Influences on water-hammer wave shape: an experimental study

“…The experimental results [42] indicate some double peaks, which are not predicted by any of the friction models. This is believed to be caused by harmonics of the experimental setup.…”

“…The experimental study conducted by Traudt et al [42] consist of a 7.7 m stainless steel pipe (grade 1.4541) with a diameter of 19 mm and a wall thickness of 1.5 mm. Young's modulus is set to 200 GPa, the pipe roughness to ε = 2 × 10 −6 m, and Poisson's ratio to ν = 0.28.…”

“…This is believed to be caused by harmonics of the experimental setup. As such Traudt et al [42] report that the second harmonic frequency of the experimental setup of 132 Hz is interfering with the frequency of the water hammer which is 43 Hz. Since none of the models accurately describe the experimental data, a sensitivity analysis on the parameters, Young's modulus, Poisson's ratio and the temperature of the water were conducted to see, whether this could explain the difference.…”

“…From Table 2, it can be seen that the CB based models gives the best prediction of the experimental results. Comparison of the experimental data (experiment 1 [42]) with the simulated results for each friction model. Note that the steady and quasi-steady friction models gave similar results and all the Convolution Based models (CB) friction models also gave similar results.…”

“…Comparison of model and experimental results for experiment 1 conducted by[42]. The calculations were conducted on a laptop with an Intel…”

Implementation and Validation of a Free Open Source 1D Water Hammer Code

“…The experimental results [42] indicate some double peaks, which are not predicted by any of the friction models. This is believed to be caused by harmonics of the experimental setup.…”

“…The experimental study conducted by Traudt et al [42] consist of a 7.7 m stainless steel pipe (grade 1.4541) with a diameter of 19 mm and a wall thickness of 1.5 mm. Young's modulus is set to 200 GPa, the pipe roughness to ε = 2 × 10 −6 m, and Poisson's ratio to ν = 0.28.…”

“…This is believed to be caused by harmonics of the experimental setup. As such Traudt et al [42] report that the second harmonic frequency of the experimental setup of 132 Hz is interfering with the frequency of the water hammer which is 43 Hz. Since none of the models accurately describe the experimental data, a sensitivity analysis on the parameters, Young's modulus, Poisson's ratio and the temperature of the water were conducted to see, whether this could explain the difference.…”

“…From Table 2, it can be seen that the CB based models gives the best prediction of the experimental results. Comparison of the experimental data (experiment 1 [42]) with the simulated results for each friction model. Note that the steady and quasi-steady friction models gave similar results and all the Convolution Based models (CB) friction models also gave similar results.…”

“…Comparison of model and experimental results for experiment 1 conducted by[42]. The calculations were conducted on a laptop with an Intel…”

Implementation and Validation of a Free Open Source 1D Water Hammer Code

Comparison of water and cryogenic fluid hammer experiments for rocket engine feed line systems

Combustion dynamics in cryogenic rocket engines: Research programme at DLR Lampoldshausen