SE0036 : Dynamic Analysis for Foundations & Steel Structure Under Vibrating Machines

 This practical and highly-interactive course includes various practical sessions and exercises. Theory learnt will be applied using our state-of-the-art simulators. 

In most industrial projects as petroleum industry in general and power generation and also refinery projects. There are many structures affecting by dynamic load due to machines. The design management procedure for industrial projects will be clarified. All the load that affects the structure building in oil and gas facilities will be illustrated. 

The principal of dynamic analysis will be discussed in detail. This course will focus also about the design of steel structure withstand machines and design foundation under vibrating machines. The dynamic analysis techniques and piperack design against load shall be presented in addition to the most practical aspects for different international specification and standard. 

 

This course is designed to provide participants with a detailed and up-to-date overview of dynamic analysis for foundations and steel structure under vibrating machines. It covers the fundamental of dynamic analysis; the design management process and controlling the design of the industrial projects; the load on the industrial structure; the dynamic loads behaviour and fundamental of dynamic analysis; the soil investigation, dynamic analysis methods, SDOF procedure and MDOF procedure; and the design of foundation under vibrating machine. 

During this interactive course, participants will learn the interface between rotating equipment team and civil team; the design of steel deck under power turbine generator; the foundation design guideline; the examples of design foundation under gas compressor with power turbine and the design foundation under reciprocating machines; the pipe rack design, pipe rack configuration, loads on the piperack and design piperack under wind load; the interface between piping engineering and pipe rack; the dynamic analysis method; and the design procedure and structure natural frequency calculation.