MINISTRY OF
EDUCATION AND SCIENCE OF UKRAINE
KHERSON STATE
MARITIME ACADEMY
STUDY PROGRAM
“Management
of Ship Technical Systems and Complexes”
First
level of higher education
Speciality 271 River and Sea Transport
Specialization 02 Management of Ship Technical Systems and Complexes
Field of Knowledge 27 Transport
Qualification: Bachelor in Management
of Ship Technical Systems and Complexes
|
APPROVED minutes
#
_____ dated «___» _______ 2020 Acting
academic secretary ______ Babyshena
M.I. The
training program enters into force on
September 1, 2020 Enacted
by KSMA order dated
“___”
_______ 2020 # _____ Rector
___________ Cherniavskyi V.V. |
Kherson –
2020
APPROVAL SHEET
for
bachelor’s degree program
Higher education level
Field of knowledge |
27 Transport |
Speciality |
271 River and sea
transport |
Specialization |
02 Ship
power operation plant |
AGREED
First Vice-Rector
_________________ Kulykova L.B.
“____” ___________ 20____
Project team leader:
Deputy Dean of Ship Engineering Faculty,
Ph.D. in Technical
Science,
Associate Professor of Transport Technologies
Department
____________
Akimov O.V.
“____” ___________ 20____
FOREWORD
Developed in
compliance with the approved standard of higher education for speciality 271 “River
and Sea Transport” for the first (bachelor) level of higher education (Order
by MES of Ukraine #1239, dated 13.11.2018) by a project team composed of:
1.
|
Deputy Dean of Ship Engineering
Faculty, Associate Prof. of Transport Technologies Department |
_________________ |
Akimov O.V. |
2.
|
Ph.D.
in Technical Science, Associate
Prof. of Department of Ship Power
Plants Operation |
_________________ |
Babii
M.V. |
3.
|
Ph.D.
in Technical Science, Associate
Prof. of Department of Ship Power Plants Operation |
_________________ |
Bogdan U.O. |
1. Study program
profile
Speciality 271 River and sea
Transport
Specialization Management of Ship
Technical Systems and Complexes
1 – General
information |
|
Full name of the
higher education establishment and structural subsection |
Kherson State Maritime Academy Engineering
Faculty |
Higher education degree and qualification name in the original language |
Higher Education Degree – “Бакалавр” Qualification: -
Бакалавр з управління судновими технічними системами і комплексами |
Official name of the study program |
Professional
training program “Management of ship technical systems and complexes” |
Diploma type and study program length |
Bachelor
degree,
single: –
240 credits ECTS (3 years 10 months) on the basis of full general secondary education |
Accreditation |
Accreditation
certificate НД
series
№ 2296087 Certificate
validity - July 1, 2026 |
Cycle/level |
First (bachelor) level – level 6 of NQF |
Background |
– Possession of full secondary general
education |
Language(s) of instruction |
Ukrainian |
Validity
period of study program |
2026 |
Internet address
of permanent placement of the study program description |
http://kma.ks.ua/ua/publichna-informatsiya/normativnye-dokumenty-akademii/osvitni-programi |
2 – The program
educational objectives |
|
Acquisition
by higher education applicants of knowledge, understanding, proficiency and
other competences required for an officer position on board sea and river
vessels; work at enterprises, institutions and organizations
that ensure the operation of the fleet, traffic management and safety of
navigation; continuing education at the second level of higher education. |
|
3 – Study
program characteristics |
|
Subject
area (field
of knowledge, speciality, specialization (if available) |
Objects of
activities: vessels and
floating bases; control systems of sea-going and river transport
vehicles; systems of ensuring navigation security Subjects of study:
technical systems and ship complexes (ship mechanical systems, electrical
equipment and electronic equipment and control systems, radio communication
systems); methods of operation of vessels and their systems; organization of
crew work and care for people on ships; shipping safety systems. Learning
objectives: acquisition by higher
education applicants of knowledge, understanding, proficiency and other competences
required for:
an
officer position on board sea and river vessels; work at
enterprises,
establishments and
organizations which ensure fleet operations, manage vessel
traffic and navigation security; further education at the second level of higher
education. Theoretical
content of the subject area: The theoretical content of the subject area is based on theories of
ship design, automatic control, reliability, mechanical engineering,
electrical engineering; methods of environmental protection, risk assessment
and decision making, emergency management, resource management. |
Study
program orientation |
Professional
training |
Program
feature |
Necessity
of shipboard practice and undergraduate practice on board ships |
4 – Graduates’
suitability for employment and further education |
|
Suitability
for employment |
The training
program is aimed at graduates’ employment on ships and at enterprises of
river and sea transport allowing to hold positions of: – engineer (marine), engineer of refrigerator units (marine), chief
engineer, port engineer, ship systems engineer,line fleet
