🔧 Plumbing

Pipe Sizing Calculator

Size water supply pipes for buildings using fixture unit method. Calculate pipe diameter based on demand units per IS 1172 and NBC 2016 Part 9.

📐 Standard: IS 1172 / NBC 2016 Part 9
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ℹ️ About This Calculator

Proper pipe sizing ensures adequate water flow to all fixtures without excessive velocity or pressure drop. This calculator uses the fixture unit method to aggregate demand, applies diversity through probability of simultaneous use, and selects pipe diameter based on velocity limits per IS 1172 (Basic Requirements of Water Supply) and NBC 2016 Part 9.

IS 1172 and NBC 2016 Part 9 govern plumbing design for buildings in India. The fixture unit method aggregates all connected fixtures into a design demand that accounts for the probability that not all fixtures operate simultaneously. Key velocity limits prevent water hammer, noise, and erosion. Minimum residual pressure: 1.0 bar at highest/furthest fixture. Pipe materials: CPVC (IS 15778) or uPVC (IS 4985) for cold water; CPVC or PPR for hot water.

📐 Pipe Sizing by Fixture Unit Method

IS 1172 / NBC 2016 Part 9

Total Fixture Units (FU):
  WC cistern = 8 FU; WC flush valve = 10 FU
  Wash basin = 1 FU; Bath tub = 4 FU; Shower = 2 FU
  Kitchen sink = 3 FU; Dishwasher = 1.5 FU

Design Flow (from FU):
  Q = 0.25 × FU^0.5  (Hunter's curve approximation for >12 FU)

Pipe Velocity Check:
  V = Q / A; A = π/4 × D²
  Limit: V ≤ 2.5 m/s (supply); V ≤ 3.0 m/s (mains)

Pressure Drop (Hazen-Williams):
  hf = 10.67 × Q^1.852 / (C^1.852 × D^4.87) × L

Frequently Asked Questions

What is the maximum velocity allowed in water supply pipes? +
Per NBC 2016: 2.5 m/s for branch pipes and risers, 3.0 m/s for mains. Higher velocities cause noise (flow noise above 2.5 m/s), water hammer when valves close, and accelerated erosion in copper/metal pipes. For hot water systems, limit to 2.0 m/s to reduce corrosion. PVC and CPVC pipes: 1.5–2.0 m/s recommended to prevent surge damage.
What Hazen-Williams C value should I use? +
C = 150: new PVC, CPVC, PE pipes. C = 140: new copper, stainless steel. C = 130: new galvanised steel. C = 120: new cast iron. For aged pipes: C = 110–120 for 10-year-old metal pipes; C = 100 for 20+ year old galvanised (scale buildup). Always design with aged C values for long-term performance. Using C = 130 for all materials is a conservative approach.
Do I need separate hot and cold water pipe sizing? +
Yes. Hot and cold water systems have different flow patterns. Cold water serves all fixtures; hot water serves only fixtures with hot connections (not WCs, outdoor taps). The hot water distribution pipe runs separately from the cold supply. For large buildings, hot water recirculation loops are sized to limit heat loss (maximum 6°C temperature drop allowed per NBC 2016).
What is the minimum pipe size for a residential supply line? +
NBC 2016 specifies: individual flat connection – minimum 20 mm (3/4"); building main supply – minimum 25 mm (1") for up to 4 flats; 40 mm for 5–12 flats; 50 mm for 13–24 flats; larger for more. Minimum 15 mm (1/2") pipe to any individual fixture. These are minimums – actual sizing must be confirmed by the fixture unit calculation.
How do I account for future expansion in pipe sizing? +
Size main risers and building supply mains for 25–30% extra capacity beyond current demand. Use the next commercial pipe size up for the main building entry. Install full-bore isolation valves at each branch takeoff to allow future extension. Document as-built pipe sizes and peak pressures for future designers. Oversizing mains is cheap insurance; undersizing is expensive to fix later.

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⚠️ Disclaimer: For preliminary engineering design only. Verify all results with a licensed engineer before use. Full disclaimer →

🔧 Pipe Sizing Calculator
Reference: IS 1172 / NBC 2016 Part 9