Difference between revisions of "Rainwater harvesting: TTT"
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Once the size of cistern has been determined, it can easily be modeled in many open source and proprietary applications. For planning purposes, a RWH system could be integrated into a site plan using STEP's Treatment Train Tool. This tool provides a graphical user interface and simplified inputs on the EPA SWMM model. It is free to download, click image above. | Once the size of cistern has been determined, it can easily be modeled in many open source and proprietary applications. For planning purposes, a RWH system could be integrated into a site plan using STEP's Treatment Train Tool. This tool provides a graphical user interface and simplified inputs on the EPA SWMM model. It is free to download, click image above. | ||
In a typical configuration: | In a typical configuration: | ||
| − | {|class=" | + | {|class="wikitable" |
|- | |- | ||
|Catchment (roof)||100% impervious | |Catchment (roof)||100% impervious | ||
Revision as of 21:04, 7 September 2017
Once the size of cistern has been determined, it can easily be modeled in many open source and proprietary applications. For planning purposes, a RWH system could be integrated into a site plan using STEP's Treatment Train Tool. This tool provides a graphical user interface and simplified inputs on the EPA SWMM model. It is free to download, click image above. In a typical configuration:
| Catchment (roof) | 100% impervious |
| The rainwater harvesting system would be a 'Storage' Element with the following properties: | |
| Storage type | No removal |
| ? | Lined |
| Underlying soil | Doesn't matter |
| Evaporation factor | 0 |
| Suction head (mm) | 0 |
| Saturated conductivity (mm/hr) | 0 |
| Initial soil moisture deficit (fraction) | 0 |
The dimensions of the rainwater cistern can be placed into the fields:
| |