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Briefing recap
Scope and objective
This briefing defines the evaluation frame, the decision criteria, and the outputs. The objective is to determine whether continuous ultra-low-flow operation produces measurable infrastructure, water-use, and management benefits.
Institutional context
The program is designed to generate defensible field data that can be reviewed by agencies, districts, and technical partners. The focus is system stability under delivery limits, labor variability, and pressure stress.
Why continuous ultra-low flow
Conventional drip assumes high instantaneous flow and scheduled cycles, which can conflict with delivery windows, canal loading, electrical limits, and pressure stability. This session explains the different operating regime and why it is evaluated as such.
Platform purpose
The Build-Your-Own Nano Flow System is a pre-validation platform that models buffer sufficiency, pressure stability, refill tolerance, and monitoring capacity before installation. The goal is to prevent unviable pilots from entering the field.
Constraint logic and system design
The framework isolates upstream constraints, including buffer volume, pressure variability, soil conductivity, and refill reliability. It then maps site context, flow regime, and infrastructure impacts into a reviewable record.
Buffer and lifecycle economics
The session covers how operational buffering decouples delivery from demand, and how lifecycle costs are evaluated across materials, energy, maintenance, and replacement cycles. If the economics fail, the pilot stops.
Measurement and verification
Every pilot measures peak demand, pressure variance, soil tension, applied volume, energy use, uniformity, downtime, and maintenance. Stability is the primary metric. Yield is assessed after stability is established.
Oversight, reporting, and screening
Sites are paired with external validators such as extension, conservation partners, engineers, and advisors. Methods, data, and conclusions are reviewed, archived, and reported without promotional editing. Applications screen for structural fit and monitoring readiness.
Replay Requests Closed
This signup CTA has been disabled. The recap page stays up, but replay request submissions are no longer accepted here.
What remains in the archive
- Replay recap with the original agenda and framing.
- Footage + data covering pressure curves and flow math.
- District + grower checklists for 2026 pilot positioning.
- Follow-up Q&A notes and next-step roadmap.
The recap content stays public, but the replay request CTA and direct intake on this page are closed.
“This will be the first look at something that’s about to matter a lot for many people.”
Why this matters now and what you’ll see
Agriculture and water management are stuck in a pattern that no longer works. Systems sized for high-flow irrigation push canals, pumps, and laterals to their limits, ET swings faster than scheduling can keep up, and pressure stability, not acre-feet, determines how many acres you can actually irrigate. Every district, grower, and municipal planner knows you’re rationing infrastructure more than you’re rationing water.
This session introduces a different tool: a heavy-wall drip line that installs like the tubing you already use but runs continuously at roughly one percent of the water. At these ultra-low flow rates, capillarity overtakes gravity, wetting fronts become shallow and stable, and instantaneous GPM demand drops significantly. Pumps, canals, and electricity lines finally get a load off.
If you’re an irrigation district planner, water manager, conservation lead, agronomist, or grower facing peak-season volatility, this briefing is built for you. We walk through gravity bucket footage, source point solutions, discharge curves from 2-30 PSI, soil-moisture balance, and the early field math showing how ultra-low flow rates are primed for 2026 grant-funded pilots.
The goal is simple: prove that Nano Flow Irrigation can provide a foundation for structural change that lets regions irrigate more acres with less stress, less energy, and less water. And yes, you’ll see the first commercial line in this class running live during the Feb 20, 2026 session.
Built for
- Irrigation districts & water managers
- Water agencies and municipal planners
- Conservation & grant program leads
- Growers, advisors, agronomists everywhere
What you’ll see
- Gravity bucket footage with 0.0025-0.05 GPH emitters
- 2-30 PSI discharge curves and soil-moisture telemetry
- Infrastructure math for zone logic, pumps, and canals
- How pilots plug into 2026 conservation and funding lanes
Inside the pilot briefing
A focused online session on what it actually takes to run Nano Flow Irrigation on real acres in 2026. We cover the hardware, hydraulics, soil response, and how it fits inside regional funding and compliance lanes everywhere.
Field-ready hardware package
Walk through forecasted challenges and obstacles around how a Nano Flow Irrigation block ties into existing valves and mains.
Plans for the region
Review gravity bucket footage, 2-30 PSI discharge curves, and soil moisture probe data comparing a Nano Flow Irrigation block against a conventional high-flow block over several weeks.
District + grower deployment map
See how agencies, districts, and growers can stage 5-50 acre pilots, including canal loading, zone strategy, scheduling, and how to operate without stressing existing infrastructure.
Funding, goals, & data package
Outline where 2025-2030 conservation, state, municipal, and EQIP-style programs intersect with the pilot timeline, plus what decision makers receive in the performance report.