engineer, group fleet engineer; – equipment
engineer, specialized fleet engineer, marine engineer. |
Further
education |
Education at the
second (master) level |
5 – Instruction and
assessment |
|
Instruction |
Lectures,
(multimedia
lectures),
practical
lessons, laboratory
lessons,
seminars, simulator
training,
shipboard
practice,
distance
learning,
independent
learning,
individual
lessons
(consultations). |
Assessment |
Testing
is a basic form of assessing cadets’ competences. An effective way of
assessing acquired competences is technological
tool Moodle. Oral
and written examinations, credits, defense of practice report, defense of
course papers (projects). |
6 – Program
components |
|
Integral
competence |
Ability to solve complex specialized problems and practical problems
in the field of ship engineering, which involves the application of theory
and methods of shipbuilding, mechanical and electrical engineering, operation
and repair of vehicles, resource management and are characterized by
complexity and uncertainty |
General
competences (GC) |
GC1. Ability to
plan and manage time GC2. Ability to
use English in written and oral form in performing professional duties
including: GC3. Proficiency
in using information and communication technologies GC4. Proficiency
in identifying, pose and solve challenges. GC5. Ability to
make and implement informed management decisions within the accepted risks. GC6. Ability to
work in a team, organize personnel work, in complicated and critical
conditions including: GC7. Proficiency
in interpersonal interaction GC8. Ability to
motivate people and move toward a mutual goal GC9. Valuing and
respecting multiculturalism. GC10. Ability to
work autonomously GC11.
Proficiency in performing safe activities (tendency to safety) GC12. Aspiration
for environment conservation GC13. Ability to
further education GC14. Ability to
act socially responsible and conscious GC15. Ability to
realize their rights and duties as a member of society, be aware of values of
civil (free democratic) society and necessity for its stable development,
rule of law, rights and freedoms of a person and citizen in Ukraine GC16.
Ability to preserve and multiply moral, cultural, scientific values and
achievements of the society on the basis of understanding history and
development patterns in the subject area, its place in the general system of
knowledge about nature and society and in the development of the society,
technics and technologies, to use different types and forms of physical
activity for active rest and maintaining a healthy lifestyle |
Professional
competences of speciality (PC) |
PCS1. Ability to
ensure fire safety and proficiency in firefighting on board ships PCS2. Ability to
ensure safety and security of ship, crew and passengers and conditions for usage and
operation of life-saving appliances PCS3. Ability to
develop action plan in emergency situations and schemes of fighting for
ship’s survivability схем з боротьби as well as act
in compliance with this plan in case of emergency situations. PCS4. Ability to
administer first aid and capability to use first aid items on board ships, organize and
manage administering of first aid on board ship. PCS5. Ability to
monitor and control fulfillment of requirements of national and international
legislation in the sphere of navigation and activities of ensuring safety of
human life at sea,
safety
and protection of marine environment. PCS6. Ability to
ensure organization,
monitoring
and control of compliance with safety regulations, crew and ship
safety PCS7. Ability to
conduct training sessions on board ships PCS8. Ability to use
onboard communication systems |
Special
(professional) competences (SC) |
SC1. Ability to carry a safe running machine watch on the
ship SC2. Ability to operate, monitor, evaluate and safely
maintain the propulsion system without limiting its power and auxiliary
mechanisms and related control systems and to control the operation of the propulsion
machinery SC3. Ability to provide planning and preparation for the
operation of marine power equipment, taking into account the design
parameters of the power plant and the requirements of the flight SC4. Ability to identify, determine the causes and
troubleshoot of marine mechanical equipment, bring it into working order, and
identify and implement measures to prevent them SC5. Ability to manage the operation of fuel,
lubrication, ballast systems and other pumping systems and related control
systems SC6. Ability to operate electrical, electronic equipment
and control systems SC7. Ability
to perform maintenance and repair of electrical and electronic equipment, to
detect and eliminate faults and to put into operation electrical and
electronic control equipment SC8. Ability to use hand tools, machine tools and
measuring tools for the manufacture and repair of parts on board SC9. Ability to provide management of safe and efficient
maintenance and repair of ship mechanisms and systems SC10. Ability to monitor and maintain the vessel at sea SC11. Awareness of responsibility and ability to make
decisions in unforeseen and emergency situations related to the operation of
marine power equipment. SC12. Ability to solve complex unforeseen tasks and
