Download Syllabus - Introduction to Marine Hydrodynamics | NAVARCH 520 and more Lecture notes Engineering in PDF only on Docsity! UNIVERSITY OF MICHIGAN Department of Naval Architecture & Marine Engineering NA 520: Wave Loads on Ships and Offshore Structures Fall 2015 Course Objectives: Introduce the physics that govern the hydrodynamic response of marine vessels and offshore structures. Develop the ability to formulate and solve marine/naval hydrodynamics problems, with focus on wave loads on ships and offshore structure. Required Text: J.N. Newman (1977). Marine Hydrodynamics, ISBN: 0-0-262-14026-8 Recommended Text: R.G. Dean & R.A. Dalrymple (2004). Water Wave Mechanics for Engineers & Scientists (Advanced Series on Ocean Engineering-Vol2) (v. 2), ISBN-13: 978-9810204211 O. Faltinsen (1993). Sea Loads on Ships and Offshore Structures (Cambridge Ocean Technology Series), ISBN-13: 978-0521458702 Instructors: Yin Lu (Julie) Young, Professor NAME 208, 734-647-0249, ylyoung@umich.edu Lectures: Tue & Thu: 2:30PM – 4:30PM, NAME 138 Office Hours: Tue 4:30PM – 5:30 PM Thu 1:30PM – 2:30 PM NAME 208 (Young) Grading: Homework Midterm Final Quiz Final Project Final Presentation 30% 25% 10% 30% 5% UNIVERSITY OF MICHIGAN Department of Naval Architecture & Marine Engineering NA 520: Wave Loads on Ships and Offshore Structures Fall 2015 Date Class Description Reading 09/08 Tue 1 Introduction Model testing: drag forces on a sphere; viscous drag on a flat plate and general bodies; drag on a ship hull 1 2.1-2.6 09/10 Thu 2 Model testing: hydrofoil lift & drag; water waves; wave force on a stationary body & body motion in waves 2.7, 2.9, 2.13-2.14 09/15 Tue 3 Viscous Fluid: conservation of mass & momentum, constitutive relation; boundary & body forces 3.1-3.9 09/17 Thu 4 Viscous Fluid: sample problems using a control volume approach 09/22 Tue 5 Viscous Fluid: sample problems using field-equation approach 3.10-3.12 09/24 Thu 6 Viscous Fluid: unsteady motion of a flat plate, laminar boundary layers 3.13-3.16 09/29 Tue 7 Viscous Fluid: turbulent flow, turbulent boundary layers 3.17-3.21 10/01 Thu 8 Ideal Fluid: irrotational flow, velocity potential, Bernoulli’s equations, boundary conditions, simple potential flows 4.1-4.5 10/06 Tue 9 Ideal Fluid: fixed bodies & moving bodies; Green’s theorem & distribution of singularities; hydrodynamic pressure forces 4.10-4.12 10/08 Thu 10 Ideal Fluid: forces on a moving body in an unbounded fluid; scaling 4.13; 2.11-2.12 10/13 Tue 11 Ideal Fluid: added mass 4.14-4.15 10/15 Thu 12 Ideal Fluid: the body-mass force, force on a body in non-uniform stream (Project Proposal Due at 11:55pm) 4.16-4.17 FALL STUDY BREAK (10/19-10/20) 10/22 Thu 13 Ideal fluid: the method of images; sample problems 4.18