If you don’t know this number, you’re irrigating blind
To irrigate accurately, you must know how much water your irrigation system applies per hectare per hour. AgriWiz™ uses this value to calculate correct irrigation time based on crop, soil, and climate demand. If this number is wrong, irrigation time will be wrong.
Step 1: Know your emitter flow rate (L/hour)
Each dripper or sprinkler has a flow rate (e.g. 1.6, 2.0, or 3.5 L/hr). This is usually in the supplier’s specifications, but field conditions often differ. Best practice: verify flow using a bucket (catch) test.
Step 2: Bucket (catch) test – measure real emitter flow
- Select 5–10 emitters across the block (start, middle, end).
- Place a container under one emitter.
- Run irrigation for exactly 1 minute.
- Measure collected water in milliliters (ml).
Convert to litres per hour
Emitter flow (L/hr) = ml × 60 ÷ 1,000
Example
Collected in 1 minute = 33 ml
33 × 60 ÷ 1,000 = 1.98 L/hr
Actual emitter flow ≈ 2.0 L/hr
Use the average of all tested emitters.
Step 3: Calculate trees per hectare
1 hectare = 10,000 m²
Trees per hectare = 10,000 ÷ (row spacing × tree spacing)
Example
Row spacing = 5 m
Tree spacing = 4 m
Area per tree = 5 × 4 = 20 m²
Trees per hectare = 10,000 ÷ 20 = 500 trees/ha
Step 4: Calculate emitters per hectare
Emitters per hectare = trees per hectare × emitters per tree
Example
500 trees/ha
2 drippers per tree
1,000 emitters per hectare
Step 5: Calculate system delivery rate (L/ha/hour)
Delivery rate (L/ha/hr) = emitters per ha × emitter flow (L/hr)
Examples (1,000 emitters/ha)
- 1.6 L/hr → 1,600 L/ha/hr
- 2.0 L/hr → 2,000 L/ha/hr
- 3.5 L/hr → 3,500 L/ha/hr
This is the key number AgriWiz™ needs.
Step 6: Calculate irrigation time
Irrigation time (hours) = target water (L/ha) ÷ delivery rate (L/ha/hr)
Example
- Target = 5,000 L/ha
- Delivery rate = 2,000 L/ha/hr
- 5,000 ÷ 2,000 = 2.5 hours