Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 18, Part 6American Society of Mechanical Engineers, 1999 - Arctic regions |
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Page 156
... resonant and exhaust duct lengths respectively , the spring on the left to the gravity restoring force in the resonant duct and that between the two masses , to the air compression chamber . The pistons in Fig . 2 represent the non ...
... resonant and exhaust duct lengths respectively , the spring on the left to the gravity restoring force in the resonant duct and that between the two masses , to the air compression chamber . The pistons in Fig . 2 represent the non ...
Page 157
... resonant duct sill heights ( above the equilibrium water level in the compression chamber ) . Flow is scaled with Qwave ( = A , a / T ) , the volume of water in a section of resonant duct one wave amplitude long , per wave period . The ...
... resonant duct sill heights ( above the equilibrium water level in the compression chamber ) . Flow is scaled with Qwave ( = A , a / T ) , the volume of water in a section of resonant duct one wave amplitude long , per wave period . The ...
Page 159
... resonant duct length L ,. It is apparent from Fig . 7.a. that , apart from increasing at shorter resonant duct lengths as already noted in the previous paragraph , Qmax also increases for augmenting wave periods for all duct lengths ...
... resonant duct length L ,. It is apparent from Fig . 7.a. that , apart from increasing at shorter resonant duct lengths as already noted in the previous paragraph , Qmax also increases for augmenting wave periods for all duct lengths ...
Contents
VERY LARGE FLOATING STRUCTURE | 1 |
OMAE99OSU3057 | 9 |
OMAE99OSU3058 | 17 |
Copyright | |
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1st-order 2nd-order acoustic amplitude anchor angle Arctic Engineering ASME blade buoy buoyant body cable element cage bottom calculated component compression chamber Copyright deflection diameter distribution Drain Pipeline dynamic equation estimate Figure fish cage flow coefficient fluid function Gauge Number gravity-type grid heave horizontal hydrodynamic hydrodynamic pressure hydroelastic response incident wave irregular waves Japan large floating structures length lift force linear loading located mass mean wave measured Mechanics and Arctic MEGA-FLOAT meters method modal coordinate mode shape mooring force mooring lines mooring system navigation node obtained Ocean Engineering Offshore Mechanics pump Qmax radar RAO(Heave/Wave amp resonant duct response amplitude operators robot semisubmersible sensor shoreline shown in Fig significant wave height simulation spectra spectrum surface Tension Leg tether Theseus towed transponder U-Pipe Bundle unit deck vector vehicle velocity vertical displacement VLFS WaMOS wave conditions wave period wave power wind