Undergraduate Courses

 

Description

The course aims to provide students with the basic knowledge of Marine Hydraulics and Design of Harbour Works.

Material

• Introduction to marine hydraulics
• Waves: generation of wind waves, measurements in nature, mathematical and real waves
• Wave theories of infinite and finite height
• Analysis of wave records: description parameters, wave height distributions
• Bottom effects: cross-sectional deformations, fracture, refraction
• Front effects: reflection, diffraction
• Standing and breaking wave pressures on a vertical front
• Role and types of ports
• Design dimensions of port projects. The ship. General layout of port works. Channels, port entrance, maneuvering surface. Newcomers, piers
• External harbour works: types-operation
• Calculation of breakwaters with slopes
• Vertical front works: calculation in standing or breaking waves
• Gravity wall calculation
• Platform equipment
• Landside organization of general cargo port station
• Sheds and other facilities

Literature – Notes

• Teaching material-notes on Marine Hydraulics (by K.I. Moutzouris) distributed by the secretariat of the School of Civil Engineering
• Book entitled Courses on Harbour Works (by K. Memos) distributed by Symmetria bookstore

Link

http://mycourses.ntua.gr/course_description/index.php?cidReq=CIVIL1026

 

Description

The course aims to provide students with the basic principles of coastal engineering and design of coastal projects.

Material

• Investigation of coastal engineering impacts from engineering projects
• Protection of coasts from erosion
• Management and improvement of coastal zones
• Placement of maritime operations in a large-scale coastal zone
• Research on physical simulation of shore response in the construction of coastal engineering projects
• Research in physical simulation of shore response in the construction of coastal projects (shoreline evolution study)

Link

http://mycourses.ntua.gr/course_description/index.php?cidReq=CIVIL1120

 

Description

The course aims to provide students with specialized knowledge about port design and operation. Particular emphasis is placed on the organization of the land-port area and on the modern methods of port design.

Material

• Port operation: Design period
• Port basin : wind wave disturbance calculation, project overrun, downtime, long oscillations
• Probabilistic calculation of harbour works : stochastic wave analysis, failure mechanisms, some safety factors
• Platforms from flexible diaphragms: Types of diaphragms, piling calculation, superstructure and anchorages
• Open-type retaining walls on piles: hydrodynamic loads, construction coordination
• Ramps: geometric features, protection against undermining
• Bumpers and superstructure components: Types, function
• Technical aspects of port works construction: Dredging
• Container Terminal: Design Principles, Cargo Handling, Stowage Areas, Parable Places, Mechanical Equipment, Operation

Literature – Notes

1. Memos, Introduction to Harbour Works, Symmetria Publications, 2008 (Ch. 3, 5, 6, 7)
2. Memos, Port Systems, 2nd Ed. NTUA, 2000

Students’ evaluation

A modular subject with individualized roles is given during the semester, which is delivered and graded. At the same time, a presentation of the topic is made by the students, which is also evaluated. Cumulatively, the subject covers 50% of the final grade. The written exam covers the remaining 50%.

Link

http://mycourses.ntua.gr/course_description/index.php?cidReq=CIVIL1027

 

Description

The course aims to investigate the phenomenon of hydrodynamics of structures and the problem of the interaction between waves and solid bodies.

Material

• Interaction between waves and solid bodies. Hydrodynamically thin structures – large volume structures. Introduction to Numerical Integration – Application Examples.
• Simple harmonic wave actions on hydrodynamically thin structures away from solid boundaries.
• Vertical elements intersecting the free surface, elements with random position and orientation, groups of elements. Fixed cruises.
• Hydrostatic stability. Failure definition of flotation devices. Hydrostatic adequacy check.
• Chain curve. Anchor branches of floating devices.
• Mechanical adequacy check of anchor branches.
• Functional failure control of flotation devices.
• Fine cylindrical elements in the region of the solid boundary.
• Subsea pipelines – characteristic cross-sections in the coastal zone and offshore.
• Failure mechanisms. Calculation of actions from wave and current superposition – Proficiency checks.

Link

http://mycourses.ntua.gr/course_description/index.php?cidReq=CIVIL1211