problems of operation, maintenance and repair of ship equipment, systems and
structures SC13. Critical understanding of the basic theories,
principles, methods and concepts of modern marine engineering SC14. Ability to collect and interpret information, choose
methods and tools, apply innovative approaches to solve complex professional
problems in the field of marine engineering SC15. Ability
to substantiate one's own point of view and conclusions using basic theories
and concepts in the field of marine engineering SC16. Ability to analyze and predict the processes and
technical condition of ship structures and equipment in terms of incomplete
or limited information SC17. Ability to transmit and receive professional
information, ideas, problems and their solutions, as well as to transfer
their own experience in communicating with specialists and non-specialists in
the field of ship engineering |
7 – Study program
outcomes |
|
Successful
completion of program provides for acquisition by the person, who is awarded
the qualification,
of
knowledge,
understanding
and proficiency that are necessary for solving specialized professional tasks
on navigation and sea-going ships handling, management of
technical systems and complexes of sea-going vessels, operation of
ship electrical and automation equipment, in particular: TO1.Knowledge and understanding of basic theories,
principles, methods and concepts underlying thermohydrodynamic processes,
mechanical and electromechanical engineering TO2. Knowledge of the design of ship technical equipment
and systems, the principle of their operation and understanding of the
processes that take place in them TO3 Knowledge and understanding of the basics
of electrical engineering, electronics, power electronics, automatic control
systems and marine protective devices TO4. Conceptual
knowledge, including some knowledge of current advances in marine engineering
to ensure the reliability of marine equipment and safety at sea TO5. Knowledge of
English, which allows you to use English-language technical literature and
perform the duties of a ship's mechanic TO6. Knowledge of responsibilities
associated with receiving the watch, during the watch and with the transfer
of the watch. TO7. Ability to keep a
machine log and a log of oil operations TO8. Knowledge of safety procedures and
procedures in case of accidents, transition from remote / automatic to local
control of all systems TO9. Knowledge of
safety precautions to be observed during watchkeeping and immediate action to
be taken in the event of fire or accident, especially those related to fuel
and oil systems TO10. Knowledge of the
principles of resource management of the engine room and the ability to use
them in everyday and unpredictable conditions TO11. Knowledge of the
structure of intra-ship communication systems and the ability to transmit,
receive and record messages in accordance with the established requirements TO12. Knowledge of
safety rules and procedures in emergency situations when operating the main
power plant and control systems TO13. Knowledge of safe and
emergency procedures for operation of propulsion mechanisms and control
system TO14. Ability to start
and stop the main propulsion system and auxiliary mechanisms and related
systems TO15. Ability to assess
performance, monitor the condition of the main engine and maintain the safety
of the power plant and auxiliary mechanisms during operation TO16. Knowledge of the
functions and devices of automatic control of the main engine and auxiliary
mechanisms TO17. Knowledge of
propulsive characteristics of diesel, steam and gas turbines TO18. Knowledge of
material technology, physical and chemical properties of fuels and lubricants TO19. Knowledge of
modern methods of observation, description, identification, classification
and detection of ship equipment malfunctions TO20. Ability to detect
faults, eliminate them and prevent damage during operation of mechanisms TO21. Ability to check,
adjust ship equipment and perform metrological verification of basic
measuring instruments TO22. Knowledge of
operational characteristics and ability to provide operation and maintenance
of pumps, piping systems and control systems TO23. Ability to perform
fuel and ballast operations to ensure the safety of the ship and the marine
environment TO24. Knowledge of the
requirements for separators and other similar equipment, the ability to
operate it TO25. Knowledge of
design characteristics and system configuration of automatic control
equipment and protective devices for main engine, ship boiler, generator and
distribution system TO26. Knowledge of
design characteristics of high voltage installations, hydraulic and pneumatic
control devices and system configuration of operational control equipment for
electric motors TO27. Knowledge of safety
requirements for working with marine electrical systems TO28. Ability to perform
maintenance and repair of electrical equipment, switchboards, electric
motors, generators and electrical systems and DC equipment TO29. Ability to detect
faults in electrical circuits, identify faults and apply measures to prevent
damage TO30. Knowledge of the
