MMT3302 Marine engineering System

Information

Lecturer• Associate Professor Dr. Sulaiman Olanrewaju

Oladokun, CEng, CMarEng

Contact info• Room/Office : PPKK Building, level 2• Office Phone: 09-668-3697• Email : o.sulaiman@umt.edu.my• Cell-phone :017-7244339• Yahoo / MSN messenger/ Gmail / Skype :

o.sulaiman@@xxx.com• Facebook : o.sulaiman• Linkin..etc

Sulaiman Session

• Feel free to SMS/call/meet• After 10:00 pm: SMS only (no phone call unless

really urgent & important)• Your SMS will be replied if you provide these

informationYour nameYour sectionYour does not sound some sort of “Akum En., Bsk test

kuar apa ek?” or “En. Nk mnt hint utk test?”Advisable to call/sms me first before coming to my office

General Information MTM3302

Course

– Marine Engineering System

Code

– MTM3302

Credit: 3

– Lecture : 2 hour

– Tutor : 0 hour

– Lab : 1 hour

Course Website:

– http://epembelajaran.umt.edu.my/oceania/course/view.php?id=776

Contact Hour/ Time Table

i. Lecture: 08.00 – 10.00 HRS – (Tues) KK09

ii. Late attendee will be punished!

iii. No Attendance will be very punished!

Ground Class Rules!!!

• 100% attendance is compulsory

• No late comers to the class/lab

• Nice attire, No slippers

• No make up test or quiz. (requiz or retest)

Synopsis

This subject introduces students to the general knowledge of marine engineering terms and control systems. It also explain the principles and operation of all the ship’s machinery, type of main machinery and auxiliary machineries. It enable students to develops knowledge on how all the systems work which covered the topics such as marine power plant, boiler, propulsion system, fresh water generator, steering gear, pumps system, refrigeration, marine sewage, incinerator, deck machineries and etc.

Course Objective

To give understanding on the working principles, construction and operation of all the machinery items in a ship

To provide learners with the knowledge and understanding of the marine engineering and control systems

To ensure better shipboard operational efficiency carried out

To Instruct about the need for correct and safe operating procedures

Course Learning Outcome

At the end of this course, the students should be able to:-LO1:Use engineering terms and describe

the concepts of control systemsLO2:Apply the operating principles of marine

power plantLO3:Apply the safe operating procedures on

board shipLO4:Identify the function and operation of a

vessel’s auxiliary machineryLO5: Analyze the features of a range of

propulsion types on a ships.K PS SSR VAP

LO1,LO2,LO3 - LO3 LO3 CLTS PSSS IMLL MES LO5 LO4, LO5 LO5 -

TEACHING METHOD

Lecture Group discussion / presentations Visiting lecturer Field trip Assignments/ reports Student-Centered learning: Case study

10

Syllabus Outline

i. General Knowledge of Marine Engineering Terms (3h)

ii. Operating Principles of Marine Power Plants (9h)

iii. Ship’s Auxiliary Machineries (12h)

iv. Electrical Power Generation Power Generation & Distribution (6h)

v. Propulsion System (9h)

Schedule of lecturesWeek Topics Dur. Location

1 1. General Knowledge 0f Marine Engineering TermsMarine Engineering Terms and fuel ConsumptionArrangement in Engine RoomSafe Working Practice

3 K1-K2LO1

2 -4 2. Operating Principles of Marine Power PlantsMarine Diesel Engine Power PlantMarine Steam Turbine Power Plant

9 K1-K3LO1, LO2, LO3

5-8(Test 1)

(2 JAM)

3. Ship’s Auxiliary MachineriesPumps and Pumping Systems: Fundamental of pumping system, Types of pumping, Pumping operation, Introduction of piping system, Piping and tubing, ValvesDistillation and fresh water systemRefrigeration, Air conditioning & Ventilation: Refrigeration: Cycle and Load, Principle of the component systems, Operation of Refrigerated System, Air conditioning – Related humidity, Ventilation & Exhaust fan, Compressors, Chillers & CondensersAuxiliary BoilerIncineratorSewage Treatment PlanDeck Machinery

