140
4. 4. UNDERGRADUATE PROGRAM IN NAVAL ARCHITECTURE AND MARINE ENGINEERING Program Speciication
1.
Awarding Institution Universit as Indonesia
2. Teaching Institution
Universit as 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: B - Accredited AUN-QA
7. Languages 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 Proiles:
Engineering graduates who have abilities to design and analyze in the ield 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 sciencesphysics and chemistry required to achieve competencein
the disciplineof Maritime Engineering, Capable of describing the problems with carrying out scientiic research and report the results
2. of experiments, including analysis of statistical data obtained,
Capable to identify, formulate, and solve engineering problems in the ield of systems and 3.
design of marit ime engineering
Able to carry out product design innovation maritime activities, including identiication 4.
of needs for products, preparation of product speciications, developing design concepts,
select ion of design, engineering calculat ions and economic analysis, det ail 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
- t ainabilit y.
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 designCAD 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 beneits of lobbying,
negot iat ion and mediat ion
Ability to communicate effectively both invisual, written orverbal, including proiciency in a 14.
foreign languagepreferably English Able to carry out the process of lifelong learning.
15.
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
141
13
Classiication of Subjects
No.
Classiication
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 Tot al
144 100
14. Total Credit Hours to Graduate
144 SKS
Carrer Prospects
Naval architecture and marine engineering
graduat es have devot ed t hemselves t o various
ields such as: maritime industry, government classiication, research institutes, industrial
engineering, automotive industry, shipbuild
- ing indust ry, oil and gas indust ry, heavy ma-
chinery indust ry, educat ional inst it ut ions and ot her indust ries bot h wit hin and f oreign
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
- t ems, as well as managing t he inst allat ion
and production systems ship, and were able to analyze and solve any scientiic problem,
work together in teams, and able to develop
t hemselves and t heir knowledge.
The basic curriculum 2012 in Bachelor of Na
-
val architecture and Marine Engineering which can be seen in the igure shows the grouping
and the relationship between subject groups.
Bef ore reaching a Bachelor’ s degree f rom 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 inal project. The curriculum was designed and developed
to make the learning process is able to pro
-
duce graduates who are competent in the ield of Naval architecture and marine engi
- neering wit h charact erist ics in accordance
with the purpose of education, that is : Having a strong base of engineering
1.
knowledge t hrough t he sciences of mat h-
ematics, physics, and chemistry
The abilit y t o design and conduct research
2. to analyze and interpret the data.
The abilit y t o ident if y, f ormulat e and
3. solve problems in the ield of shipbuild
- ing t echniques based on a review of t he
lat est issue
The ability to design a system, compo
-
4. nent or process to meet desired needs by
considering and implementing aspects of
t he economy,
Knowledge of leadership, ability to com
-
5.
municat e well, work t oget her in t eams,
and develop themselves and their knowl
- edge
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
142
Basic Courses
Specialization of Marine Engineering Courses 38 credits
5. Knowledge of leadership, ability to communicate well, work together in teams, and develop themselves
Basic of Marine Engineering can be seen in Figure 1
Figure 1. Basic Curriculum of Marine Engineering
Basic Engineering
24 SKS
Basic Marine Engineering
46 SKS Core courses
26 SKS elect ive
courses 12 SKS
universit y general courses
18 SKS
Assignment, Internship, dan Final Project 16 SKS
Basic of Marine Engineering can be seen in Figure 1
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
20 68
54
1 4
3
Learning Outcomes Flow Diagram
Integrated Characteristic
Building Subject A 6
English 3 Calculus
4
Basic Chemistry 2
Engineer ing Dr awing
2
Int r oduct ion t o
Marine
Engineer ing
2
Integrated Characteristic
Building Subject B 6
Religion 2 SportsArts 1
Liniear Al gebr a
4
Basic Physics
1 Mechanic
Heat 4
Ship Building
Theor y
3 Ships
Visualization and Modelling
3
Engineer ing
Matematics 4
Basic Physics
2
El ec,
Magnet
, Wave, and
Optic 4
Healthy
, Safet y and Envir oment
2
Basic Ther modynamic
4
Ship Machinaery 1
2 Ship Materials
and Strength 3
Engineer ing
Computation 2
Material
Sel ect ion and
Manuf
. Pr ocess
6 Ship
Construction 4
Thermofluid 4 Ship
Machinaery 2 2
Design Assignment 1
2
Kinemat ics and Dynamics
4
