Multivariate Hydrologic Risk Analysis for River Thames

Abstract: This study analyzed the multivariate flood risk for the river Thames at Kingston based on historical flood data from the National River Flow Archive (NRFA) website. The bivariate risk analysis framework was prepared from the joint return periods of the peak flow (m3/s) and 3-day annual maximum flow (m3/s) flood pair. A total of 137 samples of flood pairs from 1883 to 2019 were adopted for risk analysis. The multivariate return periods were characterized depending on the quantification of the bivariate flood fr… Show more

“…The paper suggests that the joint (primary) return periods can be further characterized by "AND" cases. This implies that the joint return period is calculated by considering the probability of both events occurring simultaneously [29,30]. For instance, the joint return period for a flood event could be calculated by considering the probability of both the rainfall event and the river discharge event exceeding certain thresholds within a given time frame as Equation ( 5) :…”

“…The intensity of flood risk is usually determined by the period of future re-occurrence of heavy inundation, commonly known as the return period. Under consideration of the service time (i.e., n) of a hydrological infrastructure, the risk of failure associated with the return period of a flooding event can be expressed as Equation ( 6) [30] :…”

Spatial Dependence Analysis of Weekly Moving Cumulative Rainfall for Flood Risk Assessment

“…The paper suggests that the joint (primary) return periods can be further characterized by "AND" cases. This implies that the joint return period is calculated by considering the probability of both events occurring simultaneously [29,30]. For instance, the joint return period for a flood event could be calculated by considering the probability of both the rainfall event and the river discharge event exceeding certain thresholds within a given time frame as Equation ( 5) :…”

“…The intensity of flood risk is usually determined by the period of future re-occurrence of heavy inundation, commonly known as the return period. Under consideration of the service time (i.e., n) of a hydrological infrastructure, the risk of failure associated with the return period of a flooding event can be expressed as Equation ( 6) [30] :…”

Spatial Dependence Analysis of Weekly Moving Cumulative Rainfall for Flood Risk Assessment

Quantifying multivariate flood risk under nonstationary condition

A factorial inexact copula stochastic programming (FICSP) approach for water-energy- food nexus system management