Piping Engineer is one of the famous engineering groups in the Oil & Gas, Petrochemical, Refinery, Chemical, Power-Plant, Steel, Water, and Pharmaceutical sectors. They are responsible for...
Category: Piping Stress Analysis
18 Major Differences between ASME B31.3 and B31.1 | B31.3 vs B31.1
What is ASME B31.3 or Process piping Code? ASME B31.3 or Process Piping Code provides rules for piping design for petroleum refineries; onshore and offshore petroleum and natural gas production...
Pipe Thickness Calculation of Straight Pipe under External Pressure/ Vacuum Pressure Condition
Piping systems under vacuum conditions, Jacketed Piping, Offshore pipelines, piping inside equipment, etc. are subjected to both internal as well as external pressure. Contrary to the internal...
Variable Spring Support Design without the aid of Caesar II Hanger Auxiliary
Variable Spring Hanger Supports are widely used in critical pipe systems for their load-bearing capability allowing thermal movements. In Caesar II, We can easily design a variable spring hanger...
Turbine Piping: Definition, Working Philosophy, Layout Consideration, Stress Analysis, NEMA SM 23
Turbine piping stress analysis is one of the most critical analyses in piping design. It is due to the following reasons Turbines are strain sensitive and have less allowable nozzle...
Pipe Thickness Calculation as per ASME B31.3 | Pipe Thickness Calculator
Pipe wall thickness calculation is one of the important basic activities for every piping engineer. Process plants deal with the fluids that flow inside the pipe at high pressure and temperature. So,...