Print Email Facebook Twitter Are rain gauges in the right place? Title Are rain gauges in the right place? Author Haasnoot, David (TU Delft Civil Engineering and Geosciences) Contributor Hut, R.W. (mentor) Uijlenhoet, R. (mentor) Degree granting institution Delft University of Technology Programme Civil Engineering Date 2022-03-28 Abstract Rain gauges are a powerful tool to measure rain entering a watershed. When water flow through a watershed is modeled, these rainfall measurements are used as inputs. Hydrological models have become increasingly complex as they more accurately represent the physical processes occurring. This is mostly done by increasing the spatial and temporal resolution of the model. As this resolution is increased, the inputs also need to increase. This thesis looks into if rain gauges are in the right place when used as inputs for hydrological models. This has been done by analysing four factors which literature showed to have affect rain gauges. The four considered factors are: the distribution of rain gauges, the steepness of the slope they are on, the location on that slope and their location within a watershed. For each of these factors algorithms have been developed in Python which compute relevant information on a given station. These algorithms have been applied to 368 gauges across the United Kingdom (UK), available from an open data source. The rain gauges are well distributed across different altitudes matching the distribution of heights across the UK. Above 400 m there are no gauges and this area is therefore underrepresented. The spacing of stations is good, a few close together and some isolated gauges on islands. The steepness of slopes varies strongly, when a steepness of 25% is used as a threshold only around 3% are on too steep of a slope. A fair amount of gauges are on ridges. Especially those near the coast have steep seaward slopes and thus will suffer from underestimating the actual rainfall. Within watersheds gauges are often near rivers causing other areas of the watershed to be underrepresented, especially areas of higher elevation. In future research it is recommended to use more gauges in the data set. Secondly focusing on a baseline comparison can help identify which stations are placed incorrectly. Lastly it is recommended to vary the resolution of elevation data and the spatial area considered, focusing on watersheds. Subject Rain gaugeGISSpatial analysis To reference this document use: http://resolver.tudelft.nl/uuid:fa203af5-ad1f-4a08-b13b-dc109091748c Bibliographical note GitHub containing used code - https://github.com/Daafip/Are-rain-gauges-in-the-right-place Part of collection Student theses Document type bachelor thesis Rights © 2022 David Haasnoot Files PDF Bachelor_Thesis_David_Haa ... _Final.pdf 7.97 MB Close viewer /islandora/object/uuid:fa203af5-ad1f-4a08-b13b-dc109091748c/datastream/OBJ/view