Fluid and Piping System of Ship
4 Electrical and
Electronic System of Ships
1 2
Ship Resistance and Propulsion
3 Ship
Machinaery 3 4
Design Assignment 2
2
St at ist ic and Pr obabil it y
2
Ship Vibration 2
Electrical and Electronic
System of Ships 2 2
Ship Maintenance 2
Ship Machinaery 4
4
Design Assignment 3
4 Industrial
Seminar 2 Air Conditioning
and Refrigeration
System of Ship 4
Survey and Inspection of
Ship 2
Internship 2 Elective 1 4
Final Project 6 Elective 2 4
Elective 3 4
1 st Semester 2 nd Semester
3 rd Semester 4 th Semester
5 th Semester 6 th Semester
7 th Semester 8 th Semester
University of Indonesia
Faculty of Engineering
Mechanical Engineering Dept
Marine Engineering
MARINE ENGINEERING MECHANICAL ENGINEERING DEPT
FACULTY OF ENGINEERING UNIVERSITY OF INDONESIA
19 CREDITS 20 CREDITS
20 CREDITS 20 CREDITS
19 CREDITS 18 CREDITS
14 CREDITS 14 CREDITS
UNDERGRADUATE PROGRAM
Int egrat ed
Characteristic Building Subject
B 6
Int egrat ed
Characteristic Building Subject
A 6
144
CODE Mata Kuliah
SKS SUBJECT
Credits Semester 1
1 st Semester UIGE 6 0 0004
MPKT B 6
Integrated Character Building Subject B 6
UIGE 6 0 0002 Bahasa Inggris
3 English
3 ENGE 6 0 0001
Kalkulus 4
Calculus 4
ENGE 6 0 0009 Menggambar Teknik
2 Engineering Drawing
2 ENGE 6 0 0010
Kimia Dasar 2
Basic Chemistry 2
ENMR 6 0 0001 Pengantar Teknik Perkapalan
2 Introduction to Marine Engineering
2 Subt ot al
19 Subt ot al
19 Semester 2
2 nd Semester UIGE 6 0 0001
MPKT A 6
Integrated Character Building Subject A 6
UIGE600005-9 Agama
2 Religious Studies
2 UIGE 6 0 0003
Olahraga Seni 1
SportsArts 1
ENGE 6 0 0002 Aljabar Linear
4 Linear Algebra
4 ENGE 6 0 0003
Fisika Dasar 1 4
Basic Physics 1 4
ENMR 6 0 0002 Visualisasi dan Permodelan
Kapal 3
Ships Visualization and Modelling 3
Subt ot al 20
Subt ot al 20
Semester 3 3 rd Semester
ENGE 6 0 0004 Fisika Dasar 2
4 Basic Physics 2
4 ENME 6 0 0002
Matematika Teknik 4
Engineering Matematics 4
ENME 6 0 0004 Termodinamika Dasar
4 Basic Thermodynamics
4 ENMR 6 0 0003
Teori Bangunan Kapal 3
Ship Building Theory 3
ENMR 6 0 0004 Material dan Kekuatan Kapal
3 Ship Material and Strength
3 ENMR 6 0 0005
Permesinan Kapal 1 2
Ship Machinery 1 2
Subt ot al 20
Subt ot al 20
Semester 4 4 th Semester
ENEE 6 00031 Komputasi Teknik
2 Engineering Computation
2 ENME 6 0 0007
Proses Manufaktur dan Pemi -
lihan Material 6
Material Selection and Manuf. Process 6
ENMR 6 0 0006 Konstruksi Kapal
4 Ship Construction
4 ENMR 6 0 0007
Termoluida 4
Thermoluid 4
ENMR 6 0 0008 Permesinan Kapal 2
2 Ship Machinery 2
2 ENMR 6 0 0009
Tugas Merancang 1 2
Design Assignment 1 2
Subt ot al 20
Subt ot al 20
Semester 5 5 th Semester
ENME 6 0 0008 Kinemat ika dan Dinamika
4 Kinemat ics and Dynamics
4 ENMR 6 0 0010
Sistem luida dan Perpipaan Kapal
4 Fluid and Piping System of Ship
4 ENMR 6 0 0011
Sist em Kelist rikan dan Elek- tronika Kapal 1
2 Elect rical and Elect ronic Syst em of
Ships 1 2
ENMR 6 0 0012 Hambatan dan Propulsi
Kapal 3
Ship Resistance and Propulsion 3
ENMR 6 0 0013 Permesinan Kapal 3
4 Ship Machinery 3
4 ENMR 6 0 0014
Tugas Merancang 2 2
Design Assignment 2 2
Subt ot al 19
Subt ot al 19
Course Structure Marine Engineering Program Reguler Paralel
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
145
Semester 6 6 th Semester
ENGE 6 0 0005 St at ist ika dan Probablit as
2 St at ist ic and Probabilit y
2 ENGE 6 0 0008
K3LL 2
Healthy, Safety and Enviroment 2
ENMR 6 0 0015 Getaran Kapal
2 Ship Vibration
2 ENMR 6 0 0016
Pemeliharaan Kapal 2
Ship Maintenance 2
ENMR 6 0 0017 Sist em Kelist rikan dan Elek-
tronika Kapal 2 2
Elect rical and Elect ronic Syst em of Ships 1
2 ENMR 6 0 0018
Permesinan Kapal 4 4
Ship Machinery 4 4
ENMR 6 0 0019 Tugas Merancang 3
4 Design Assignment 3
4 Subt ot al
18 Subt ot al
18 Semester 7
7 th Semester ENME 6 0 0025
Kapita Selekta 2
Capita Selecta 2
ENMR 6 0 0020 Sist em Tat a Udara dan
Refrigerasi Kapal 4
Air Conditioning and Refrigeration System of Ship
4 ENMR 6 0 0021
Survei dan inspeksi Kapal 2
Survey and Inspection of Ship 2
ENMR 6 0 0022 Kerja Praktik
2 Internship
2 -------
Pilihan 1 4
Elective 1 4
Subt ot al 14
Subt ot al 14
Semester 8 8 th Semester
ENMR 6 0 0023 Tugas Akhir
6 Final Project
6 -------
Pilihan 2 4
Elective 2 4
------- Pilihan 3
4 Elective 3
4 Subt ot al
14 Subt ot al
14
Courses are offered options for specailization of Master of Engineering, Maritime Resources and
Technology and can be select ed by marit ime engineering undergraduat es
7 th Semester Sks
ENME 8 0 0615 Marine and Offshore Structure
4 ENME 8 0 1616
Sea Transportation and Port Management 4
ENME 8 0 1617 Maritime Law and regulation
4
8 th Semester
ENME 8 0 0611 Ship Production Management
4 ENME 8 0 0612
Special Ship Project 4
ENME 8 0 0613
Welding Engineering
4 ENME 8 0 0102
Energy Optimization System 4
For students who are willing and capable to continue the education program to pursue Masters in Engineering through the Fast track program, credit transfer can be performed as many as 20 SKS.
