Module 3 Process Piping Hydraulics Sizing And Pressure Rating Pdf [verified] [ INSTANT 2025 ]

Total pressure drop = friction losses + static head + dynamic losses.

Pressure rating and piping class selection Total pressure drop = friction losses + static

This module focuses on the engineering principles required to determine the optimal pipe diameter and verify its mechanical integrity under pressure. It bridges the gap between process requirements (flow) and mechanical design (safety) CEDengineering.com 1. Process Piping Hydraulics Total pressure drop = friction losses + static

| NPS | OD (in) | Sch 40 ID (in) | Sch 80 ID (in) | Sch 160 ID (in) | |-----|---------|----------------|----------------|------------------| | 2 | 2.375 | 2.067 | 1.939 | 1.687 | | 4 | 4.500 | 4.026 | 3.826 | 3.438 | | 6 | 6.625 | 6.065 | 5.761 | 5.187 | Total pressure drop = friction losses + static