Issue 49

B. G. N. Muthanna et alii, Frattura ed Integrità Strutturale, 49 (2019) 463-477; DOI: 10.3221/IGF-ESIS.49.44 466 Figure 2 : Schematic description for numerical methodology Effect of elbow radius In order to find out the adequacy of different finite element types and the sensitivity of our models to different parameters, different steps were studied by extracting their critical positions and applying boundary conditions with suitable mesh to get better results. Fig. 3 illustrates the elbow geometry, meshing and boundaries conditions of our model. Pressure distributions were applied in the internal surface of pipe elbow. Figure 3: Geometry, meshing and boundaries conditions of elbow model. In order to analyze the effect of the cracked elbow on the safety of piping system at critical zones, the radius bending was taken into our consideration as it plays an important role in the security and assessment for pipeline failure where the critical zones are affected by the interaction fluid/ structure including elbow geometry. Figs. (4-6) show the distribution of pressure, velocity and Von-Mises stress along the pipe elbows, respectively. The Effect of elbow radius was investigated in order to obtain the radius value at which the stress is stabilized. The change in the elbow radius leads to change the behavior flow including the maximum stress and therefore to security and defect assessment of pipeline as shown in Fig. 7. Mesh Boundary conditions Flow geometry Pipe Elbow geometry Mesh Boundary conditions Solve Pipe Elbow geometry with a semi-elliptical crack CFD APDL Fracture analysis Mesh Boundary conditions Solve Solve Results Results Results