The numbers of credits that can be transferred consist of: 4 SKS from Engineering Mathematic course, 8 SKS from 2 Mandatory Core Courses and 8 credits from 2 Elective Core Courses.
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
146
TERMS AND CONDITIONS TO BECOME THE PAR- TICIPANT OF FAST TRACK PROGRAM ARE:
Expressed a desire to follow the Fast Track 1.
Program, by writing an application to the Head of the Department of Mechanical
Engineering wit h St udy Pl an incl udes a
plan-making subjects in Semester 6 to 8 in the Bachelor of Engineering and subject
Semester 1 to 4 the Master of Engineering Program in accordance with the Master
of Engineering Program Specialisation, no later than the end of 5
t h
Semest er t he
undergraduate program. Have an excellent academic record, with
2. 3.0 GPA until 5
t h
semester and have passed
all t he basic courses. The st udent s t hat f ollow t he Fast Track
3. program expressed their willingness to join
this program on full time basis. If the application of the fast track
4. program can be approved by the Head of
Department Study Program, the student
will be discussed along wit h t he Academic
Advisor for the finalization of the study plan inundergraduate and graduate
program. The students from the undergraduate program
that have the aggrement to join the fast track program have to reschedule their study in 7th
and 8th semester to get along with their 1st and 2nd semester in graduate program.
TRANSITION CURRICULUM 2008 TO 2012
2012 Curriculum will be started from 1.
first semester in 20122013 until second semester in 20162017
For the students who have not passed 2.
the mandatory courses from previous curriculum the 2008 curriculum
MUST take the similar or equivalent course in the new curriculum
t he
2012 curriculum. If the mandatory courses from previ
-
3. ous curriculum 2008 curriculum are
delet ed and t here are no equivalent courses in t he new curriculum, t he
t erms and condit ions will be: The cr edi t uni t SKS w i l l be
•
calculat ed f or t he st udent s who
have passed the courses.
For t he st udent s who have not
• passed the courses, they MUST
t ake t he elect ive course as an equival ent course or t ake t he
new mandat or y cour ses i n t he new curriculum.
Rules for the courses that being 4.
combined:
OR: if one of the course from •
the previous curriculum already passed, the students do not need
t o t ake t he new cour ses, t he
shortage of SKS will be replaced
wit h t he new elect ive course.
AND: both of the courses from •
previous curriculum have to be passed. If one of the course is not
passed, the student MUST take
an equivalent course in t he new curriculum.
If the mandatory course in the 2008 5.
curriculum become an elect ive course
in the 2012 curriculum, the terms and
condit ions are: The cr edi t SKS w i l l st i l l be
•
count ed f or t he st udent s who
have passed the courses.
The st udent wi l l have t o t ake
• an equivalent course or replace
wit h t he new mandat ory course i n t he new cur r i cul um f or t he
students who have not passed
t he course. If t here is a change in t he number
6.
of credit unit f or t he same course, t he number of credit SKS t hat will
be count ed is t he number f rom t he
previous curriculum. For the courses that move from irst
7.
t o second semest er or vice versa will
be opened in every semester during the transition period.
The mandatory courses in the 2012 8.
curriculum can be an elect ive course
for the students from the batch 2010
and below. The number s of cr edi t s SKS f or
9. graduate are 144, with 120 manda
-
tory credits and 24 elective credits.
The short age of credit number due
to the transition will be compensate
by t aking a new mandat ory course or elect ive course f rom t he new cur-
riculum.
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
147
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
EQUALITY TABEL Kurikulum 2008
Kurikulum 2012 Information
Courses Credit
Courses Credit
Integrated Character Building Subject
6 Integrated Character
Building Subject A 6
-
Integrated Character Building Subject B
6 Compulsory for the
2012 students and
onward -
Basic Chemistry 2
Compulsory for the 2012 students and
onward
Basic Computation 3
C o m p u t a t i o n
Engineering
2
- Basic Thermodinamics
4 Compulsory for the
2011 students and
onward
Introduction Ship Building 2
Introduction Marine
Engineering
2 Ship Building Theory 1
3
Ship Building Theory 3
AND: Kedua mata ajar di Kurikulum
2008 harus lulus. Bila salah satu MA
di kurikulum 2008
t i dak l ul us har us m engam b i l m at a
a j a r Ku r i k u l u m 2012.
