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A condensation induced water hammer is a severe effect that has caused damages and even fatalities worldwide. This effect is not limited to the nuclear industry only. Generally it can occur in every pipe that contains water and steam (two-phaseflow). To date many experiments were executed to study this phenomenon and to validate existing water hammer codes. But theoretically versus measured results show a very high degree of deviation. Information about those experiments was obtained by literature review. This information is presented additionally to a test facility, which has been developed in order to generate water hammers. The test device is introduced in this paper and its main functions are briefly explained. In contrast to other experiments, water hammers at the UniBw are performed under controlled conditions. Air in water is a disruptive parameter that causes vigorous deviations between the theoretical system code and the experimental measurements. As in the test device presented in this paper, deionised water without air is used, this effect is ruled out. Furthermore the inception of a water hammer is controlled by a scientist. The experimental results will characterise the dynamic response of the test device as a function of system pressure, filling degree and sub-cooling.
From S. Dirndorfer | M. Doerfler | H. Kulisch | A. Malcherek
(Received 15.12.2011)
Appeared in Kerntechnik 2012/02, Page 122-127
Direct link: http://www.nuclear-engineering-journal.com/KT110242
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References
1 Giot, M.: Two Phase Flow Water Hammer Transients and Induced Loads on Material and Structures of Nuclear Power Plants (Waha-Loads). 2000.
2 Nakamura, H.; Watanabe, T.; Takeda, T.; Maruyama, Y.; Suzuki, M.: Overview of Recent Efforts Through ROSA/LSTF Experiments. Nuclear Safety Research Center, Thermohydraulic Safety Research Group Japan Atomic Energy Agency (JAEA). 2–4 Shirakata Shirane, Tokai, Ibaraki 319–1195 Japan: s. n., 2009.
3 Barna, I. F.; Baranyai, G.; Ézsöl, G.: Experimental and Theoretical Study of Steam Condensation Induced Water Hammer Phenomena. Thermo-hydraulic Department KFKI Atomic Energy Research Institut( AEKI) of the Hungarian Academy of Sciences. Tokyo, Japan : s.n., 2009.
4 Gale, J.; Tiselj, I.: Transition from Condensation-Induced Counter-Current Flow to Dispersed Flow. Portorož, Nuclear Society of Slovenia, Jamova 39, SI-1000 Ljubljana, Slovenia : International Conference Nuclear Energy for New Europe 2004 , 2004.
5 Almenas, K.; Pabarcius, R.; Seporaitis, M.: Design and Tests of a Device for the Generation of Controlled Condensation Implosion Events. Heat Transfer Engineering 3 (2006) 32–41.
6 Chun, M.-H.; Yu, S.-O.: A parametric study and a guide chart to avoid condensation-induced water hammer in a horizontal pipe. Nuclear Engineering and Design. 201 (2000) 239–257.
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