This study offers an approach to estimate the rainfall kinetic energy (KE) by rain intensity (R) and radar reflectivity factor (Z) separately or jointly on the basis of a one- or two-moment scaled raindrop size distribution (DSD) formulation, which contains (1) R and/or Z observations and (2) the dimensionless probability density function (pdf) of a scaled raindrop diameter. The key point is to explain all variability of the DSD by the evolution of the explaining moments (R and Z); hence the pdf is considered as constant. A robust method is proposed to estimate the climatological values of the parameters with a 28 month DSD data set collected in the Cévennes-Vivarais region of France. Three relationships (KE-R, KE-Z, and KE-RZ), which link ...
The knowledge of the rainfall drop size distribution (DSD) at the land surface is essential for unde...
International audienceIn this paper we consider an alternative approach based on the measurements of...
Empirical relationships linking kinetic energy to rainfall intensity are commonly used to estimate r...
This study offers an approach to estimate the rainfall kinetic energy (KE) by rain intensity (R) and...
This study offers an approach to estimate the rainfall kinetic energy (KE) by rain intensity (I) and...
International audienceIn radar hydrology the relationship between the reflectivity factor (Z) and th...
37 Pags.- 5 Tabls.- 8 Figs. The definitive version is available at: http://www.sciencedirect.com/sc...
Title from PDF of title page (University of Missouri--Columbia, viewed on May 22, 2012).The entire t...
A comprehensive general framework for the description and analysis of the microstructure of rainfall...
Kinetic power, i.e. kinetic energy per unit time and area, is the variable widely used to represent ...
Rain rate is a physical parameter that is only defined over some spatial or spatial-temporal integra...
The rain kinetic energy (KE) is a widely used indicator of the potential ability of rain to detach s...
The study of the detachment of soil particles due to rainfall erosivity requires knowledge of the en...
The erosion of the terrain starts with the process of soil detachment by raindrop impact. The Kineti...
The knowledge of the rainfall drop size distribution (DSD) at the land surface is essential for unde...
International audienceIn this paper we consider an alternative approach based on the measurements of...
Empirical relationships linking kinetic energy to rainfall intensity are commonly used to estimate r...
This study offers an approach to estimate the rainfall kinetic energy (KE) by rain intensity (R) and...
This study offers an approach to estimate the rainfall kinetic energy (KE) by rain intensity (I) and...
International audienceIn radar hydrology the relationship between the reflectivity factor (Z) and th...
37 Pags.- 5 Tabls.- 8 Figs. The definitive version is available at: http://www.sciencedirect.com/sc...
Title from PDF of title page (University of Missouri--Columbia, viewed on May 22, 2012).The entire t...
A comprehensive general framework for the description and analysis of the microstructure of rainfall...
Kinetic power, i.e. kinetic energy per unit time and area, is the variable widely used to represent ...
Rain rate is a physical parameter that is only defined over some spatial or spatial-temporal integra...
The rain kinetic energy (KE) is a widely used indicator of the potential ability of rain to detach s...
The study of the detachment of soil particles due to rainfall erosivity requires knowledge of the en...
The erosion of the terrain starts with the process of soil detachment by raindrop impact. The Kineti...
The knowledge of the rainfall drop size distribution (DSD) at the land surface is essential for unde...
International audienceIn this paper we consider an alternative approach based on the measurements of...
Empirical relationships linking kinetic energy to rainfall intensity are commonly used to estimate r...
Add to ORKG