design and principle of operation of electrical control and measuring
equipment and the ability to interpret electrical and simple electronic
circuits TO31. Ability to
troubleshoot electrical and electronic control equipment and surveillance
systems TO32. Ability to control
software versions and manage software TO33. Knowledge of the
characteristics, properties and limitations of materials and processes used
in the construction and repair of ships, equipment and ship systems and
components TO34. Knowledge and
understanding of emergency or temporary repair methods and safety measures
that must be taken to ensure safe working environment as well as to use hand
tools, machines and measuring instruments TO35. Ability to use
hand tools, machines and measuring devices and various insulating materials
and packaging TO36. Knowledge of
safety measures to be taken for repair and maintenance including safe
insulation of ship machinery and equipment, requirements for personnel
authorized to perform work with such machinery or equipment, in accordance
with the requirements of international instruments TO37. Maintenance and repair skills including disassembly, adjustment and
assembly of machinery and equipment TO38. Ability to use
appropriate specialized instruments and measuring devices; read diagrams of
pipelines, hydraulic and pneumatic systems, as well as drawings and manuals
relating to mechanisms TO39. Knowledge of
design features and materials used in the manufacture of ship equipment TO40. Knowledge of
national and international requirements and principles of safe marine
engineering practice TO41. Ability to plan
and manage safe and efficient maintenance and repair, in accordance with the
requirements of conventions and classification societies TO42. Knowledge and
skills to ensure the conduct of ship operations in compliance with safety
requirements in accordance with the requirements of national and
international law and the requirements for the prevention of marine pollution TO43. Knowledge of
precautions to be taken to prevent marine pollution, ability to take
pollution control measures and use appropriate equipment TO44. Knowledge and
understanding of the basic principles of ship structure, theories and factors
influencing landing and stability, as well as the measures necessary to
ensure safe draft and stability TO45. Knowledge and
understanding of the basics of watertightness and the impact of damage and
subsequent flooding of any compartment on the landing and stability of the
vessel as well as the measures necessary to ensure safe draft and stability TO46. Knowledge of the requirements
of the International Maritime Organization regarding the stability of the
vessel TO47. Knowledge of fire
types, the principle of operation of fire extinguishing systems, the ability
to extinguish fires with the use of appropriate equipment, including fires of
fuel systems; ability to organize firefighting training TO48. Skills to conduct
training sessions on leaving the ship and the ability to handle lifeboats,
life rafts and on-duty boats, devices and means for their launching, as well
as equipment for them TO49. Skills in the
practical application of medical guidelines and medical advice received by
radio, including the ability to take effective action based on such knowledge
in the event of accidents or illness typical of shipboard conditions TO50. Personal survival
skills, personal safety and knowledge of public duties on ships TO51. Knowledge of
international requirements for ship rescue equipment TO52. Ability to use
rescue equipment and devices, fire protection systems and other safety
systems and maintain them in working order TO53. Knowledge of
international and domestic regulations on the safety of human life at sea and
the protection of the marine environment and ensuring their compliance TO54. Knowledge of ship
personnel management methods and training; ability to manage tasks and
workload TO55. Knowledge of
methods of effective resource management, decision-making methods and the ability
to apply them |
|
8 – Resource provision for program implementation |
|
Staffing |
Scientific
and pedagogical workers who ensure the professional training program by
qualification, match profile and direction the disciplines
taught,
have
the necessary experience of pedagogical activities and practical work Highly
qualified experts in the maritime sphere – chief and
second engineers – are involved in
the academy educational process Reconciling
teaching activities of such experts at the academy and their work in fleet in
compliance with the contracts signed by ship owners or crewing companies is
practiced To improve their professional skills, all the
scientific and teaching staff undergo internships (in-service training) once
in five years, including
training abroad |
Maintenance and logistics support |
Maintenance
and logistics support fully ensures the educational process through the whole
cycle of training according to the training program The
condition of premises is testified by an inspection certificate on compliance
of premises with normative requirements A laboratory complex for training specialists, which
is competitive in the international labour market, has been set up at the
academy.
Availability
of the training complex and laboratories enables cadets to use the acquired
theoretical knowledge during their practice in real conditions, to have
possibility of learning some issues connected with professional training and
improve their practical skills in the chosen specialties that improves the
competitiveness of the cadets and graduates of Kherson State Maritime Academy
to a great extent The
training and laboratory base meet the requirements of the International
Maritime Organization (ІМО) and the International STCW Convention as amended. |
Informational, educational and methodological support |
Library
electronic resources, professional publications, electronic
training courses with the possibility of distance learning and independent
work |
2. List of components
of professional training program and their logical sequence
2.1. List of PT
components
Discipline code |
Components of training program (disciplines, course projects (works), practice,qualification paper) |
ECTS credits/ amount |
Form of summative control |
1 |
2 |
3 |
4 |
NORMATYIVE PART |
|||
1.1 General
training cycle |
|||
GT 1.1.1 |
Ukrainian Language |
4,0 |
Examination |
GT 1.1.2 |
History and Culture of Ukraine |
4,0 |
Examination |
GT 1.1.3 |
Philosophy |
4,0 |
Examination |
GT 1.1.4 |
Higher Mathematics |
10,0 |
Examination |
GT 1.1.5 |
Physics |
10,0 |
Examination |
GT
1.1.6 |
Materials Science and Technology of Materials |
4,0 |
Credit |
GT
1.1.7 |
Information
Technology |
4,0 |
Credit |
GT
1.1.8 |
Engineering Graphics |
4,0 |
Credit |
GT
1.1.9 |
Theoretical Mechanics |
4,0 |
Credit |
GT 1.1.10 |
Applied Mechanics |
4,0 |
Examination |
GT
1.1.11 |
Ecology and Environmental Protection |
3,0 |
Credit |
1.2 Professional training cycle |
|||
PT 1.2.1 |
Maritime
English |
17,0 |
Examination |
PT 1.2.2 |
Induction
Course |
3,0 |
Credit |
PT 1.2.3 |
Basic Safety
and Labour Protection on Board |
3,0 |
Credit |
PT 1.2.4 |
Safety of Life |
4,0 |
Credit |
PT 1.2.5 |
Theory and Structure
of Ship and Propellers |
3,0 |
Credit |
PT 1.2.6 |
Basics of Ship Power
Engineering |
3,0 |
Credit |
PT 1.2.7 |
Technical
Thermodynamics and Heat Transfer |
4,0 |
Credit |
PT 1.2.8 |
Hydromechanics and
Ship Hydraulic Drive System |
4,0 |
Credit |
PT 1.2.9 |
Electrical Engineering
and Electrical Equipment of Ships |
4,0 |
Credit |
PT 1.2.10 |
Conventions and
Regulations of International Maritime Organization |
3,0 |
Credit |
PT 1.2.11 |
Technical Chemistry
and Technology of Working Substances Use |
3,0 |
Credit |
PT 1.2.12 |
Ship Auxiliary Plants
and Systems |
6,0 |
Examination |
PT 1.2.13 |
Ship Boiler Plants |
4,0 |
Examination |
PT 1.2.14 |
Ship Internal
Combustion Engines |
7,0 |
Examination |
PT 1.2.15 |
Ship Turbine Plants |
3,0 |
Credit |
PT 1.2.16 |
Ship Refrigeration
Unit |
3,0 |
Credit |
PT 1.2.17 |
Ship Cargo and Deck
Machinery |
3,0 |
Credit |
PT 1.2.18 |
Maritime Law |
3,0 |
Credit |
PT 1.2.19 |
Safe Watchkeeping and
Engine Crew Management |
4,0 |
Credit |
PT 1.2.20 |
Automation of Ship Power Plants and Electronic Means of Control and
Communication |
4,0 |
Credit |
PT 1.2.21 |
Technical Use of Ship Technical Equipment |
4,0 |
Examination |
PT 1.2.22 |
Technical Maintenance and Repair of Ship Technical Equipment |
5,0 |
Examination |
PT 1.2.23 |
Induction
Practice |
7,0 |
Differential credit |
PT 1.2.24 |
Industrial
Practice |
23,0 |
Differential credit |
OPTIONAL PART |
|||
Unit 1. (two disciplines with general volume of 8 ECTS credits are
selected from the unit) |
|||
DFC.01 |
Discipline #1 from the catalog of disciplines of semester
4 |
4,0 |
Credit |
DFC.02 |
Discipline #2 from the catalog of
disciplines of semester 4 |
4,0 |
Credit |
Unit 2. (two disciplines with
general volume of 8 ECTS credits
are selected from the unit) |
|||
DFC.03 |
Discipline #1 from the catalog of disciplines of semester
6 |
4,0 |
Credit |
DFC.04 |
Discipline #1 from the catalog of disciplines of semester
6 |
4,0 |
Credit |
Unit 3. |
|||
DFC.05 |
DFC.05 |
DFC.05 |
DFC.05 |
DFC.06 |
DFC.06 |
DFC.06 |
DFC.06 |
Unit 4. (one discipline with
general volume of 3 ECTS credits is selected from the unit) |
|||
DFC.07 |
DFC.07 |
DFC.07 |
DFC.07 |
Unit 5. |
|||
DFC.08 |
DFC.08 |
DFC.08 DFC.09 |
DFC.08 DFC.09 |
DFC.09 |
DFC.09 |
||
1 |
1 |
1 |
1 |
Unit 6. |
|||
DFC.10 |
Shipboard practice |
30,0 |
Differential credit |
DFC.11 |
Industrial practice |
||
GENERAL VOLUME OF TRAINING PROGRAM |
240,0 |
|
2.2 Structural logical scheme
Discipline Code |
Components of training program (disciplines, course projects (works), practice,qualification paper) |
ECTS credits/ amount |
General Volume/ hours |
Form of summative control |
1 |
2 |
3 |
4 |
5 |
Year 1, semester 1 |
||||
GT
1.1.4 |
Higher Mathematics |
5,0 |
150 |
Credit |
GT
1.1.5 |
Physics |
5,0 |
150 |
Credit |
GT
1.1.6 |
Materials Science and Technology of Materials |
4,0 |
120 |
Credit |
GT
1.1.7 |
Information Technologies |
4,0 |
120 |
Credit |
GT
1.1.8 |
Engineering
Graphics |
4,0 |
120 |
Credit |
PT 1.2.1 |
Induction
Practice |
3,0 |
90 |
Differential credit |
PT 1.2.2 |
Induction
Course |
3,0 |
90 |
Credit |
Year 1, semester 2 |
||||
GT
1.1.4 |
Higher Mathematics |
5,0 |
150 |
Examination |
GT
1.1.5 |
Physics |
3,0 |
90 |
Examination |
GT
1.1.9 |
Theoretical
Mechanics |
4,0 |
120 |
Credit |
PT 1.2.1 |
Maritime English |
3,0 |
90 |
Differential credit |
PT 1.2.4 |
Safety of Life |
4,0 |
120 |
Credit |
PT 1.2.5 |
Theory
and Structure of Ship and Propellers |
3,0 |
90 |
Credit |
PT 1.2.23 |
Induction practice |
7,0 |
210 |
Differential credit |
Year 2, semester 3 |
||||
GT
1.1.10 |
Applied
Mechanics |
4,0 |
120 |
Examination |
GT
1.1.11 |
Ecology
and Environmental Protection |
3,0 |
90 |
Credit |
PT 1.2.1 |
Maritime English |
3,0 |
90 |
Differential credit |
PT 1.2.3 |
Basics
