ING2049 Underwater Technology and Hydraulic Systems
Course description for academic year 2023/2024
Contents and structure
The influence of subsea environment on technical systems, Subsea production, remotely operated vehicle (ROV/AUV), Diving, Surface vessels for subsea operations, Hydrodynamic calculations, analysis of safety and reliability.
Hydraulic systems/circuits, hydraulic fluids, oil quality/oil analysis, fluid mechanics, pumps and motors, control valves, tanks, filters, coolers, couplings and pipes, noise and noise reduction in hydraulic installations.
Learning Outcome
-Knowledge:
The students
- can explain the challenges the subsea environment represents for constructions and equipment which is used subsea;
- have basic knowledge of typical field development where subsea production systems are extensively used;
- have knowledge of subsea production systems, including drilling and completion of wells, equipment and maintenance-/intervention methods;
- can explain methods for subsea operations, including the use of remotely operated and programable vehicles (ROV/AUV), diving and relevant surface vessels;
- have knowledge of reliability and risk analysis methods and apply them on equipment and operations;
- have basic knowledge of components and control equipment used in hydraulic systems and know how to integrate them in functional systems;
- can explain the sources and consequences of contaminants in the oil, and how this can be prevented;
- have knowledge of regulation of pump capacity in hydraulic systems;
- can explain the sources of noise and methods for noise attenuation in the hydraulic system.
-Skills:
The students are able to
- design mechanical equipment for subsea applications;
- perform hydrodynamical calculations for subsea lifting- and ROV-operations;
- prepare operation procedures related to installation and maintenance/intervention;
- design basic hydraulic systems based on standard components;
- evaluate the technical characteristics of the hydraulic components in the system.
-General qualifications:
- are able to keep themselves updated in a subject of rapid development;
- can apply standards and guidelines related to general engineering work.
Entry requirements
None.
Recommended previous knowledge
Fundamentals of fluid mechanics.
Teaching methods
Lectures, mandatory laboratory exercises, calculation practice and industry excursion. Develop a project portfolio.
Compulsory learning activities
Participation on lab-exersise on Hydraulics.
Assessment
Part 1: Written exam, 5 hours, accounts for 70 % of the final grade.
Part 2: Portfolio, accounts for 30 % of the final grade.
Both parts must be passed.
Grade: A-E/passed; F/failed
Examination support material
Written exam:
Simple calculator: Allowed calculator is Casio fx-82 (all varieties: ES, ES Plus, EX, Solar etc.)
Table of formulas will be handed out during the exam.
Portfolio:
All aids are allowed.
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- PR080 - Undervannsteknologi - Reduction: 5 studypoints
- ING3026 - Undervassteknologi - Reduction: 5 studypoints
- ING3018 - Oljehydraulikk - Reduction: 5 studypoints
- INGB058 - Oljehydraulikk og pneumatikk - Reduction: 5 studypoints
- PR047 - Oljehydraulikk og pneumatikk - Reduction: 5 studypoints
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- MAS302 - Hydraulikk - Reduction: 5 studypoints
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