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Steel Structure Design For Oil And Gas Plant

Posted By: ELK1nG
Steel Structure Design For Oil And Gas Plant

Steel Structure Design For Oil And Gas Plant
Last updated 2/2021
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 3.25 GB | Duration: 6h 31m

Design of pipe rack , workshops and steel deck under vibrating machine

What you'll learn
How to deisgn piperack
To design the pipe rack for different loads like wind load
To designa steel deck under vibtrating loads
Full example to design crane tranck girder
Different between AISC and BS in design
How to design different steel members
Requirements
The student should have preliminary knowledge about structural engineering
Description
This course is illustarating the ways of design the steel structure  as per ASD and guide for LRFD in industrial project like piperack, workshop and others. The design of tension, compression member, beam, and beam column with the connections. The wind bracing design is discussed.  It is cover the anchor bolt and base plate design. For industrial structure a session about the pipe rack how to calculate  wind and seismic for piperack. There are a session about the dynamic analysis and present the design for steel deck under vibrating machines with example which is traditional case in most industrial projects.There are many example and excersise during the course. The course outline as follow:-Designn concept and overview about ASD , LRFD and AISC and BS-Different steel structure systems-Loads calculation (dead load, live load, wind, seismic)-Loads calculation on piperack as per ASEC-tension and compression member design with example-Beam design with example-Example of piperack design under wind load-Example for design a crane track girder-Example od deck under vibrating equioment-Beam column design with example-Dynamic analyis and example of steel deck under vibrating machine-Wind bracing system-Lateral torsion buckling and column buckling will be illustrated in a separate sessions-Connection design with example-Anchor bolt and base plate designThe course materials have a steel members from American and european table and the student should solve the example with both section and send for discussion.

Overview

Section 1: Introduction

Lecture 1 Introduction

Section 2: Difference between AISC , BS and EC

Lecture 2 AISC, BS, EC codes

Lecture 3 basis of design

Section 3: Loads calculation part1

Lecture 4 Loads calculation part1

Lecture 5 loads part2

Section 4: Pipe rack design

Lecture 6 Pipe rack design

Lecture 7 Pipe rack design part II

Section 5: how to design tension member

Lecture 8 how to design tension member

Section 6: How to design compression member

Lecture 9 How to design compression member

Section 7: How to design beam

Lecture 10 beam design part1

Lecture 11 beam Part II

Section 8: LTB and column buckling

Lecture 12 LTB and column buckling

Section 9: Beam column Part 1

Lecture 13 beam column design part1

Section 10: Beam column_Examples_part2

Lecture 14 Beam column_Examples_part2

Section 11: Steel deck under vibtaing machine

Lecture 15 dynamic analysis and example

Section 12: Wind bracing design

Lecture 16 Wind bracing design

Section 13: Connection Design

Lecture 17 Connection Design

Section 14: Anchor Bolt Design

Lecture 18 how to design anchor bolt for hinge support

Lecture 19 How to design anchor bolt for fixed support

Lecture 20 Select Anchor bolt materials

Lecture 21 how to design anchor bolt

The begginer and the high level