Safety and of Labour Protection on Board |
3,0 |
90 |
Credit |
PT 1.2.6 |
Basics
of Ship Power Engineering |
3,0 |
90 |
Credit |
PT 1.2.7 |
Technical
Thermodynamics and Heat Transfer |
4,0 |
120 |
Credit |
PT 1.2.8 |
Hydromechanics
and Ship Hydraulic Drive System |
4,0 |
120 |
Credit |
PT 1.2.9 |
Electrical
Engineering and Electrical Equipment of Ships |
4,0 |
120 |
Credit |
PT 1.2.10 |
Conventions
and Regulations of International Maritime Organization |
3,0 |
90 |
Credit |
Year 2, semester 4 |
||||
GT 1.1.1 |
Ukrainian Language |
4,0 |
120 |
Examination |
PT 1.2.1 |
Maritime English |
3,0 |
90 |
Differential credit |
PT 1.2.11 |
Technical Chemistry and
Technology of Working Substances Use |
3,0 |
90 |
Credit |
PT 1.2.12 |
Ship Auxiliary Plants
and Systems |
6,0 |
180 |
Examination |
PT 1.2.13 |
Ship Boiler Plants |
4,0 |
120 |
Examination |
PT 1.2.14 |
Ship Internal
Combustion Engines |
4,0 |
120 |
Credit |
DFC.01 |
Discipline #1 from the catalog of disciplines of semester
4 |
4,0 |
120 |
Credit |
DFC.02 |
Discipline #2 from the catalog of
disciplines of semester 4 |
4,0 |
120 |
Credit |
Year 3, semester 5 |
||||
PT 1.2.24 |
Industrial practice |
23,0 |
690 |
Differential credit |
Year 3, semester 6 |
||||
GT 1.1.2 |
History and Culture of Ukraine |
4,0 |
120 |
Examination |
GT 1.1.3 |
Philosophy |
4,0 |
120 |
Examination |
PT 1.2.1 |
Maritime
English |
3,0 |
90 |
Differential credit |
PT 1.2.14 |
Ship Internal
Combustion Engines |
3,0 |
90 |
Examination |
PT 1.2.15 |
Ship Turbine Plants |
3,0 |
90 |
Credit |
PT 1.2.18 |
Maritime Law |
3,0 |
90 |
Credit |
PT 1.2.19 |
Safe Watchkeeping and
Engine Crew Management |
4,0 |
120 |
Credit |
DFC.03 |
Discipline #1 from the catalog of disciplines of semester
6 |
4,0 |
120 |
Credit |
DFC.04 |
Discipline #2 from the catalog of
disciplines of semester 6 |
4,0 |
120 |
Credit |
DFC.09 |
Laboratory workshop "Global Maritime
Distress and Safety System" |
3,0 |
90 |
Credit |
DFC.09 |
Laboratory workshop "High Voltage Ship Equipment" |
|||
Year 4, semester 7 |
||||
DFC.10 |
Shipboard
practice |
30,0 |
900 |
Differential credit |
DFC.11 |
Industrial practice |
|||
Year 4, semester 8 |
||||
PT 1.2.1 |
Maritime
English |
2,0 |
60 |
Examination |
PT 1.2.16 |
Ship Refrigeration Unit |
3,0 |
90 |
Credit |
PT 1.2.17 |
Ship Cargo and Deck
Machinery |
3,0 |
90 |
Credit |
PT 1.2.20 |
Automation of Ship
Power Plants and Electronic Means of Control and Communication |
4,0 |
120 |
Credit |
PT 1.2.21 |
Technical Use of Ship
Technical Equipment |
4,0 |
120 |
Examination |
PT 1.2.22 |
Technical
Maintenance and Repair of Ship Technical Equipment |
5,0 |
150 |
Examination |
DFC.05 |
Discipline #1 from catalog #1 of disciplines of semester 8 |
4,0 |
120 |
Credit |
DFC.06 |
Discipline #2 from catalog #1 of disciplines of semester 8 |
4,0 |
120 |
Credit |
DFC.07 |
Discipline #2 from the catalog of disciplines of semester 8 |
3,0 |
90 |
