Soil Infiltration Calculator

What you're measuring: Unsaturated hydraulic conductivity K(h) — reveals near-saturated pore-size structure.

Quick Calculator — enter reservoir readings from a single tension run. The calculator detects steady-state and computes K(h). If you don't know a* (the sorptive number), use Step 1 to estimate it from multi-tension data first.

Batch Analysis — upload a CSV of all your field data (multiple sites, tensions, depths). The tool computes K(h) for everything and generates summary tables, pore-class charts, and downloadable reports.

Standard three tensions: −15 → −6 → −3 cm (most negative first).

1. Prepare site: gently level; apply 2–3 mm fine sand contact layer; carefully level disc.
2. Run heads in order: −15 → −6 → −3 cm.
3. Readings: 0–10 min each minute; 10–30 min every 2–3 min; 30+ min every 5 min. Stop when 3 consecutive readings vary by < 5%.

Approximate pore mapping: −15 cm ≈ 0.20 mm; −6 cm ≈ 0.50 mm; −3 cm ≈ 1.00 mm.

Comparing K across tensions isolates conductance from different pore-size bands:

• < 0.2 mm ≈ K(−15)
• 0.2–0.5 mm ≈ K(−6) − K(−15)
• 0.5–1.0 mm ≈ K(−3) − K(−6)

Larger contributions at less negative heads indicate stronger structural macroporosity and potential preferential flow.

Tail CV% measures how stable the last N readings are:

• < 20% — Excellent
• 20–30% — Good
• 30–50% — Fair
• > 50% — Poor (steady-state not reached)

• Disc permeameters do not measure micropores (< 0.03 mm).
• Practical lower limit ~ −15 to −20 cm (membrane air entry).
• The Wooding equation assumes homogeneous, isotropic soil.

Your CSV must contain these columns (header names must match exactly):