The design management procedure for industrial projects will be clarified. All the load that affect the structure building in oil and gas facilities will be illustrated. The concrete and steel structure design principal will be illustrated to select the suitable structure system. The materials response and characteristics will be discussed in the course. The CFRP design principal will be discussed to resist the building against the blast load. The integrity management system procedure will be illustrated taking into consideration the major factors in design, construction and repair to maintain the concrete structure economically in all its lifetime
The participants will be provided with detailed course material and will be familiarized with suitable way in concrete design in industrial structure. The engineer will be familiar with any problem and its solution in the concrete structure in the petrochemical industry and its causes of failure.
- Familiarize participants with the issues, standards, and procedures used to design structures that resist blast loads.
- Provide participants with in-depth knowledge of the principles of dynamic analysis.
- Develop basic competence in the use of available engineering methods for calculating blast loads
- Dynamic structural response.
- Provide an overview of the design approach used for typical
- construction materials (steel, concrete, masonry),
- Systems (shear walls and frames), non-structural components (doors and windows).
- Some tips for designing structures subjected to progressive collapse and rehabilitation techniques for existing buildings.
Day 1
- Design Management process
- Control the design of the industrial projects
- Define the load on the industrial structure
- BS and ACI code in design of concrete
Day 2
- Reason for blast load
- Blast load effect and calculation
- Pressure Vs time Characteristic
- Load combination with blast load
- Joints ductility / response to blast loads
- Special detailing of Blast Resistant structures
- Fragment impact , positive/negative phase duration.
- Behavior of structural members / damages forecast .
- Progressive collapse
Day 3
- Dynamic material strength
- Materials and structure element type.
- Dynamic materials
- Deformation limits
- Dynamic increase factor
- Elastic , Elasto-Plastic & Plastic deformation due to blast loads
- Inspection and maintenance plan
- Evaluation of existing structure
Day 4
- Dynamic analysis method
- Design procedure
- Typical detail for the connection
- Upgrade existing building
- Workshop for case study concrete structure
- Workshop for steel structure
- Workshop for masonry structure
- Construction precaution to achieve design requirement
Day 5
- The inspection and monitoring procedure to control the construction
- CFRP principal and design
- Doors and walls resistance specs to resist blast load
- Advanced materials for protection
- Precaution in control room design
This course is designed for construction civil and structural and project engineers