Seismic Fragility and Behavior of Spherical Pressure Vessels
Künye
ÖZTÜRK, Sezer, Kayahan AKGÜL & Ali SARI. "Seismic Fragility and Behavior of Spherical Pressure Vessels". Pressure Vessels & Piping Conference PVP2021, (2021).Özet
Pressurized tanks are vessels that show high
impermeability and strength against large internal pressures.
These tanks can be used for liquid or gas storage. The internal
pressures of the vessels used in gas storage can be at very high
levels. These tanks are used in many different areas in the
industry. Therefore, human health and life safety is an
important parameter. Thus, the design of the tanks to be
produced must be suitable for the purpose, as well as the
correct analysis and safe usage conditions. Excessive pressure
and the temperature difference can lead to explosions that will
cause dangerous and many fatal accidents. As a result, domino
effects can occur in industrial facilities. For this reason, the
risk analysis and seismic behavior of these vessels should be
carefully examined. When the performances of past
earthquakes are examined, it has been revealed that especially
spherical vessels show seismic fragility. Therefore, evaluating
the seismic fragility of these vessels is an important issue in
regions with high seismic risk. Fragility curves are important
tools to evaluate the vulnerability of structures to earthquakes.
Within the scope of this study, fragility curves have been
created by considering nonlinear time history analyzes and the
limited database analyzed for the damage conditions of
spherical pressure vessels in earthquakes that occurred in the
past years. The curves obtained were interpreted in relation to
the ground motion intensity parameter (PGA). In addition,
nonlinear time history analyzes of tank models using the Finite
Element Method (FEM) have been performed to evaluate the
seismic performance of the vessels. Also, the damage data of
horizontal tanks were collected and interpreted.