On seasonal approach to flood frequency modelling. Part I: Two-component distribution revisited

2011 ◽  
Vol 26 (5) ◽  
pp. 705-716 ◽  
Author(s):  
W. G. Strupczewski ◽  
K. Kochanek ◽  
E. Bogdanowicz ◽  
I. Markiewicz
Keyword(s):  
Flood Frequency ◽  
Component Distribution ◽  
Two Component

scholarly journals A New Two-Component Model for Hadron Production in Heavy-Ion Collisions

2017 ◽  
Vol 2017 ◽  
pp. 1-10 ◽  
Author(s):  
Xuejiao Yin ◽  
LiLin Zhu ◽  
Hua Zheng
Keyword(s):  
Heavy Ion Collisions ◽  
Particle Production ◽  
Collective Motion ◽  
Heavy Ion ◽  
Component Distribution ◽  
Ion Collisions ◽  
Peripheral Collisions ◽  
Two Component ◽  
Particle Spectra ◽  
Motion Effect

Using the experimental data from the ALICE program on the centrality dependence of the transverse momentum (pT) spectra in Pb+Pb collisions at sNN=2.76 TeV, we show that the double-Tsallis distribution and the generalized Fokker-Planck (FP) solution cannot describe the spectra of pions, kaons, and protons from central to peripheral collisions in the entire pT region, simultaneously. Hence, a new two-component distribution, which is a hydrodynamic extension of the generalized FP solution accounting for the collective motion effect in heavy-ion collisions, is proposed in order to reproduce all the identified particle spectra. Our results suggest that the particle production dynamics may be different for different particles, especially at very low pT region.

scholarly journals Inundation risk for embanked rivers

2013 ◽  
Vol 10 (3) ◽  
pp. 2987-3025 ◽  
Author(s):  
W. G. Strupczewski ◽  
K. Kochanek ◽  
E. Bogdanowicz ◽  
I. Markiewicz
Keyword(s):  
Prolonged Exposure ◽  
High Water ◽  
Flood Frequency ◽  
Parameters Estimation ◽  
Component Model ◽  
Flood Frequency Analysis ◽  
Frequency Model ◽  
Peak Flows ◽  
Flood Peak ◽  
Two Component

Abstract. The Flood Frequency Analysis (FFA) concentrates on probability distribution of peak flows of flood hydrographs. However, examination of floods that haunted and devastated the large parts of Poland lead us to revision of the views on the assessment of flood risk of Polish rivers. It turned out that flooding is caused not only by overflow of the levees' crest but mostly due to the prolonged exposure to high water on levees structure causing dangerous leaks and breaches that threaten their total destruction. This is because, the levees are weakened by long-lasting water pressure and as a matter of fact their damage usually occurs after the culmination has passed the affected location. The probability of inundation is the total of probabilities of exceeding embankment crest by flood peak and the probability of washout of levees. Therefore, in addition to the maximum flow one should consider also the duration of high waters in a river channel. In the paper the new two-component model of flood dynamics: "Duration of high waters–Discharge Threshold–Probability of non-exceedance" (DqF), with the methodology of its parameters estimation was proposed as a completion to the classical FFA methods. Such model can estimate the duration of stages (flows) of an assumed magnitude with a given probability of exceedance. The model combined with the technical evaluation of probability of levees breach due to the d-days duration of flow above alarm stage gives the annual probability of inundation caused by the embankment breaking. The results of theoretical investigation were illustrated by a practical example of the model implementation to the series of daily flow of the Vistula River at Szczucin. Regardless promising results, the method of risk assessment due to prolonged exposure of levees to high water is still in its infancy despite its great cognitive potential and practical importance. Therefore, we would like to point out the need for and usefulness of the DqF model as complementary to the analysis of the flood peak flows, as in classical FFA. The presented two-component model combined with the routine flood frequency model constitutes a new direction in FFA for embanked rivers.

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