Issue date: 01.10.2019

Revision date: 01.10.2019

Revision No: 00

DF Board Decision No: -

Course Name : Engine Room Simulator-I

Degree: Bachelor

Code

Year/Semester

Local Credits

ECTS Credits

Course Implementation, Hours/Week

Course

Tutorial

Laboratory

SMME314

3/5 (Fall)

2,5

3

1

-

2

Department

Marine Engineering

Instructors

Contact Information

Office Hours

Web page

-

Course Type

 Compulsory

Course Language

English

Course Prerequisites

-

Course Category by Content, %

Basic Sciences

Engineering Science

Engineering Design

Humanities

10

90

-

-

Course Description

Procedures for Operation, Monitoring and Control of Automated Main propulsion, Auxiliary and Electrical systems

Course Objectives

To furnish the students with the knowledge of the:

1. Introduction to the Control and Instrumentation  consoles of automated Main Propulsion Power, Auxiliary and Electrical Systems of the ships 
2. Operation of  the Control and Instrumentation  consoles of automated Main Propulsion Power, Auxiliary and Electrical Systems of the ships 
3. Preparation, Operation and Control of  the automated Main Propulsion Power, Auxiliary and Electrical systems  for departure, voyage and arrival of General Cargo, LCC Tanker ve RO-RO type ships
4. IV. As a team of watch, Preparation, Operation and Control of  the automated Main Propulsion Power, Auxiliary and Electrical systems  for departure, voyage and arrival of General Cargo, LCC Tanker ve RO-RO type ships

Course Learning Outcomes

Students successfully completed this lecture will have the below knowledge of operation of the automated systems of various commercial ships:

1. Preparation, Operation and Control the ships automated systems for a voyage,
2. Understand the correlation between Process and Automation relevant
3. Control and Monitor carefully the running data, make Trend Analysis and take the necessary counter measures
4. Immediate corrective actions to take in case of emergencies
5. Operate the automated systems in line with marine engineering and International laws, regulations and standards.

Instructional Methods and Techniques

1. Theoretical and practical trainings will take place in the Engine Room Simulator training Centre
2. Training method will establish on and cover static and dynamic training for individuals as well as team of watch
3. Assessment criteria for midterm will be a written type exam, and written/Oral for Final exam.

Tutorial Place

Engine Room Simulator Training Centre

Co-term Condition

SM 316 Automatic Control

Textbook

Engine Room Simulator Trainee Manuals, Document Code: ERS 4000, Transas Ltd. June. 2005

Other References

Engine Room Simulator Instructor Manuals, Document Code: ERS 4000, Transas Ltd. June 2005

Homework & Projects

-

Laboratory Work

 Engine Room Simulator

Computer Use

Engine Room Simulator

Other Activities

-

Assessment Criteria

Activities

Quantity

Effects on Grading, %

Attendance

-

-

Midterm

1

20

Quiz

-

-

Homework

-

 -

Term Paper/Project

-

-

Laboratory Work

-

-

Practices

1

20

Tutorial

-

-

Seminar

-

-

Presentation

-

-

Field Study

-

-

Final Exam

1

60

TOTAL

%100

Effects of Midterm on Grading, %

%40

Effects of Final on Grading, %

%60

TOTAL

%100

ECTS/

WORKLOAD TABLE

Activities

Count

Hours

Total

Workload

Lecture

14

1

14

Midterm

1

10

10

Quiz

Homework

Term Paper/Project

Laboratory Work

14

2

28

Practices

1

10

10

Tutorial

Seminar

Presentation

Field Study

Final Exam

1

12

12

Total Workload

75

Total Workload/25

75/25

Course ECTS Credits

3

Week

Topics

Course Outcomes

1-3

I. Introduction to the Control and Instrumentation  consoles of automated Main Propulsion Power, Auxiliary and Electrical Systems of the ships 

1

1

Introduction to Engine Room Simulator

1.1

1

Describe the purpose of an Engine Control Room Simulator

1.1.1

1

Define the relation of Process and Automation

1.1.2

1

Define the Instrumentation, Command and Control elements

1.1.3

1

Define the data, signal, information feedback, control unit and monitor

1.1.4

1

Electrical Plant Console Instrumentation and Controls

1.2

1

Describe main components of an electric power plant

1.2.1

1

Describe Individual Control Panels of an electric power plant

1.2.2

1

Describe Instrumentation provided on each electric control panel

1.2.3

1

Describe Command and Control elements on each electric control panel

1.2.4

2

Auxiliary Systems Console Instrumentation and Controls

1.3

2

Describe main components of each auxiliary system

1.3.1

2

Describe Individual Control Panels of each auxiliary system

1.3.2

2

Describe Instrumentation provided on each auxiliary system

1.3.3

2

Describe Command and Control elements on each auxiliary system

1.3.4

3

Main Propul. System Console Instrumentation and Controls

1.4

3

Describe main components of main propulsion system

1.4.1

3

Describe Individual Control Panels of main propulsion system

1.4.2

3

Describe Instrumentation provided on each main propulsion system control panel

1.4.3

3

Describe Command and Control elements on each main propulsion system control panel

1.4.4

4-7

II. Operation of  the Control and Instrumentation  consoles of automated Main Propulsion Power, Auxiliary and Electrical Systems of the ships 