Ship Building Theory 2 3
Ship Design 2
Ship Machinery 1 2
Ship Assignment 1 2
Design Assignment 1 2
Ship Machinery System 4
Ship Machinery 2 2
Fluid Syst em
3 Fluid and Piping System
of Ship 4
El ect r i cal and El ect r oni ka
System of Ship 2
Elect rical and Elect ronika
System of Ship 1 2
Ship Assignment 2 2
Design Assignment 2 2
System and Equipment of Ship
4 Ship Machinery 3
4 Mecahnical Vibration
2 Ship Vibration
2
- Elect rical and Elect ronika
System of Ship 2 2
Compulsory for the 2010 students and
onward -
Design Assignment 3 4
-
Ship Machinery 4 4
S h i p M a n i t e n a n c e Managment
2 Ship Maintenance
2
Indust rial Seminar
2
Indust rial Seminar
2 Air Conditioning System
Elect ive
4 Air Conditioning and
Refrigeration of Ship 4
148
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
Survey and Inspection of Ship
2 Compulsory for the
2009 students and
onward
Material Engineering 4
delet ed Bi l a t i d ak l u l u s,
d a p a t d i g a n t i dengan MA pilihan
atau MA wajib baru 2012
Teknopreneur 2
delet ed Et hics Engineering
2
delet ed
S h i p P r o d u c t i o n Management
4
Elect ive
Measurment and Metrology 3
delet ed
Ship Construcion 3
Ship Construcion 4
149
Course Description UIGE600001
UIGE610001 MPKT A
INTEGRATED CHARACTER BUILDING A
6 SKS Refer to Page 78
UIGE600004 UIGE610004
MPKT B
INTEGRATED CHARACTER BUILDING B
6 SKS Refer to Page 78
UIGE600002 ENGLISH
UIGE610002 ACADEMIC WRITING
3 SKS Refer to Page 78
UIGE600003 UIGE610003
SPORTS ARTS 1 SKS
Refer to Page 81
ENGE600001 ENGE610001
CALCULUS 4 SKS
Refer to Page 78
ENGE600010 ENGE610010
BASIC CHEMISTRY Refer to Page 79
ENGE600003 ENGE610003
BASIC PHYSICS 1 4 SKS
Refer to Page 79
ENGE600004 BASIC PHYSICS 2
4 SKS Refer to Page 81
ENGE600002 ENGE610002
LINEAR ALGEBRA 4 SKS
Refer to Page 79
UIGE600005-9 UIGE610005-9
RELIGIOUS STUDIES 2 SKS
Refer to Page 80-81
ENGE600005 ENGE610005
STATISTICS AND PROBABILITY 2 SKS
Refer to Page 82
ENGE600008 ENGE610008
HEALTH, WORK SAFETY, AND ENVIROMENT 2 SKS
Refer to Page 82
ENGE600009 ENGINEERING DRAWING 2 SKS
Refer to Page 130
ENMR600001 INTRODUCTION TO MARINE ENGINEERING
2 SKS Course Obj ective
:
Provide basic competence of Ships Machinery System andapproachtodesign
.
Syllabus :
History of Ship Building
;
Types of water bulding
:
the Classiication Society and the International
Agency;
Ship Building and Construction
; main dimension:
Ship Motion
;
Ship Design Process
; St abilit y:
resistance and Propulsion
; Tonnage;
Ship building method
.
Historical of ship ma
- chinery, main engines, auxiliary engines, t he
engineer room layout . Requirement
: -
References :
GM Kok, A.C. Nierich., 1.
Bangunan Kapal
, MARTECH
D A Tayl or,
2.
In t r od u ct i on t o Mar i n e Engi neer i ng
.1996
ENMR 6 0 0002 SHIPS VISUALIZATION AND MODELING
3 SKS
Course Obj ective :
Provide and understanding the principles of
-
ships design using CAD Computer Aided Design
sof t ware Syllabus
:
Optimization of Main Dimensions
;
Ship Com
-
parison Methode
:
Design procedure
: Basics of economic calculat ion; Finance Analysis; Terms
and Conditions and Type of ships
:
Optimiza
-
tion of Machine Selection
: The sel ect ion of
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
150
propulsion system
;
Classiication and Regu
-
lations statutory Rules
;
Ship Speciications
.
CADComputer Aided Design
Requirement : -
References :
Tupper E.C., 1.
Basic Ship Theory , But t erwort h
Heinemann, 2001
Davi d Wat son,
2.
Pr act i cal Shi p Desi gn .
Elsevier Science.1998 V. Bertram, H.Schneekluth,
3.
Shi p desi gn f or Ef f i ci ency and Economy
, But t erwort h
Heinemann, 1998 Tupper E.C. dan W. Muckle,
4.
Int r oduct i on t o Nav al Ar ch i t ect u r e
, But t er w or t h
Heinemann, 1996 T.C. Gillmer, Modern Ship Design, US Naval
5. Institute, 1975.
Manual 6.
Aut ocad dan Maxsur f 12. 02
ENME600002 ENGINEERING MATHEMATICS 4 SKS
Refer to Page 131
ENME600004 BASIC THERMODYNAMICS 4 SKS
Refer to Page 132
ENMR 6 0 0003 SHIP BUILDING THEORY 3 SKS
Course Obj ective :
Provide and underst anding about hydrost at ic and dynamic sat abilit y calculat ion
Syllabus
: LinesPlan calculat ion and met hodology; Bouy-
ancy system; Metasentra
, St at ic St abilit y:
Cal
- culat ion of hydrost at ic curves and cross curves;
docking,
Ship crashes out
, inclining t est
, ship
launching, Wave Theory;
Ship Hydrodynamics
;
Foil shape
;
Theory of Ship Motion
; Plan St eer- ing: Dynamic St abilit y: Theory of St at ionary
and Non-
St at ionary
on a Ship Motion
;
Calcula
-
tion ofCritical Conditions Due to shaky ship
;
Impact loading
.
