2014
DOI: 10.1016/j.oceaneng.2014.03.019
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Physical modelling of wave energy converters

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Cited by 78 publications
(44 citation statements)
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“…Regarding the full scale device, there may be air compressibility problems. Due to the nonlinearity and the nonFroude similarity nature (see Weber 9 and Sheng et al 10 ), the air compressibility in the air chamber may not be evident or present in the small scaled models because the scaled models have normally small scaled air volumes and pressures in the air chamber. Sarmento et al 11 have proposed a linearized formula for the flowrate through the power take-off system, based on an assumption of an isentropic flow.…”
mentioning
confidence: 99%
“…Regarding the full scale device, there may be air compressibility problems. Due to the nonlinearity and the nonFroude similarity nature (see Weber 9 and Sheng et al 10 ), the air compressibility in the air chamber may not be evident or present in the small scaled models because the scaled models have normally small scaled air volumes and pressures in the air chamber. Sarmento et al 11 have proposed a linearized formula for the flowrate through the power take-off system, based on an assumption of an isentropic flow.…”
mentioning
confidence: 99%
“…The importance of studying air compressibility using numerical modelling is because air compressibility is not scalable using the conventional Froude similarity, as shown by Weber, 31 Sheng et al, 32 and Falcao and Henriques. 33 For modelling air compressibility, the volume of the air chamber must be scaled using the square of the scale ratio, rather than that of the cube of the scale ratio as required by the Froude similarity.…”
Section: Introductionmentioning
confidence: 99%
“…However, in a model scale, the volume of and the chamber pressure in the air chamber are both scaled down, and they both may be too small, so that the air compressibility is not correctly scaled in the model test of the OWC wave energy converters, especially when the small test models at the early development stages of the wave energy conversion are used, because as shown by Weber 2 and Sheng et al, 3 the air compressibility is not fully scalable according to the conventional Froude similitude. To approximately represent the air compressibility in the model scale, the air chamber must be designed to be much larger than that from the Froude similarity, and Weber 2 suggested that the length of the air chamber must kept same regardless of the scale ratio used in the model test.…”
Section: Introductionmentioning
confidence: 99%
“…To approximately represent the air compressibility in the model scale, the air chamber must be designed to be much larger than that from the Froude similarity, and Weber 2 suggested that the length of the air chamber must kept same regardless of the scale ratio used in the model test. Sheng et al 3 pointed out that keeping the same air chamber height is one of many choices, and different approaches can be attainable if an appropriate air chamber volume is produced. Nonetheless, this has highlighted the difficulties in representing the air compressibility in the model test.…”
Section: Introductionmentioning
confidence: 99%