CFD Study of a Clattering Swing Check Valve During Sudden Pressure Transients: Comparison Between RELAP5 and STAR-CCM+
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Examensarbete för masterexamen
Master's Thesis
Master's Thesis
Modellbyggare
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Sammanfattning
Swing check valves are used throughout piping networks to prevent sustained backflow
following abnormal events such as a pipe break. System-level simulations have
shown that pressure waves originating from such events can induce rapid clattering
of check valves even far from the initiating disturbance, where the fluid is otherwise
stationary. This thesis investigates the dynamic response of one such valve,
comparing predictions from the 1D system code RELAP5 against compressible 3D
computational fluid dynamics (CFD) simulations in STAR-CCM+.
The results show that RELAP5 predicts substantially faster and more aggressive
valve motion than STAR-CCM+: while STAR-CCM+ reaches a single full opening
before settling into a damped oscillation around a partial opening angle, RELAP5
repeatedly cycles between open and closed throughout the simulation. This discrepancy
was traced to three contributing factors: an underestimation of the valve’s
effective inertia due to the absence of added mass and other hydrodynamic effects
in the 1D model; an overestimated hydraulic force arising from RELAP5’s pressure
extrapolation and area assumptions; and a deviation between the loss coefficient predicted
by RELAP5’s angle-dependent scaling and that obtained from STAR-CCM+
at intermediate opening angles. As a result, RELAP5 likely overpredicts the severity
of the associated water hammer effect, though the present results do not allow a
definitive conclusion on the validity of the originally predicted clattering behavior.
As a secondary objective, torque coefficients required to implement an alternative
RELAP5 check valve model were extracted from steady-state and transient 3D CFD
simulations. The resulting model, however, was found to be poorly constrained
outside the conditions explicitly simulated, and could not be meaningfully evaluated
against the 3D results within the scope of this thesis.
Beskrivning
Ämne/nyckelord
swing check valve, STAR-CCM+, RELAP5, fluid–structure interaction, valve clattering