Requirement : -
References :
Bryan Barrass Dr Derrett, 1.
shi p st abi l i t y f or mast er and mat es
.2006
A. B Brain,
2.
Shi p hydr ost at i cs and st abi l i t y ,
Butterworth, Heinemann, 2003.
Vo l k e r Be r t r a m ,
3.
Pr a c t i c a l sh i p hydr odynami cs
, Butterworth, Heinemann, 2000.
Dr C B Barrass, 4.
Sh i p st ab i l i t y not es exampl e, 3r d edi t i on
But t er w or t h,
Heinemann, 2001 E.C. Tupper K.J. Rawson,
5.
Basi c shi p Theor y
, Butterworth, Heinemann, 2001. M.A. Talahatu, Hidrodinamika kapal I
6. II, FTUI. 1998.
ENMR 6 0 0004 SHIPS MATERIALS AND STRENGTH 3 SKS
Course Obj ective :
Pr ovi de and under st andi ng f or cal cul at i ng t ransversal and l ongint udinal const ruct ions,
proile and plate selection calcultaion.
Syllabus :
St ress and st rain t orsiont orque and calcula- t ion of moment inert ia; axial f orce, shear f orce
and bending moment ;
Calculation of reaction
cross-beam and diagrams, axial and moment diagrams;
Analysis of stress and strain ields
;
Beams Delection I ;Beams Delection II
: St at ic; column; energy met hod; cylinder wall st hick
and t hin;
theory of plate
;
analysis of ship struc
- t ures; longit udinal and t ransverse st rengt h of
ships
;
calculation of midship strength
; Bend-
ing and torsion on the Hull Girder
;
Calculation of Cross Section,Bending and Bukling on the
panels
;
concept of fatigue
.
Requirement
:Introduction to Marine Engi
- neering
References
:
Dr. Yong Bai, 1.
Mar i ne St r uct ur al Desi gn .
Elsevier Science.2003 Tupper E.C., Basic Ship Theory, Butterworth
2. Heinemann, 2001
B. Baxter, Naval Architecture Examples 3.
and theory, Charles Griffin Co.
Biro Klasif ikasi Indonesia
4. Lloyd’s Register Rules and Regulations
5.
ENMR 6 0 0005 SHIP MACHINERY 1 2 SKS
Course Obj ective :
Understanding Concept Design of Ships Ma
- chinery
Syllabus
: Int roduct ion:
History
,
Deinition of Ship Machin
- ery,
Applications and Limitations
.
Ship Design
Pr ocess:
Design Requirements
,
Ship Design
Pr ocedur es,
Ship Machinery Requirements
. Int roduct ion t o
Main Propulsion Systems
: Pro-
pulsion System Design Concepts
,
Propulsion
Syst em Select ion,
Plant Selection Propulsion
. Transmi ssi on Syst ems:
Type
of Transmi ssi on Syst em, gears, shaf t s, clut ches, bearings.
Requirement
:Introduction to Marine Engi
- neering
References
: D A Tay l o r,
1.
I n t r o d u ct i o n t o Mar i n e Engi neer i ng
.1996 M. Khetagurov. Marine Auxiliary Machinery
2. and Systems. 1982. Peace Publishers
Moscow H. D. Mc. George. Marine Auxiliary
3. Machinery. 7 edition 2010.
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
151
ENEE600031 ENEE610031
NUMERICAL COMPUTATION 3 SKS
Refer to Page 179
ENMR 6 0 0006 SHIP CONSTRUCTION 4 SKS
Course Obj ective :
Provide knowledge and understanding types of construction on the ship sstructure and com
-
petence to design ship structures
Syllabus :
Bot t om St ruct ure:
Ship hull and section system
; Bulk head and girder; deck,
Coaming and super
st ruct ure:
fore peak
and
after peak construc
- t i on:
Construction of Tankers
;
Gas Carrier Ship Construction
: Doors and Windows; Fire Prot ect ion;
Cabin Construction
:
Construction of loading and unloading Equipments
; Paint ing
and Corrosion Prevention
.
Requirement
: Ship Strength
References :
D. J. Eyres, Ship Construction, 5th edition. 1.
Butterworth-Heinemann. 2011 D. Taylor, Merchant Ship Construction,
2. Prentice Hall
Biro Klasif ikasi Indonesia
3. Lloyd’s Register Rules and Regulations
4.
ENMR 6 0 0007 TERMOFLUIDS 4 SKS
Course Obj ective :
Provide and understanding about termoluids system of ship
Syllabus :
Principles of FluidDynamics
: Pressure dist ribu-
tion of luid low
,
integral low analysis
, def -
frensial low analysis
.
Viscous low
, drag and lif t f orce f or
loating and moving objects
. Laminar
and turbulent low
; Boundary Layer; Losses in Fluid Flow.
Heat Transfer
; one-dimensional st eady st at e; St edi di mensi onal conduct i on
st at e;
Convection principles
;
empirical for
-
mulas and practical for forced convection
and heat t ransf er. ; nat ural convect ion Syst em, heat
exchangers. Requirement
: -
References :
J.P. Holman, Heat Transfer, McGraw-Hill, 1.