Credit |
Загальний
обсяг: |
240 |
7200 |
|
3. Form of
higher education applicants’ certification
Certification of
higher education applicants |
-
qualification examination in specialization 271.02 “Management of Ship technical systems
and complexes” |
4. Compliance
matrix of program competences and components
Training program outcomes |
Competences |
Discipline code |
||||||||||||||||||||||||||||||||||||||||
General
competences |
General
professional competences |
Special (professional)
competences |
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GC1 |
GC2 |
GC3 |
GC4 |
GC5 |
GC6 |
GC7 |
GC8 |
GC9 |
GC10 |
GC11 |
GC12 |
GC13 |
GC14 |
GC15 |
GC16 |
GPC1 |
GPC2 |
GPC3 |
GPC4 |
GPC5 |
GPC6 |
GPC7 |
GPC8 |
SC1 |
SC2 |
SC3 |
SC4 |
SC5 |
SC6 |
SC7 |
SC8 |
SC9 |
SC10 |
SC11 |
SC12 |
SC13 |
SC14 |
SC15 |
SC16 |
SC17 |
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TO1 |
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GT 1.1.4 GT 1.1.5 GT 1.1.9 GT 1.1.10 PT 1.2.2 PT 1.2.6 PT 1.2.7 PT 1.2.8 PT 1.2.9 |
TO2 |
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PT 1.2.5 PT 1.2.6 PT 1.2.9 PT 1.2.11 PT 1.2.12 PT 1.2.13 PT 1.2.14 PT 1.2.15 PT 1.2.16 PT 1.2.17 PT 1.2.20 PT 1.2.21 PT 1.2.22 |
TO3 |
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GT 1.1.5 PT 1.2.9 PT 1.2.20 |
TO4 |
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PT 1.2.2 PT 1.2.5 PT 1.2.6 PT 1.2.19 PT 1.2.21 PT 1.2.22 |
TO5 |
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PT 1.2.1 |
TO6 |
+ |
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PT 1.2.19 PT 1.2.21 |
TO7 |
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PT 1.2.19 PT 1.2.21 |
TO8 |
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PT 1.2.19 PT 1.2.20 PT 1.2.21 |
TO9 |
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PT 1.2.3 PT 1.2.4 PT 1.2.19 PT 1.2.21 |
TO10 |
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PT 1.2.19 PT 1.2.21 |
TO11 |
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PT 1.2.19 PT 1.2.21 |
TO12 |
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PT 1.2.14 PT 1.2.19 PT 1.2.20 PT 1.2.21 |
TO13 |
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+ |
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PT 1.2.14 PT 1.2.19 PT 1.2.20 PT 1.2.21 |
TO14 |
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PT 1.2.12 PT 1.2.13 PT 1.2.14 PT 1.2.15 PT 1.2.16 PT 1.2.17 PT 1.2.19 PT 1.2.20 PT 1.2.21 |
TO15 |
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PT 1.2.14 PT 1.2.19 DFC.08 |
TO16 |
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PT 1.2.12 PT 1.2.13 PT 1.2.14 PT 1.2.15 PT 1.2.16 PT 1.2.17 PT 1.2.19 PT 1.2.20 PT 1.2.21 |
TO17 |
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PT 1.2.2 PT 1.2.6 PT 1.2.14 PT 1.2.15 PT 1.2.21 |
TO18 |
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+ |
+ |
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