Translations:Versickerung und Retention/54/en: Unterschied zwischen den Versionen

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(Die Seite wurde neu angelegt: „{| class="wikitable" |colspan="2" style="text-align:center" | '''V<sub>erf</sub> = ((A<sub>red</sub> x r<sub>D(n)</sub> x 10<sup>-4</sup>) – Q<sub>dr</sub>…“)
 
 
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| A<sub>red</sub> || = connected paved surfaces in m² (5,000 m² in example)
 
| A<sub>red</sub> || = connected paved surfaces in m² (5,000 m² in example)
 
|-
 
|-
| r<sub>D(n)</sub> || = crucial rainfall in L/s-ha (e.g. KOSTRA-Data Aachen, see Dimensioning of infiltration or retention systems)
+
| r<sub>D(n)</sub> || = crucial rainfall in L/sha (e.g. KOSTRA-Data Aachen, see Dimensioning of infiltration or retention systems)
 
|-
 
|-
 
| Q<sub>dr</sub>  || = discharge throttle value in L/s (the arithmetic mean of the throttle curve with non-continuous throttles, see diagram of throttle curves, 21 L/s in the example)
 
| Q<sub>dr</sub>  || = discharge throttle value in L/s (the arithmetic mean of the throttle curve with non-continuous throttles, see diagram of throttle curves, 21 L/s in the example)

Aktuelle Version vom 20. November 2018, 15:29 Uhr

Information zur Nachricht (bearbeiten)
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Nachricht im Original (Versickerung und Retention)
{| class="wikitable"
|colspan="2" style="text-align:center"  | '''V<sub>erf</sub> = ((A<sub>red</sub> x r<sub>D(n)</sub> x 10<sup>-4</sup>) – Q<sub>dr</sub> ) x D x 60 x 10<sup>-3</sup>'''
|-
| V<sub>erf</sub> || = erforderliches Speichervolumen in m³
|-
| A<sub>red</sub> || = angeschlossene befestigte Fläche in m² (im Beispiel 5.000 m²)
|-
| r<sub>D(n)</sub> || = maßgebende Regenspende in l/sha (Bsp. KOSTRA-Daten Aachen, s. Bemessung von Versickerungs- oder Retentionsanlagen)
|-
| Q<sub>dr</sub>  || = Abflussdrosselwert in l/s (bei nicht kontinuierlichen Drosseln das arithmetische Mittel der Drosselkennlinie, s. Diagramm Drosselkennlinien, im Beispiel 21 l/s)
|-
| D || = Dauerstufe in min (im Beispiel 30 min bei der starren Drossel und Wirbeldrossel, 20 min bei der kontinuierlichen Drossel)
|-
|colspan="2" style="text-align:left" | '''starre Drossel = Wirbeldrossel:''' V<sub>erf</sub> = ((5.000 x 104,8 x 10<sup>-4</sup>) – 21) x 30 x 60 x 10<sup>-3</sup> = 56,6 m³
|-
|colspan="2" style="text-align:left" | '''kontinuierliche Drossel:''' V<sub>erf</sub> = ((5.000 x 131,7 x 10<sup>-4</sup>) – 31) x 20 x 60 x 10-3 = 41,8 m³ (- 26 %)
|}
Übersetzung{| class="wikitable"
|colspan="2" style="text-align:center"  | '''V<sub>erf</sub> = ((A<sub>red</sub> x r<sub>D(n)</sub> x 10<sup>-4</sup>) – Q<sub>dr</sub> ) x D x 60 x 10<sup>-3</sup>'''
|-
| V<sub>erf</sub> || = required storage volume in m³
|-
| A<sub>red</sub> || = connected paved surfaces in m² (5,000 m² in example)
|-
| r<sub>D(n)</sub> || = crucial rainfall in L/sha (e.g. KOSTRA-Data Aachen, see Dimensioning of infiltration or retention systems)
|-
| Q<sub>dr</sub>  || = discharge throttle value in L/s (the arithmetic mean of the throttle curve with non-continuous throttles, see diagram of throttle curves, 21 L/s in the example)
|-
| D || = Duration in min (in example, 30 min with the fixed throttle and vortex throttle, 20 min with the continuous throttle)
|-
|colspan="2" style="text-align:left" | '''fixed throttle = vortex throttle:''' V<sub>erf</sub> = ((5,000 x 104.8 x 10<sup>-4</sup>) – 21) x 30 x 60 x 10<sup>-3</sup> = 56.6 m³
|-
|colspan="2" style="text-align:left" | '''continuous throttle:''' V<sub>erf</sub> = ((5,000 x 131.7 x 10<sup>-4</sup>) – 31) x 20 x 60 x 10-3 = 41.8 m³ (- 26 %)
|}
Verf = ((Ared x rD(n) x 10-4) – Qdr ) x D x 60 x 10-3
Verf = required storage volume in m³
Ared = connected paved surfaces in m² (5,000 m² in example)
rD(n) = crucial rainfall in L/sha (e.g. KOSTRA-Data Aachen, see Dimensioning of infiltration or retention systems)
Qdr = discharge throttle value in L/s (the arithmetic mean of the throttle curve with non-continuous throttles, see diagram of throttle curves, 21 L/s in the example)
D = Duration in min (in example, 30 min with the fixed throttle and vortex throttle, 20 min with the continuous throttle)
fixed throttle = vortex throttle: Verf = ((5,000 x 104.8 x 10-4) – 21) x 30 x 60 x 10-3 = 56.6 m³
continuous throttle: Verf = ((5,000 x 131.7 x 10-4) – 31) x 20 x 60 x 10-3 = 41.8 m³ (- 26 %)