Suchergebnisse
- …del as precipitation height [mm] and, therefore, has to be scaled with the area. The degree of imperviousness dictates the percentage of impervious area in the sub-basin and describes the proportion that runs off as urban surfac11 KB (1.481 Wörter) - 15:10, 15. Feb. 2021
- [[Datei:Systemelement001.png|50px|none]] The simulation of natural catchment areas requires calculating the processes of runoff generation, distribution …tion measurement stations in the catchment area, you can either divide the area into several sub-basins or aggregate precipitation sources, until only one18 KB (2.745 Wörter) - 11:45, 17. Dez. 2020
- ==Rule Type 2: Maintaining a Flood Protection Area, Possibly Timely Variable Over the Year== …3.png|thumb|Figure 3: Example of a function to maintain a flood protection area]]28 KB (4.425 Wörter) - 12:47, 30. Aug. 2021
- …he supply of service water for several industrial companies. The catchment area of the dam is 43.61 km², the average annual inflow is 21 million m³, and | 1.10. - 31.10. || Flood control area || = 1.00M m³ || Capacity level || = 24.06M m³9 KB (1.216 Wörter) - 12:41, 30. Aug. 2021
- …et of the catchment area in response to the precipitation in the catchment area. The simulation can be event-based or continuous. …vant physical processes of water storage and movement within the catchment area can be modeled (evaporation, snow accumulation and melting, soil moisture,1 KB (155 Wörter) - 10:03, 25. Nov. 2020
- …et of the catchment area in response to the precipitation in the catchment area. The simulation can be event-based or continuous. …vant physical processes of water storage and movement within the catchment area can be modeled (evaporation, snow accumulation and melting, soil moisture,1 KB (146 Wörter) - 10:03, 25. Nov. 2020
- …ncludes all water-related transport and storage processes within a limited area, whereas it is irrelevant if it is a real-world system, or it represents a …ecessary. These boundaries are not only of spatial nature due to catchment area boundaries, but they are also a distinction between system loads and system7 KB (1.120 Wörter) - 10:32, 30. Aug. 2021
- …tion measurement stations in the catchment area, you can either divide the area into several sub-basins or aggregate precipitation sources, until only one402 Bytes (58 Wörter) - 10:57, 25. Nov. 2020
- Imports scaling factors for the model rainfall of every single catchment area from a file. The file must have the name <code>N_Factor.txt</code> and must …obally set model rains are displayed (i.e. before scaling with factors for catchment areas). Using the ''Inflow'' tab, a point source must first be selected in6 KB (822 Wörter) - 14:30, 17. Mär. 2021
- …Einleitung|point source]] and [[Special:MyLanguage/Einzugsgebiet|catchment area]] are the ones which particularly contribute water to the system. [[Special …he runoff distribution of the [[Special:MyLanguage/Einzugsgebiet|catchment area elements]] it is possible to discharge other individual flow components fro5 KB (709 Wörter) - 11:29, 30. Aug. 2021
- …eated waste water. The consumer replaces a detailed simulation of an urban area with a sewer system. However, if urban areas need to be considered in more …t can be used to model the transfer of water from a modeled catchment to a catchment outside of the system.3 KB (482 Wörter) - 13:33, 25. Feb. 2021
- The [[Special:MyLanguage/Catchment Area#Soil Moisture Simulation|soil moisture]] calculation option is the calculat …hydrologic response units (HRUs) using the [[Special:MyLanguage/Elementary Area Window|hydrologic response units]] button. The sub-basin window provides th405 Bytes (56 Wörter) - 16:02, 26. Jan. 2021
- Runoff concentration determines the delay of runoff from the catchment area. A parallel storage cascade with three reservoirs for permeable and one cas …konzentration_EN.png|frame|none|Calculation of the runoff concentration of catchment areas]]445 Bytes (66 Wörter) - 15:53, 25. Nov. 2020
- …ide the boundaries influence the system or if information from outside the catchment is to be used, e.g. for calibration. Still, the system boundaries can chang898 Bytes (144 Wörter) - 12:11, 22. Dez. 2020
- …ide the boundaries influence the system or if information from outside the catchment is to be used, e.g. for calibration. Still, the system boundaries can chang1 KB (176 Wörter) - 12:11, 22. Dez. 2020
- …t can be used to model the transfer of water from a modeled catchment to a catchment outside of the system. …er flowing back to the system from the consumer is diverted to an external area and not returned to the system.1 KB (200 Wörter) - 09:51, 26. Nov. 2020
- …ncludes all water-related transport and storage processes within a limited area, whereas it is irrelevant if it is a real-world system, or it represents a …ecessary. These boundaries are not only of spatial nature due to catchment area boundaries, but they are also a distinction between system loads and system3 KB (421 Wörter) - 10:29, 30. Aug. 2021
- …he supply of service water for several industrial companies. The catchment area of the dam is 43.61 km², the average annual inflow is 21 million m³, and655 Bytes (103 Wörter) - 12:41, 30. Aug. 2021
- …retention constant to describe the effluent concentration from a catchment area. They are subject to calibration and verification. To determine the behavio1 KB (179 Wörter) - 09:52, 24. Mär. 2021
- …d everywhere. If you want to modify a chart only for the current catchment area, a copy has to be created and connected before.633 Bytes (98 Wörter) - 16:07, 26. Jan. 2021
Zeige (vorherige 20 | nächste 20) (20 | 50 | 100 | 250 | 500)