2

4

Introduction to running Parameters

2.1

4

Explain the running parameter

2.1.1

4

Define the importance of running parameters

2.1.2

4

Describe the setting, observation and control of running parameters

2.1.3

4

Describe the trend analysis of running parameters and counter measures to take

2.1.4

5

Operation of Electrical Plant

2.2

5

Explain the main components and operation of Electric Power Generators

2.2.1

5

Explain the main components and operation of Main Switch Board

2.2.2

5

Explain the main components and operation of Electric Power Distribution Boards

2.2.3

5

Explain the parallel Operation, Synchronization and Mode selection of Electric Power Generators

2.2.4

6

Operation of Auxiliary Systems

2.3

6

Explain the main components of each auxiliary system

2.3.1

6

Explain the preparation and securing of each auxiliary system

2.3.2

6

Explain the running parameters of each auxiliary system

2.3.3

6

Explain the operation of each auxiliary system

2.3.4

7

Operation of Main Propulsion Plant

2.4

7

Explain the main components of main propulsion plant and its sub-systems

2.4.1

7

Explain the preparation and securing of main propulsion plant and its sub-systems

2.4.2

7

Explain the running parameters of main propulsion plant and its sub-systems

2.4.3

7

Explain the operation of main propulsion plant and its sub-systems

2.4.4

7

MIDTERM EXAM   ( Date………………………….. )

8-10

III. Preparation, Operation and Control of  the automated Main Propulsion Power, Auxiliary and Electrical systems  for departure, voyage and arrival of General Cargo, LCC Tanker ve RO-RO type ships

3

8

General Cargo

3.1

8

Describe the preparation of systems for a voyage

3.1.1

8

Describe the control of running systems during a voyage

3.1.2

8

Describe the arrangement of systems for maneuvering

3.1.3

8

Describe the arrangement of systems for end of a voyage

3.1.4

9

LCC Tanker

3.2

9

Describe the preparation of systems for a voyage

3.2.1

9

Describe the control of running systems during a voyage

3.2.2

9

Describe the arrangement of systems for maneuvering

3.2.3

9

Describe the arrangement of systems for end of a voyage

3.2.4

10

RO-RO

3.3

10

Describe the preparation of systems for a voyage

3.3.1

10

Describe the control of running systems during a voyage

3.3.2

10

Describe the arrangement of systems for maneuvering

3.3.3

10

Describe the arrangement of systems for end of a voyage

3.3.4

11-14

IV. As a team of watch, Preparation, Operation and Control of  the automated Main Propulsion Power, Auxiliary and Electrical systems  for departure, voyage and arrival of General Cargo, LCC Tanker ve RO-RO type ships

4

11

Team-1 & System diagrams Rules of Watchstanding at Engine Control Room of General Cargo/LCC Tanker/RO-RO

4.1

11

Explain the procedures to be obeyed by a watch officer

4.1.1

1

Explain the importance of monitoring running parameters

4.1.2

11

Explain how to make trend analysis using running parameters

4.1.3

11

Explain the counter measures for abnormal symptoms/conditions

4.1.4

12

Team-2 & System diagrams Rules of Watchstanding at Engine Control Room of General Cargo/LCC Tanker/RO-RO

4.2

12

Explain the procedures to be obeyed by a watch officer

4.2.1

12

Explain the importance of monitoring running parameters

4.2.2

12

Explain how to make trend analysis using running parameters

4.2.3

12

Explain the counter measures for abnormal symptoms/conditions

4.2.4

13

Team-3 & System diagrams Rules of Watchstanding at Engine Control Room of General Cargo/LCC Tanker/RO-RO

4.3

13

Explain the procedures to be obeyed by a watch officer

4.3.1

13

Explain the importance of monitoring running parameters

4.3.2

13

Explain how to make trend analysis using running parameters

4.3.3

13

Explain the counter measures for abnormal symptoms/conditions

4.3.4

14

Team-4 & System diagrams Rules of Watchstanding at Engine Control Room of General Cargo/LCC Tanker/RO-RO

4.4

14

Explain the procedures to be obeyed by a watch officer

4.4.1

14

Explain the importance of monitoring running parameters

4.4.2

14

Explain how to make trend analysis using running parameters

4.4.3

14

Explain the counter measures for abnormal symptoms/conditions

4.4.4

15

FINAL EXAM   ( Date………………………….. )

Program Outcomes

Level of Contribution

1

2

3

a

An ability to apply knowledge of mathematics, science, and engineering

X

b

An  ability to design and conduct experiments, as well as to analyze and interpret data

X

c

An ability to design a system, component or process to meet desired needs

X

d

Ability to function on multi-disciplinary teams

X

e

An ability to identify, formulate, and solve engineering problems

X

f

An understanding of professional and ethical responsibility

X

g

An ability to communicate effectively

X

h

The broad education necessary to understand the impact of engineering solutions in a global and societal context

X

i

A recognition of the need for, and an ability to engage in life-long learning

X

j

A knowledge of contemporary issues

X

k

An ability to use the techniques, skills and modern engineering tools necessary for engineering practice

X

l

An ability to apply legal, societal and environmental knowledge in maritime transport and in all respective modes of transport operations.

X

m

An ability to interpret and analysis of the data regarding maritime management and operations, recognition and solution of problems for decision making process.

X

Course

Outcomes

I

II

III

IV

V

Programme Outcomes

a

b

X

c

X

d

e

X

X

X

X

f

g

h

i

X

X

X

X

j

X

X

k

X

l

X

m