Двигуни внутрішнього згоряння, установки та технічна експлуатація Internal Combustion Engines, Plants and Technical Maintenance Department
MODERN SEPARATION TECHNOLOGIES IN SHIPBOARD POWER SYSTEMS
Type: selective
Lecturer: Yurii Moshentsev
Year of preparation: 4th
Semester: 7th
Number of credits: 5
Number of modules: 1
Number of content modules: 4
Total number of hours: 150
Type of control: test
Work programme 2024
Hours distribution
General information
Acquired competences
● Acquiring theoretical knowledge and practical skills to improve turbochargers through more careful selection of initial parameters in the calculation and design of flow parts of these machines.
Learning outcomes
● Know the regulated parameters for the purification of fuels and oils;● know the types and designs of modern separators;● the ability to determine the parameters of fuels and oils supplied for use in the EA;● the ability to apply methods and means of adjusting separators for high-quality purification of fuels and oils;● ability to design modern separators for purification of fuels and oils to regulated parameters.
Programme of the academic discipline
Module 1.
Content module 1: Types and types of modern separators
Topic 1: General information about separation and separators. Basic concepts and definitions of separators and separating liquids. Separation of fuels and oils is the basis for increasing the service life of equipment and eliminating emergencies.
Topic 2. Companies and organisations that manufacture separators and the main parameters of separators. List and brief description of separator manufacturers and their products.
Topic 3. Basic design of different types of separators. General principles of separator design and operation. Similarities in designs and existing differences in separators of different companies. Reasons for the highlighted features.
Content module 2: Purification of fuels and oils in modern separators.
Topic 4. Parameters of fuels and oils purification. Values of oils and fuels parameters and regulated parameters of their contamination.
Topic 5. Adjusting separators to different parameters. The need to adjust the separators depending on the value of the parameters of fuels and oils before and after cleaning.
Topic 6. Ways to set up and adjust separators. What and how to adjust their parameters.
Content module 3: Calculations of separators and their automation.
Topic 7. Calculations of separators. Calculation of separator parameters depending on the main parameters of the flow of liquids entering and leaving the separator.
Topic 8. Automation of separators. Automatic systems of different companies. Features of the systems. Features of working with different systems.
Content module 4. Legal regulations for the receipt and use of fuels and oils.
Topic 9. Settling of fuels and oils - another means of improving the quality of liquids. Settling tanks. Settling parameters. Settling processes of fuels and oils.
Topic 10. Legal regulations for the receipt and use of fuels and oils in modern power plants. Documents that must be available when receiving and using fuels and oils.
Topics of practical classes
● General information about separators and separation
List and brief description of separator manufacturers
● Basic design of different types of separators
● Basic design of different types of separators
Purification parameters for fuels and oils
● Fuel and oil purification parameters
● Setting the separators to different parameters
● What and how to adjust separator parameters
Calculating the separators
● Separator calculations
● Automation of separator operation
Settling of fuels and oils
● Legal regulations for obtaining and using fuels and oils
Forms of current and final control
The achievements of the applicant are assessed according to the 100-point system of the University.
Recommended sources of information
Main literature
1. Kharin V.M. Shipboard fuel and oil separators: a textbook / V.M. Kharin, N.N. Kobyakov, E.V. Kornilov - OGMA, 2001. - 101 p.
2. Tarleton, E. S. Solid-Liquid Separation: Equipment Selection and Process / E. S. Tarleton, R. J. Wakeman. - Oxford: Butterworth-Heinemann, 2007. - 465 p.
3. Svarovsky, L. Solid-Liquid Separation / L. Svarovsky. - Oxford: Butterworth Heinemann, 2000. - 569 p.
4. Hsu, C.-Y. Particles Separation and Tracks in a Hydrocyclone / C.-Y. Hsu, S.-J. Wu, R.-M. Wu // Tamkang Journal of Science and Engineering. - 2011. - Vol. 14, No. l. - pp. 65-70.
Supporting literature
1. Veritas Petroleum Services, Shell's global bunker fuel supply to shipping and fuel data. London, b.g. - 50 p.
Information resources on the Internet
1. Scientific and technical journal ‘Internal Combustion Engines’. National Technical University ‘Kharkiv Polytechnic Institute’. Access mode: http://web.kpi.kharkov.ua/dvs/golovna.
2. Scientific Library of the Admiral Makarov National University of Shipbuilding. Access mode: http://lib.nuos.edu.ua.
3. Kharkiv State Scientific Library named after V. G. Korolenko. Access mode: http://korolenko.kharkov.com.
4. NUK repository: https://eir.nuos.edu.ua/home
5. Society of Automotive Engineers (SAE): http://www.sae.org
6. Winterthur Gas & Diesel Ltd. (WinGD) www.wingd.com
7. Wärtsilä https://www.wartsila.com
8. MAN Energy Solutions https://www.man-es.com
9. Caterpillar website https://www.caterpillar.com
10. Mitsubishi website: https://www.mhi.com
11. Website of Akasaka Diesels Ltd: http://www.akasaka-diesel.jp/en/
12. Daihatsu Diesel website: https://www.dhtd.co.jp/en/
13. Hyundai website: http://www.hyundai-engine.com/en/