Add to ORKGHydrological response times are often used to characterise runoff processes. They provide information about temporal resolution of catchments responses, thus of the required measurement resolutions of in-situ sensors as well as spatial sensors like rainfall radars. The objective of this study was to characterise response times for urban catchments in lowland areas equipped with looped, combined sewer systems. Subcatchments size vary between 0.3 and 7.8 ha. The results show that variation in catchment area size can explain only a part of variation in lag times between the subcatchments. Pipe length per subcatchment explains variations in lag times to a similar, low degree. Comparison of lag time values for looped networks and constructed bra...
Interactions between spatial and temporal variability of rainfall and catchment characteristics str...
<p>Several rainfall measurement techniques are available for hydrological applications, each with it...
The highly dynamic nature of preferential flow in time and space makes it challenging to identify an...
Hydrological response times are often used to characterise runoff processes. They provide informatio...
The Inter-Amount Times (IAT) adaptive sampling technique has been used for the analysis of hydrologi...
An investigation carried out into the values of lag time for catchment areas as measured from centr...
The impact of spatial and temporal variability of rainfall on hydrological response remains poorly u...
Additional thesis - Due to an expected increase in rainfall intensity in the future because of clima...
Urban catchments are typically characterised by a more flashy nature of the hydrological response co...
Spatial and temporal rainfall variability play an important role in generation of pluvial flooding. ...
Hydrological response of an urban catchment to storm events is determined by a number of factors inc...
This paper introduces a new methodology and a rainfall spatial organisation index to examine the rel...
Time is an important element in hydrologic design. Most hydrologic models require a watershed charac...
[1] A new characteristic timescale of a catchment is presented, the response timescale (RTS). It is ...
International audienceUrban catchments are typically characterised by high spatial variability and f...
Interactions between spatial and temporal variability of rainfall and catchment characteristics str...
<p>Several rainfall measurement techniques are available for hydrological applications, each with it...
The highly dynamic nature of preferential flow in time and space makes it challenging to identify an...
Hydrological response times are often used to characterise runoff processes. They provide informatio...
The Inter-Amount Times (IAT) adaptive sampling technique has been used for the analysis of hydrologi...
An investigation carried out into the values of lag time for catchment areas as measured from centr...
The impact of spatial and temporal variability of rainfall on hydrological response remains poorly u...
Additional thesis - Due to an expected increase in rainfall intensity in the future because of clima...
Urban catchments are typically characterised by a more flashy nature of the hydrological response co...
Spatial and temporal rainfall variability play an important role in generation of pluvial flooding. ...
Hydrological response of an urban catchment to storm events is determined by a number of factors inc...
This paper introduces a new methodology and a rainfall spatial organisation index to examine the rel...
Time is an important element in hydrologic design. Most hydrologic models require a watershed charac...
[1] A new characteristic timescale of a catchment is presented, the response timescale (RTS). It is ...
International audienceUrban catchments are typically characterised by high spatial variability and f...
Interactions between spatial and temporal variability of rainfall and catchment characteristics str...
<p>Several rainfall measurement techniques are available for hydrological applications, each with it...
The highly dynamic nature of preferential flow in time and space makes it challenging to identify an...