 10.
Understanding of processes to generate innovation and entrepreneurship 11.
Ability to work effectively both individually and in multi-disciplinary teams or multi-cultural 12.
Understanding the social and contemporary issues, such as social diversity and cultural ap- 13.
preciation, communicating with different walks of life, the strategic benefits of lobbying, negotiation and mediation
Ability to communicate effectively both invisual, written orverbal, including proficiency in a 14.
foreign language(preferably English)
Able to carry out the process of lifelong learning.
15.
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13 Classification of Subjects
No. Classification Credit Hours (SKS) Percentage
i University General Subjects 18 12.5 %
ii Basic Engineering Subjects 24 16.67 %
iii Core Subjects 74 51.39 %
iv Elective Subjects 12 8.33 %
v Internship, Seminar, Undergraduate
Thesis, Project 16 11.11 %
Total 144 100 %
14. Total Credit Hours to Graduate 144 SKS
Carrer Prospects
Naval architecture and marine engineering graduates have devoted themselves to various fields such as: maritime industry, government classification, research institutes, industrial engineering, automotive industry, shipbuild- ing industry, oil and gas industry, heavy ma- chinery industry, educational institutions and other industries both within and foreign DESCRIPTION
Naval architecture and marine Engineering study program was developed with a purpose, namely: producing graduates who have the at- titude of leadership and excellence in schol- arship and professionalism that have ability to analyze and synthesize characteristics of shipbuilding technology that includes design and planning process and ship machinery sys- tems, as well as managing the installation and production systems ship, and were able to analyze and solve any scientific problem, work together in teams, and able to develop themselves and their knowledge.
The basic curriculum 2012 in Bachelor of Na- val architecture and Marine Engineering which can be seen in the figure shows the grouping and the relationship between subject groups.
Before reaching a Bachelor’s degree from a total of 144 SKS, a student in Marine Engi- neering must complete the university courses (18 SKS), basic courses (44 SKS) which consists of basic engineering (24 SKS) and basic of ma- rine engineering (20 SKS), and marine techni- cal skills courses (68 SKS) consisting of core courses (54 SKS), elective courses (12 SKS), and the remaining 16 SKS in the form of assig-
ment, intership and final project.
The curriculum was designed and developed to make the learning process is able to pro- duce graduates who are competent in the field of Naval architecture and marine engi- neering with characteristics in accordance with the purpose of education, that is :
Having a strong base of engineering 1.
knowledge through the sciences of math- ematics, physics, and chemistry
The ability to design and conduct research 2.
to analyze and interpret the data.
The ability to identify, formulate and 3.
solve problems in the field of shipbuild- ing techniques based on a review of the latest issue
The ability to design a system, compo- 4.
nent or process to meet desired needs by considering and implementing aspects of the economy,
Knowledge of leadership, ability to com- 5.
municate well, work together in teams, and develop themselves and their knowl- edge