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Static Equipment Design
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About Static Equipment Design Engineering
Static Equipment Design Engineering is the field where engineers design the major mechanical equipment used in industrial plants. These are non‑moving equipment such as pressure vessels, columns, reactors, heat exchangers, and filters. These items handle high pressure, high temperature, and critical process conditions, so their design must be safe, strong, and reliable.
Static equipment engineers work with design codes, material selection, thickness calculations, nozzle design, welding requirements, and fabrication drawings. They prepare mechanical datasheets, design calculations, GA drawings, and vendor specifications to ensure the equipment performs well throughout its life.
This field requires knowledge of mechanical design, material strength, safety standards, and practical fabrication/inspection experience. In oil & gas, chemical, and power plants, static equipment design is extremely important because these equipment form the core of the process units.
This course helps learners understand modern design tools, international codes, and real project workflows used in EPC companies and fabrication industries.
Importance of Static Equipment Design in the Oil & Gas Sector
Static equipment is the backbone of every oil & gas and chemical plant. These equipment handle critical operations such as separation, reaction, heating, cooling, and storage of process fluids. A strong mechanical design ensures that the equipment can safely withstand pressure, temperature, corrosion, vibration, and external loads.
Good static equipment design helps prevent failures like leakage, rupture, buckling, or fatigue cracks. It ensures long‑term reliability and reduces maintenance costs. Engineers must follow strict international standards such as ASME Section VIII, TEMA, IS, and company specifications to design safe and durable equipment.
Proper design also improves plant safety, supports smooth fabrication, reduces project delays, and ensures trouble‑free commissioning. Without strong static equipment engineering, no refinery, petrochemical plant, or gas processing facility can operate safely or meet production requirements.
What Will You Learn?
- Introduction to Static Equipment Design
- Understanding Design Codes and Standards ASME TEMA
- Pressure Vessel Design Basics
- Column and Reactor Mechanical Design
- Heat Exchanger Mechanical Design
- Filter Design Concepts
- Material Selection and Thickness Calculations
- Nozzle Design Flange Design and Welding Requirements
- Preparation of Mechanical Datasheets and Design Reports
- Fabrication Drawings and Vendor Document Review
- Inspection Testing and Quality Requirements
- Coordination with Other Engineering Disciplines
Training Schedule
Regular Batch: 7 PM to 9 PM (Monday to Friday)
Weekend Batch: Saturday: 10 am to 2 pm
Training Mode: Online Live
Training Platform: Microsoft Teams
Who is this course for
- Mechanical Engineers
- Chemical Engineers interested in mechanical design
- Production / Maintenance Engineers working in process plants
- Any Graduate who wants to enter the mechanical design field
- Diploma: Mechanical / Chemical
- ITI: Fitter / Draughtsman (Mechanical)
- Working professionals who want to upgrade their skills in static equipment design
- Engineers involved in fabrication, inspection, or quality control of pressure vessels and heat exchangers
- Professionals planning to shift from operations/maintenance to design roles
- 1 Section
- 0 Lessons
- 100 Hours
Expand all sectionsCollapse all sections
- Static Equipment Design
Overview:
Introduction of Electrical Engineering
Introduction of EPC Industry
Coordination with Other Department
Pressure Vessel (ASME SEC VIII, DIV.1)
Maximum Allowable Stress Values (UG-23)
Shell Design for Internal Pressure (UG-16, UG-27, Appendix 1-2)
Dished End Design for Internal Pressure (UG-32)
Shell Design for External Pressure (UG-28, UG-29, UG-30)
Dished End Design for External Pressure (UG-33)
Hydrotest Pressure / Pneumatic Test (UG-99, UG-100)
Wind Load (IS-875 Part 3), Seismic Load (IS-1893 Part 1 & 4)
Combined Loading Effect, Conical & Toriconical Section Analysis (UG-32, UG-33, Appendix 1-5 & 1-8)
Weight Calculation, Openings (Nozzles) (UG-36 to UG-45 & Appendix 1-7)
Local Load (WRC 107 & 297), MDMT & Impact Test Enigma (UCS-66)
Lifting & Tailing Lug Analysis, Support Analysis (Skirt, Leg, Saddle)
Joint Efficiency, MAWP, MAP, SR of Dished End for Forming Operation, PWHT (UCS-56)
Heat Exchanger:
Heat exchanger types, classification, categories, and nomenclature as per TEMA
Geometrical configuration as per TEMA & EIL studies / good engineering practice
Thermal design know-how
Mechanical design as per TEMA & UHX (ASME)
0
Price
₹30,000.00
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Featured Review
Static Equipment Design Engineering is the field where engineers design the major mechanical equipment used in industrial plants.
