LTSC-to-Farm Usability
Model whether stored or recovered water can be used efficiently at the field edge.
Stored water has operational value only after recovery, movement, pressure, timing, and receiving-system demand are accounted for. This prototype links LTSC logic to Nano Flow's application-side demand profile.
Usability Output
Recoverable scenario0 AF
Water volume0 gal
Energy burden0 kWh/AF
Energy cost$0/AF
Conventional peak0 GPM
Nano Flow peak0 GPM
Receiving-system peak reduction
0%
This is a scenario model. It does not determine LTSC ownership, recovery authority, service-area consent, or legal transferability.
Recovered water should not be forced into high-flow field events by default.
If recovered water is limited, expensive, or operationally awkward, the receiving irrigation system should be able to use it slowly, continuously, and with storage buffering.
Use cases
- Recharge-to-irrigation usability studies.
- LTSC holder conversations near agricultural districts.
- Recovered water readiness reports.
- Conservation planning packets that document peak demand and energy burden.