Module 3 Process Piping Hydraulics Sizing And Pressure Rating Pdf May 2026
[ D_opt = 0.363 \cdot Q^0.45 \cdot \rho^0.13 ]
[ P_1 + \frac12\rho v_1^2 + \rho g z_1 = P_2 + \frac12\rho v_2^2 + \rho g z_2 + \Delta P_friction ] [ D_opt = 0
is the critical bridge between theoretical fluid mechanics and practical pipeline design. This module typically appears in certification courses (like those from NPTEL, ASME B31.3 training, or university process design programs). Engineers who master this module can design systems that are safe, cost-effective, and energy-efficient. In piping design, we convert pressure drops into
In piping design, we convert pressure drops into (meters or feet of fluid column). 1.3 Darcy-Weisbach Equation (The Core of Sizing) The primary equation for frictional pressure drop is: An empirical formula (Peters & Timmerhaus) gives a
Where ( C ) = empirical constant (100–200 for continuous service), ( \rho_m ) = mixture density (lb/ft³). For liquid piping systems, the optimal pipe diameter balances the cost of the pipe + installation against the lifetime cost of pumping. An empirical formula (Peters & Timmerhaus) gives a first estimate:
Try 6-inch Sch 40: ID = 6.065 in = 0.5054 ft. Area = 0.2006 ft². Velocity = (500 gpm * 0.002228 ft³/s/gpm) / 0.2006 = 5.55 ft/s (acceptable). Re = (62.4 * 5.55 * 0.5054) / (1 * 0.000672) = ~260,000 (turbulent). Friction factor f (from Moody, ε=0.00015 ft) ≈ 0.017. Head loss hf = 0.017 * (500/0.5054) * (5.55²/(2*32.2)) = 8.1 ft. ΔP = 8.1 ft * 0.433 psi/ft = 3.5 psi. That’s well under 15 psi. Try 4-inch Sch 40: ID = 4.026 in, v = 12.3 ft/s (high but possible). hf ≈ 26 ft → ΔP = 11.3 psi (acceptable). → Select 4-inch Sch 40.
| Fluid Type | Velocity Range (m/s) | Velocity Range (ft/s) | |------------|----------------------|------------------------| | Pump suction (low NPSH) | 0.6 – 1.5 | 2 – 5 | | Pump discharge (general) | 1.5 – 3.0 | 5 – 10 | | Steam (low pressure) | 20 – 40 | 65 – 130 | | Compressed air | 10 – 25 | 33 – 82 | | Erosive fluids (slurries) | < 3 | < 10 | | Corrosive fluids | < 1.5 | < 5 |