Static Equipment Design
Description
About Static Equipment Design Engineering
Static Equipment Design Engineering is the field where engineers design the major mechanical equipment used in industrial plants. These are non‑moving equipment such as pressure vessels, columns, reactors, heat exchangers, and filters. These items handle high pressure, high temperature, and critical process conditions, so their design must be safe, strong, and reliable.
Static equipment engineers work with design codes, material selection, thickness calculations, nozzle design, welding requirements, and fabrication drawings. They prepare mechanical datasheets, design calculations, GA drawings, and vendor specifications to ensure the equipment performs well throughout its life.
This field requires knowledge of mechanical design, material strength, safety standards, and practical fabrication/inspection experience. In oil & gas, chemical, and power plants, static equipment design is extremely important because these equipment form the core of the process units.
This course helps learners understand modern design tools, international codes, and real project workflows used in EPC companies and fabrication industries.
Importance of Static Equipment Design in the Oil & Gas Sector
Static equipment is the backbone of every oil & gas and chemical plant. These equipment handle critical operations such as separation, reaction, heating, cooling, and storage of process fluids. A strong mechanical design ensures that the equipment can safely withstand pressure, temperature, corrosion, vibration, and external loads.
Good static equipment design helps prevent failures like leakage, rupture, buckling, or fatigue cracks. It ensures long‑term reliability and reduces maintenance costs. Engineers must follow strict international standards such as ASME Section VIII, TEMA, IS, and company specifications to design safe and durable equipment.
Proper design also improves plant safety, supports smooth fabrication, reduces project delays, and ensures trouble‑free commissioning. Without strong static equipment engineering, no refinery, petrochemical plant, or gas processing facility can operate safely or meet production requirements.
What Will You Learn?
- Introduction to Static Equipment Design
- Understanding Design Codes and Standards ASME TEMA
- Pressure Vessel Design Basics
- Column and Reactor Mechanical Design
- Heat Exchanger Mechanical Design
- Filter Design Concepts
- Material Selection and Thickness Calculations
- Nozzle Design Flange Design and Welding Requirements
- Preparation of Mechanical Datasheets and Design Reports
- Fabrication Drawings and Vendor Document Review
- Inspection Testing and Quality Requirements
- Coordination with Other Engineering Disciplines
Training Schedule
Regular Batch: 7 PM to 9 PM (Monday to Friday)
Weekend Batch: Saturday: 10 am to 2 pm
Training Mode: Online Live
Training Platform: Microsoft Teams
Who is this course for
- Mechanical Engineers
- Chemical Engineers interested in mechanical design
- Production / Maintenance Engineers working in process plants
- Any Graduate who wants to enter the mechanical design field
- Diploma: Mechanical / Chemical
- ITI: Fitter / Draughtsman (Mechanical)
- Working professionals who want to upgrade their skills in static equipment design
- Engineers involved in fabrication, inspection, or quality control of pressure vessels and heat exchangers
- Professionals planning to shift from operations/maintenance to design roles
Curriculum
- 1 Section
- 0 Lessons
- 100 Hours
Expand all sectionsCollapse all sections
- Static Equipment Design
Overview:
Introduction of Electrical Engineering
Introduction of EPC Industry
Coordination with Other Department
Pressure Vessel (ASME SEC VIII, DIV.1)
Maximum Allowable Stress Values (UG-23)
Shell Design for Internal Pressure (UG-16, UG-27, Appendix 1-2)
Dished End Design for Internal Pressure (UG-32)
Shell Design for External Pressure (UG-28, UG-29, UG-30)
Dished End Design for External Pressure (UG-33)
Hydrotest Pressure / Pneumatic Test (UG-99, UG-100)
Wind Load (IS-875 Part 3), Seismic Load (IS-1893 Part 1 & 4)
Combined Loading Effect, Conical & Toriconical Section Analysis (UG-32, UG-33, Appendix 1-5 & 1-8)
Weight Calculation, Openings (Nozzles) (UG-36 to UG-45 & Appendix 1-7)
Local Load (WRC 107 & 297), MDMT & Impact Test Enigma (UCS-66)
Lifting & Tailing Lug Analysis, Support Analysis (Skirt, Leg, Saddle)
Joint Efficiency, MAWP, MAP, SR of Dished End for Forming Operation, PWHT (UCS-56)
Heat Exchanger:
Heat exchanger types, classification, categories, and nomenclature as per TEMA
Geometrical configuration as per TEMA & EIL studies / good engineering practice
Thermal design know-how
Mechanical design as per TEMA & UHX (ASME)
0
Instructor
0 Students26 Courses
Reviews
Price
₹30,000.00
Get unlimited access to all learning content and premium assets Membership Pro
Featured Review
Static Equipment Design Engineering is the field where engineers design the major mechanical equipment used in industrial plants.
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