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Circular Frequency - Ocean Energy Conversion - Old Exam Paper, Exams of Materials science

English and Foreign Languages UniversityMaterials science

Main points of this past exam are: Circular Frequency, Velocity Potential, Laplace Equation, Generated Regular Deep Water, Maximum Fluid Velocities, Phase and Group Velocities, Metacentric Diagram, Centre of Gravity, Residual Force

Typology: Exams

2012/2013

Uploaded on 03/27/2013

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CORK INSTITUTE OF TECHNOLOGY
INSTITIÚID TEICNEOLAÍOCHTA CHORCAÍ
Semester 1 Examinations 2012/13
Module Title: Ocean Energy Conversion
Module Code: MECH 8015
School: Mechanical, Electrical and Process Engineering
Programme Title: Bachelor of Science (Honours) in Sustainable Energy Technology
Certificate in Energy & Environmental Engineering
MEng in Civil Engineering (Environment & Energy)
Programme Code: ESENT_8_Y4
EENEN_8_Y1
CENEN_9_Y5
External Examiner(s): Mr Paul Kenny, Mr Conor Buckley
Mr P.J. Rudden, Prof. Padraic O’Donoghue
Internal Examiner(s): Mr Dermot O’Reilly
Instructions: Answer THREE questions out of FOUR.
Duration: 2 Hours
Sitting: Winter 2012
Requirements for this examination:
Note to Candidates: Please check the Programme Title and the Module Title to ensure that you have received the
correct examination paper.
If in doubt please contact an Invigilator.
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CORK INSTITUTE OF TECHNOLOGY

INSTITIÚID TEICNEOLAÍOCHTA CHORCAÍ

Semester 1 Examinations 2012/

Module Title: Ocean Energy Conversion

Module Code: MECH 8015

School: Mechanical, Electrical and Process Engineering

Programme Title: Bachelor of Science (Honours) in Sustainable Energy Technology

Certificate in Energy & Environmental Engineering

MEng in Civil Engineering (Environment & Energy)

Programme Code: ESENT_8_Y

EENEN_8_Y

CENEN_9_Y

External Examiner(s): Mr Paul Kenny, Mr Conor Buckley

Mr P.J. Rudden, Prof. Padraic O’Donoghue

Internal Examiner(s): Mr Dermot O’Reilly

Instructions: Answer THREE questions out of FOUR.

Duration: 2 Hours

Sitting: Winter 2012

Requirements for this examination:

Note to Candidates: Please check the Programme Title and the Module Title to ensure that you have received the

correct examination paper.

If in doubt please contact an Invigilator.

Q1. (a) The 2-D velocity potential of a wave is given by:

  A cosh  k h   z  cos  ky  cos  t 

Where the y axis is in the still water plane and the z axis is vertically upward

Show that this velocity potential satisfies the Laplace equation (8)

(b) A tank 120 m long has a wave maker at one end that generates long-crested regular

waves. A generated regular deep water wave is generated with amplitude z= 0.18 m and

wave period T = 1.6 s. The velocity potential of the wave is given by:

sin 

a kz w

g

e kx t

Determine:

(i) The circular frequency w, the wave number k , and the wavelength l.

(ii) The maximum fluid velocities umax and wmax in the x and z directions in the

fluid in the tank. (5)

(iii) The path of a fluid particle 0.4 m below the still water level. (2)

(iv) The phase and group velocities c and cg of the waves. (2)

Q2. (a) A box barge has a length of 60 m, a breadth of 15 m and a depth of 4 m.

Draw a metacentric diagram for the barge for a draft range of 0.0 m to 4.2 m at 0.6 m

intervals. (6)

(b) The barge in (a) floats at a draught of 3.25 m in water of density 1025 kg/m

3

. A mass

of 20 t on board is moved transversely across the deck through a distance of 12 m. The

movement of the mass results in an angle of heel of 7.

0 .

Determine the height of the centre of gravity of the barge above the keel. (6)

(c) A centreline double bottom tank in the barge in (a) is 40 m long and 12 m wide. This

tank is partially filled to a depth of 1.0 m with water of density 1025 kg/m

3 .

Determine the new GM. (8)

Formulae

1 cos(^ ) cos

1

o a c

o

w h

F

o cos(^ o )

c

F

G

w

 

cosh cos( )

o o

X G

 ^ 

cosh o a c

F

X G h G w

 ^ 

sinh sinh o a c

X X

l G G G