Govinda, Fluid Flow Machines, McGraw- 2.
Hill
Di x o n , S. L , Fl u i d m e c h a n i c s a n d
3. Thermodynbamics. 4 th Edition, Pergamon
Press, 2005.
ENMR 6 0 0008 SHIP MACHINERY 2 2 SKS
Course Obj ective :
Undestanding concept and types of air condi
- t ioning syst em, auxiliary syst em, t ribology and
cooling system of ships engine.
Syllabus :
Basic prinsiple of Diesel engine: combustion concept, 4 and 2 stroke teory, parameters,
types of engine, diesel engine performance, turbo charger, Engine rating, engine compo
-
nent, Engine supporting system: starting sys
- t em, f uel syst em, lubricat ion syst em, cooling
system, engine propeller matching, experimen
-
tal of diesel engine performance.
Requirement
:Ships Machinery 1
References :
D A Tay l o r,
1.
I n t r o d u ct i o n t o Mar i n e Engi neer i ng
.1996
ENMR 6 0 0009 DESIGN ASSIGNMENT 1 2 SKS
Course Obj ective :
Undestanding of ship design procedures and
monit oring. Syllabus
: Design Anal ysis owner requirement based;
st udy lit erat ure;
initial inding
:
Displacement
, mai n di mensi on,
and shape of ship,inding power driven
;
linesplan skecth and monitong
of
calculation CSACurve
of Sect ional Area;
general plan sketchGA
; init ial assessment
payload and unloading space
, st abil it y, hul l ar i se, t r i m;
free and unloading space esti
- mat es;
watertight bulkhead positioning for passenger ships
.
Requirement
:Ship vizualisation and Model
- ling
References
:
B . B a x t e r, Te a c h Yo u r s e l f N a v a l 1.
Ar chi t ect ur e, The Engl i sh Uni ver si t i es
Press. Signifi cant Ships, RINA M.A Talahatu, Teori Merancang Kapal.
2. FTUI 1998.
ENME600008 KINEMATICS and DYNAMICS 4 SKS
Refer to Page ENMR 6 0 0010
FLUID AND PIPING SYSTEM OF SHIP 4 SKS Course Obj ective
:
Understanding types of luid system, piping sys
-
tem, and practically on the Ship Construction
Syllabus :
Positive displacement
of
luid engines
, hydrolic
system,pneumatic power systems
.
Experimen
-
tal of water piping system
,
air piping system
,
pump impeller
, Pelt on t urbine.
Piping systems on ships and marine construction
,
type of
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
152
pipe material
,
pipe ittings
, val ves, t anks, sea-chest , st andards and met hods of drawing
syst ems, bilga syst ems, ballast syst ems,
ire
ext inguish syst em,
supporting system auxil
- iary mot or, f uel syst em, lubricat ion syst em,
cooling syst em,
compressed air systems
, do- mest ic syst ems, t anker loading and unloading
syst ems. Requirement
: Termoluid
References :
A.Keith Escoe. Piping and Pipeline 1.
Assesment Guide. Elsevier Inc. 2006 Dixon, S.L, Fluid Mechanics and
2. Thermodynamics of Turbomachinery, 4th
Edition, Pergamon Press, 2005 Esposito, A., Fluid Power with Application,
3. 5th Edition, Prentice Hall, 2003
Mobley, R.K, Fluid Power Dynamics, 4.
Newnes Butterworth-Heinemann, 1999 Giles, R.V, Fluid Mechanics and Hydraulics,
5. 2nd Edition Schaum’s Outline Series, Mc-
Graw-Hill, 1994
ENMR 6 0 0011 ELECTRICAL AND ELECTRONICS SYSTEM OF
SHIPS 1 2 SKS Course Obj ective
:
Undesrtanding work principle, operation, and application of electrical and electronic
syst em Syllabus
: Basi c of el ect r oni cs:
Passive Components
: Semiconduct ors:
Electronic Components
; Digi- t al Syst ems;
Digital Combinational circuit
; Digi- t al Sequent ial circuit ;
PLC
;
Electronics Simple
Plan;
basic theory of DC circuit
: basic t heory
of AC electrical circuits
,
working principle of DC motors
,
Types of MDC;operation of the MDC
,
the working principle ofAC Motor
, Various kinds
of MAC
,
MAC operation
:
principle of generator
,
voltage drop generator
; generat or no-load and under l oad; Paral l el generat or; Int roduct ion
of the application on ship
;
Electric propulsion and PTO
.
Requirement : -
References :
E. Hughes, Electrical Technology, IBS 1.
John Bird, Electrical Electronic Principle 2.
and Technology. Jhon Bird.2003 John C Payne, The Marine Electronical
3. Electronics Bible, John Pyne.1993
ENMR 6 0 0012 SHIP RESISTANCE AND PROPULSION 3 SKS
Course Obj ective :
Provide and underst anding t o cal cut aion of
ships resistance and propulsion teoritically
and using model Syllabus
:
Ship force; Ship Resistance Comparative Law; Frictional resistance:wave resistance; pressure
resistance: Air resistance; Effect of Ship Shape; Resistance predictions with Model Test; Wake
Friction: Thrust reduction; Ship resistance in Bad Weather: The principle of Hydrofoil
Ship; coeficient of propulsion; Calculation of Propeller Design with Form Data and Wagen
-
ingenGraphs.
equirement
:Ship Building Theory
References :
J. P. Ghos 1.
e,
R. P. Gokar
n
, Basic Ship Propulsion, 2004
Dave Ger 2.
r
, The Propeller Handbook, McGraw-Hill Professional, 2001
Sv. Aa.
