Abstract
AbstractRainfall patterns are bound to change as a result of global warming and climate change impacts. Rainfall events are dependent on geographic location, geomorphology, coastal area closeness and general circulation air movements. Accordingly, there are increases and decreases at different meteorology station time-series records leading to extreme events such as droughts and floods. This paper suggests a methodology in terms of envelope curves for monthly extreme rainfall event occurrences at a set of risk levels or return periods that may trigger the extreme occurrences at meteorology station catchments. Generally, in many regions, individual storm rainfall records are not available for intensity–duration–frequency (IDF) curve construction. The main purpose of this paper is, in the absence of individual storm rainfall records, to suggest monthly envelope curves, which provide a relationship between return period and monthly extreme rainfall values. The first step is to identify each monthly extreme rainfall records probability distribution function (PDF) for risk level and return period calculations. Subsequently, the return period rainfall amount relationships are presented on double-logarithmic graphs with the best power model as a set of envelope curves. The applications of these methodologies are implemented for three Hodna drainage basin meteorology station rainfall records in northern Algeria. It is concluded that the most extreme rainfall risk months are June, August and September, which may lead to floods or flash floods in the study area. A new concept is presented for the possible extreme value triggering months through the envelope curves as ‘low’, ‘medium’ and ‘high’ class potentials.
Highlights
Based on the above insights, the overall goal of this study is to identify the probability distribution function (PDF) for monthly maximum daily rainfall records at a set of three meteorology stations in the Hodna basin, Algeria
The main purpose of the paper was to identify first the PDF for each monthly extreme rainfall value to find the return periods, which play a significant role in extreme rainfall frequency analysis
The return period and monthly extreme rainfall value relationship is obtained for each month, which appeared in the form of straight lines on double-logarithmic paper
Summary
Journal of Water and Climate Change | 12.5 | 2021 which initiated the discussion on global warming and consequent climate change impacts on energy, economy and environment, in general, and societal sustainability. In this context, the Intergovernmental Panel on Climate Change reports (IPCC , , ) are for general guidance all over the world. According to Gaume et al ( ), the primary natural cause of flooding in this region is the short intense rainfall bursts inducing the convection flows in the Mediterranean Sea. Advance knowledge on rainfall extremes would contribute to better flood planning as well as accurate protection designs by means of hydraulic structures such as flood protection channels and storm sewers. The application of statistical theory to model the extreme rainfall is required for different regions since the precipitation events are more dependent on topography, coastal area closeness and general circulation air movement
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
