The prediction of wave impact loads on prototype caisson breakwaters from the results of
physical model tests is considered, with particular attention given to the effects of air,
breaker shape, structural response and scale. A review of related literature is presented
from which it is concluded that the different aspects of the problem may be related through
the force impulse. Large scale soliton impacts are used to show the importance of
entrapped air in determining the form of the load time history. Small scale waves with
artificially high levels of entrained air and highly controlled drop impacts are used to show
and quantify an inverse relationship between entrained air and impact load maxima.
Specially developed aeration probes and analysis techniques are used to show the influence
of entrapped air on pressure maxima and quantify entrained air levels in small scale fresh
water breaking waves. A definition of the force impulse is proposed and used to investigate
its variation with breaker shape. The impulse magnitude is shown to be relatively invariant
for regular wave impacts compared to a large scatter in impulse form. A numerical model
of caisson dynamics is used to predict structural motion and to calculate a series of
dynamic amplification factors. The prediction of structural response to obtain effective
static loads through the use of these factors is investigated and achieved through the
adoption of an 'equivalent impulse' concept. The scatter in impulse form is found to cause
large variations in effective static loads between nominally identical impact events. The
equivalent impulse concept is used to solve this problem. A comparison is made between
the form and magnitude of the force impulses of the small and large scale waves. The
results indicate that the impulse magnitude may be relatively free of scale effects. An
example is given in which the results of a small scale test are interpreted, scaled and
processed to account for the effects of entrained air and structural response in order to
predict large scale effective static loads. These are shown to compare well with predictions
made using measured large scale force time histories and the numerical caisson model.
Date of Award | 1999 |
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Original language | English |
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Awarding Institution | |
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Model wave impulse loads on caisson breakwater aeration, scale and structural response
Walkden, M. J. A. (Author). 1999
Student thesis: PhD