12 K1-K4LO1, LO3, LO4,

LO5

Schedule of lecturesWeek Topics Dur. Location

9-10 4. Electrical Power Generation Power Generation & DistributionGenerator, Alternator & Electrical DistributionFundamental of ElectricityElectrical TermsBasic Electric CircuitsElectrical Components and Instrumentation

6 K1-k4LO1, LO2, LO3

11-13(Test 1)

(2 JAM)

5. Propulsion SystemPropeller & ShaftPropeller: Fixed Pitch and Controllable PitchWaterjet SystemSteering GearBridge Control of propulsion Machineries

9 K1-k4LO1, LO3, LO5

COURSE WORK / TEST / PRESENTATION / QUEEZ

(Continuous Assessment)60%

Test 1 & Test 2 20%

Assignments, Presentation, Project & Quizzes 25%

Attendance 5%

Others (attitude, leadership, communication, extracurricular, team building, entrepreneurship, professional ethic and moral, lifelong learning etc..)

10%

FINAL EXAMINATION 40%

TOTAL 100%

Course Evaluation

Marks Grade Marks Grade80 - 100% A 55 - 59% C+75 - 79% A- 50 - 54% C 70 - 74% B+ 45 - 49% C-65 - 69% B 40 - 44% D60 - 64% B- 39% or less F

Reference and teaching material

Lecture Notes • Students are given lecture notes covering the

topics. The course deliver is not limited to only lectures but problem based assignments PLUS a lot of self study is expected.

Exercises • Questions for each chapter are included in

recommended text book which they will try out in their own time.

Chinese Proverbs

Tell me and I’ll forget; show me and I may remember; involve me and I’ll understand.

Give a man a fish and you feed him for a day. Teach a man to fish and you feed him for lifetime.

Teachers open the door. You enter by yourselves.

Reference Materials

H.D. McGeorge. General Engineering Knowledge (Third Edition, 1991) ISBN 0750600063

D. A. Taylor. Introduction to Marine Engineering (Second Edition, 1996) ISBN 0750625309

El-Hawari, F. (2000). Ocean Engineering Handbook. CRC Press, UK.

Rowen, A.L., Gardner, R.F., Femenia, J., Chapman, David, S., Wiggins, E.G., (2005). Introduction to Practical Marine Engineering, Volume 1, Text. The Society of Naval Architects & Marine Engineerings. New York

Hunt, E.C, Harbach, J.A and Rowen, A.L. (2002) Modern Marine Engineer’s Manual, Vol 2. Cornell Maritime Press Inc. New York. USA

18

Review on PEO & PO

PROGRAMME EDUCATIONAL OBJECTIVES(PEO)

Programme Educational Objective (PEO) 01:

Have strong fundamental knowledge in Maritime Technology engineering and science

Programme Educational Objective (PEO) 02:

Are competent in technical skills specializing in areas related to niche area of university.

Programme Educational Objective (PEO) 03:

Have right attitudes and ethics necessary in fulfilling their responsibilities towards society and humanity as vicegerent on earth

Programme Educational Objective (PEO) 04:

Have the knowledge and interest of technopreneurship.

PROGRAMME OUTCOMES (PO)

i. Acquire and apply knowledge of marine sciences and engineering fundamentals. [PO1]

ii. Acquire in-depth technical competency in a maritime technology discipline. [PO2]

iii. Identify, formulate and provide effective solution to science and engineering problem. [PO3]

iv. Design and evaluate the performance of a system using integrated and interdisciplinary approaches. [PO4]

v. Describe the design principles for sustainable development. [PO5]

vi. Demonstrate the professional and ethical responsibilities as an engineer and Scientist. [PO6]

PROGRAMME OUTCOMES (PO)

vii.Communicate effectively with multidisciplinary professions and community at large. [PO7]

viii.Function effectively as an individual and in a group with the capacity to be a leader. [PO8]

ix. Explain the impact of engineering solution in societal, cultural, global and environmental context. [PO9]

x. Recognize the needs and posses the capability in life-long learning. [PO10]

xi. Utilize techniques, skills and modern engineering tools necessary for engineering practice and adaptable to industrial needs. [PO11]

xii.Explain the technopreneurship concept in engineering practice. [PO12]

CO/PO Mapping

Conclusion

• Next Lecture

• Introduction to Marine Engineering Systems- Focus on general marine engineeirng systems and typoes of system and components of system.