It's 2 am, the pump alarms, the bag is empty, and the spare is across the ward. You need to switch to gravity fast — drop factor's on the packaging. Enter your values below.
IV Drip Rate (Gravity)
IV Fluids
Litres → mL: 1.5 L = 1500 mL
gtt/min = Volume (mL) × Drop factor ÷ (Time hrs × 60)
Example: 1500 mL, 10 hrs, 20 gtt/mL = 1500×20÷600 = 50 gtt/min
💡 Gravity feeds work best at 10–60 gtt/min. Outside this range consider a pump.
Reference: NCBI Nursing Skills Ch.5 · ACSQHC Medication Safety
Clinical safety:
🇦🇺 Verify with facility drug formulary and senior clinician · Meets AHPRA/ACSQHC standards
1 What this calculator does
Converts a prescriber's volume-over-time order into a drops-per-minute count for gravity-fed infusions. Accounts for 20, 15 and 60 gtt/mL giving sets and outputs a whole-number rate you can count at the bedside.
2 Formula & professional reasoning
gtt/min = Volume (mL) × Drop factor (gtt/mL) ÷ (Time hours × 60)
Multiplying volume by drop factor converts mL into total drops. Dividing by infusion duration in minutes yields drops per minute. Always round to the nearest whole drop — fractional drops are not physically countable.
3 Worked examples
⚠️ Illustrative example only — not clinical or professional instruction.
Basic
500 mL saline over 4 hours
Given: 500 mL · 4 hrs · 20 gtt/mL
Working:
500 × 20 ÷ (4 × 60) = 10000 ÷ 240Answer: 42 gtt/min
💡 Count 10–11 drops per 15 seconds to verify.
Standard
1 L overnight
Given: 1000 mL · 8 hrs · 20 gtt/mL
Working:
1000 × 20 ÷ (8 × 60) = 20000 ÷ 480Answer: 42 gtt/min
💡 Same result — 1L/8hr = 500mL/4hr on a 20-drop set.
Advanced
Blood product on 15 gtt/mL set
Given: 300 mL · 2 hrs · 15 gtt/mL
Working:
300 × 15 ÷ (2 × 60) = 4500 ÷ 120Answer: 38 gtt/min
💡 Blood must complete within 4 hours of issue. Use blood giving set only.
4 Sanity check
Typical gravity range
10–60 gtt/min
Above 60 gtt/min — consider a volumetric pump.
Mental check
~1 drop/sec = 60 gtt/min = 180 mL/hr
One drop per second is your practical upper limit.
< 10 gtt/min
Patency risk
Flow may be too slow — consider pump or concentrated formulation.
> 80 gtt/min
Too fast for gravity
Verify order — almost certainly requires a pump.
5 Common errors
| Error | Cause | Consequence | Fix |
|---|---|---|---|
| Wrong drop factor | Assuming all sets are 20 gtt/mL | Up to 4× dosing error — blood sets are 15, microdrip is 60 | Read the drop factor printed on every giving set packet |
| Time entered in minutes | Unit confusion | Rate 60× too fast | Convert to hours before entering (90 min = 1.5 hrs) |
| Rounding mid-calculation | Mental arithmetic shortcut | ±5 gtt/min compounding error on slow rates | Calculate full precision first, round only at the final answer |
| Gravity for high-alert meds | Pump unavailable | Inaccurate delivery of vasoactive/insulin infusions | High-alert medications must use a calibrated volumetric pump — never gravity |
6 Reference & regulatory links
7 Professional workflow
Common tools used alongside this one: