TY - JOUR
PY - 2018//
TI - Preventive planning model for rescue priority management in seismic emergency
JO - International journal of safety and security engineering
A1 - Cardarilli, Monica
A1 - Lombardi, Mara
A1 - Guarascio, Massimo
SP - 307
EP - 319
VL - 8
IS - 2
N2 - This study stems from the detection analysis of damaged buildings in Nocera Umbra (Central Italy), which has been affected by the earthquake sequence during 1997-1998, causing serious damages to material goods and human casualties. This natural disaster highlighted the need to achieve a strategic planning during the emergency phase based not only on effective actions but also on the efficient management of rescue and relief operations. The application of Quantitative Risk Analysis (QRA) has led to the seismic risk assessment for estimating the potential level of the expected damage, on heritage buildings and human lives. Data and information have been gathered during the surveys carried out after the major seismic event. A deep analysis has highlighted the existence of a correlation ratio between the critical structural features and the propensity of buildings to collapse. Considering either the exposed population, this information represents the crucial element for a relief management plan. All risk indicators associated to each damage scenario have allowed to assign a scale of priorities at every relief operations for an effective risk mitigation based on damage level and expected casualties. The ex-post emergency organization would be able to make more efficient both allocation and management of resources, equipment and technical teams during rescue activities. This is strongly connected to the ex-ante priority planning of the operations related to magnitude and distribution of expected collapses and casualties thank to the simulation performed to the potential risk scenarios. Keywords building collapse, Quantitative Risk Analysis, seismic emergency, vulnerability index Language: en
LA - en
SN - 2041-9031
UR - http://dx.doi.org/10.2495/SAFE-V8-N2-307-319
ID - ref1
ER -