This application uses the Darcy-Weisbach equation to calculate liquid velocity in a pipe. The Darcy-Weisbach equation describes the relationship between the pressure loss and liquid velocity in a pipe.
*******For Pro Version*******
More Pipe Material:
- Black Steel Pipe (Sch 40, 80)
- Galvanized Steel Pipe (Sch 40, 80)
- Stainless Steel Pipe (Sch 5s, 10s, 40s, 80s)
- PVC (Sch 40, 80)
- Copper (Type M, L, K)
- PP-R pipe (SDR6 ,7.4, 11)
More Fluid Type
- Water (0°C - 100°C)
- Sea Water (10°C , 20°C)
- Ammonia (NH3)@10 Bar (0°C, 10°C, 20°C)
- Gasoline (typical) 20°C
- Acetic acid 20°C
- Acetone 20°C
Pipe Size Ø8 - Ø600 mm (Ø1/4" to Ø24")
Calculate Minor loss from pipe fitting using K-coefficient
*******For Pro Version*******
More Pipe Material:
- Black Steel Pipe (Sch 40, 80)
- Galvanized Steel Pipe (Sch 40, 80)
- Stainless Steel Pipe (Sch 5s, 10s, 40s, 80s)
- PVC (Sch 40, 80)
- Copper (Type M, L, K)
- PP-R pipe (SDR6 ,7.4, 11)
More Fluid Type
- Water (0°C - 100°C)
- Sea Water (10°C , 20°C)
- Ammonia (NH3)@10 Bar (0°C, 10°C, 20°C)
- Gasoline (typical) 20°C
- Acetic acid 20°C
- Acetone 20°C
Pipe Size Ø8 - Ø600 mm (Ø1/4" to Ø24")
Calculate Minor loss from pipe fitting using K-coefficient
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