3.
Har val d,
Resistance and
Pr opul si on of Shi ps, 1983
C. Gallin, Ships and Their Propulsion 4.
System, Lohmann Stolterfoht
ENMR 6 0 0013 SHIP MACHINERY 3 4 SKS
Course Obj ective :
Students understanding and about principle
work of boil er, t urbine, combust ion engine, engine room layout .
Syllabus
:
Marine Boiler and Steam Engineering: types of
boiler, st eam t urbine, gas t urbine, combust ion
chamber, compressor, Performance analysis of Gas Turbine. Engine Room Lay Out: ergonomic
aspect on engine room layout, main motor layout, supporting system layout.
Requirement
:Ship Machinery 2
References :
Doug Woodyar
1.
d, Pounder ’ s Mar i ne Di esel Engi nes and Gas Tur bi nes
, But t erwort h-
Heinemann.2009 Anthony F. Mollan
2.
d , T h e Ma r i t i m e E n g i n e e r i n g R e f e r e n c e B o o k
,
Elsevier.2008 Nigel Calde
3.
r, Mar i ne Di esel Engi nes,
McGraw-Hill, 2006
ENMR 6 0 0014 DESIGN ASSIGNMENT 2 2 SKS
Course Obj ective :
Undesrt anding calculat ion and monit oring of
supporting ships design system
Syllabus :
Ship dispalcement methode; determine main dimension and coeficient; determine lines
plan, hydrostatic calculation, main section plan, proile and bulkhead plan, design of air
condirtioning system, ship maintenance design,
communi cat i on devi ces el ect i on, navi gat e
devices election, safety plan
Requirement
:Design Assignment 1
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
153
References :
B. Baxt er,
1.
Teach Yoursel f Naval Archit ect ure ,
The English Universit ies Press. Signif i cant
Ships, RINA M.A Talahatu, Teori Merancang Kapal. FTUI
2. 1998.
ENMR 6 0 0015 SHIP VIBRATION 2 SKS
Course Obj ective :
Underst anding of engine vibrat ion syst em and vibrat ion source det ect ion
Syllabus
: Engine vibrat ion syst em: f ree vibrat ion,
damp
- ing, t ransient vibrat ions, f orced vibrat ions,
vibrat ions wit h t wo degrees of f reedom, t or- sional vibrat ion,
lateral and longitudinal in ship propulsion system
;
Experimental measurement
of vibrat ion Requirement
: Kinemat ics and Dynamics
References :
L.C. Burril 1.
l, Ship vibrat ion: simpl e met hods of est i mat i ng cr i t i cal f r equenci es
,
North East Coast Institution of Engineers and
Shipbuilders. 1935 Meriam Kraige. Engineering Mechanics.
2. Vol-2, Dynamics. Wiley New York.4th
eds.1998. Holowenko. Dynamics of Machinery.John
3. Wiley.1995.
William T.Thomson. Theory of Vibrat ion wit h
4. application. Prentice Hall India.1972.
Beer Johnston.Mechanics for Engineer- 5.
Dynamics.Mc-Graw-Hill.1976.
ENMR 6 0 0016 SHIP MAINTENANCE 2 SKS
Course Obj ective :
Able t o maint ain dan cont rol engine syst em Syllabus
: Int roduct ion t o rel iabil it y syst em, rel iabil it y
Fundamental Review of the concept
,
simple system Network Modelling
,
Network Modelling
Syst em,
Introduction to Markov and Monte Carlo Simulation
,
Discrete Markov Chains and Markov Continuous Process
.
Public Review
:
Economic and Reliability,Maintenance Strategy
. Funct ions of
Manual Maintenance
; Part s List and St ock;
Preparation of Schedule Mainte
- nance:
Maintenance Document Preparation
;
Engine Room Maintenance
,
Maintenance of
Invent ory:
The Role of Engine Builders Tips
andTools:
Spare-
Part s.
Requirement : -
References :
D. Benkovsky, Technology of ship repairing, 1.
MIR Publisher. Piero Caridis, Inspection, Repair, and
2. Maintenance of Ship Structures, Witherby
Co.Ltd, 2001 Shields S., et.al, Ship Maintenance : A
3. Quantitative Approach, IMARES, 1996
ENMR 6 0 0017 ELECTRICAL AND ELECTRONIC SYSTEM OF
SHIPS 2 2 SKS Course Obj ective
:
Understanding the principles engineering and automation and control applications in the
shipbuilding
Syllabus :
Int roduct ion t o aut omat ion syst ems engineer- ing;
proportional plus integral plus derivative control; Application of mathematical model
-
ing to determine the performance of control system. Response system signalsI and OrderII
:
Analysis of transient response of the system
order I and order II:
Introduction to process control in shipbuilding applications
;
computer
simulat ions and laborat ory-scale models; In-
troduction of hydraulic and pneumatic control systems.Instruments for UMS classiication
Requirement : Elect rical and Elect ronics Sys-
tem of Ships 1
References :
E. Hughes, Electrical Technology, IBS 1.
John Bird, Electrical Electronic Principle 2.
and Technology. Jhon Bird.2003 John C Payne, The Marine Electronical
3. Electronics Bible, John Pyne.1993
P. Akinov. Marine Power Plant. 1982. Peace 4.
Publishers Moscow
ENMR 6 0 0018 SHIP MACHINERY 4 4 SKS
Course Obj ective :
Underst anding t heory, syst em,
and principle work of ship equipment and technology
.
Syllabus :
Anchoring and mooring equipment supplies
;
loading and unloading equipment
; Wat er-t ight windows and doors;
Ventilation Equipment
:
Safety Equipment
:
Equipment Navigation and Communications
;
Firefighting Equipment
:
Equipment ShipSteering
;
Oil Separator Equip
- ment :
Pumps and System Installation.
Requirement
:Ship Machinery 3
References :
H. McGeorge, Marine Auxiliary Machinery, 1.
Butterworth Heinemann, 2001. D.A. Taylor, Introduction to Marine
2. Engineering, Butterworth Heinemann,
1996 M. Khetagurov. Marine Auxiliary Machinery
3. and Systems. 1982. Peace Publishers
Moscow
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
154
ENMR 6 0 0019 DESIGN ASSIGNMET 3 4 SKS
Course Obj ective :
Underst anding of calculat ion and monit oring
ship engine design
Syllabus :
Engine and t ools select ion auxilary engine; el ect ri cal l oad bal ance; Det ai l ed drawi ngs;
Design of Ship Engine Room Layout
; t ransmis- si on syst em, r educt i on gear and shaf t i ng;
Construction of a propeller and propeller
maching;
ship piping systems for engine and
hull;
ire extinguishing system
; st eering syst em; vent ilat ion syst em; calculat ion, select ion and
layout of t he marine cable; load analysis and
design one-line diagram of electrical Wiring
Diagram inst alasi including light ing vessels and
equipment
. Bil ga syst em design and Engine
Room Bilga SystemOily-Water
Bil geSyst em;
Design System Reply
: FireSyst em Design: De- sign of Fuel Syst em: Engine Lubricat ion Syst em
Design:
Design of Engine Cooling System
: Air Pressure Syst em Design; Domest ic Fresh Wat er
System Design Air Sea
;
Sanitary Disposal
Syst em Design: t he design of loading and un- loading syst ems;
Ship Electrical Load Analysis
:
Calculation and selection of the number and capacity of Genset Shore Connection
: t he
calculation and selection of battery capacity
;
List Equipment Code
Requirement
:Design Assignment 2
References :
B. Baxt er,
1.
Teach Yoursel f Naval Archit ect ure ,
The English Universit ies Press. Signif i cant
Ships, RINA M.A Talahatu, Teori Merancang Kapal. FTUI
2. 1998.
ENMR 6 0 0020 AIR CONDITIONING AND REFRIGERATION SYS-
TEM OF SHIP 4 SKS Course Obj ective
: Underst anding of air condit ioning syst em on
the ship
Syllabus :
Basic principles of refrigeration and air con
-
ditioning processes.
Di agr ams Psi kr omet r i , duct ing syst em design, heat ing syst em design,
vent il at ion syst em design, syst em design of air condit ioning and ref rigerat ion, t echnical
speciications and troubleshooting, ISO stan
-
dards and the Class
Requirement : -
References :
James Harbach, Marine Refrigeration and 1.
Air Conditioning, Cornell Maritime Press, 2005
N. Larsen, Marine Air Conditioning Plant, 2.
Butterworth-Heinemann, 2001 Jones W.P., Air Conditioning Engineering,
3. Butterworth-Heinemann, 2001
ENMR 6 0 0021 SURVEY AND INSPECTION OF SHIP
2 SKS Course Obj ective :
Understanding types of class survey, statutory approval and ship operation
Syllabus :
Statutory survey; Class survey; Hull survey; Loadline survey, Inclining experiment; Damage
survey; Machinery Installations survey; Electri
-
cal Genset survey; Seatrial procedure.
Requirement :
References :
D. Benkovsky, Technology of ship repairing, 1.
MIR Publisher. Piero Caridis, Inspection, Repair, and
2. Maintenance of Ship Structures, Witherby
Co.Ltd, 2001 Shields S., et.al, Ship Maintenance : A
3. Quantitative Approach, IMARES, 1996
Biro Klasif ikasi Indonesia
4. Lloyd’s Register Rules and Regulations
5.
ENME 6 00025 CAPITA SELECTA
Refer to Page 137
ENMR 600022 INTERNSHIP
Refer to Page 137
ELECTIVE COURSES FROM MASTER PROGRAM
ENME800615 MARINE AND OFFSHORE STRUCTURE 4 SKS
Refer to Page 429
ENME800616 SEA TRANSPORT AND PORT MANAGEMENT
4 SKS Refer to Page 430
ENME800617 MARITIME LAW AND REGULATION 4 SKS
Refer to Page 430
ENME800611 SHIP PRODUCTION MANAGEMENT 4 SKS
Refer to Page 429
ENME800612 SPECIAL SHIP PROJECT 4 SKS
Refer to Page 430
ENME800613 WELDING ENGINEERING 4 SKS
Refer to Page 430
ENME800102 ENERGY OPTIMIZATION SYSTEM 4 SKS
Refer to Page 416
U N
D E
R G
R A
D U
A T
E
P R
O G
R A
M
155
4. 5. UNDERGRADUATE PROGRAM IN ELECTRICAL ENGINEERING Program Speciication