Most popular
B31.3 Process Piping
What you'll learn
Identify the responsibilities of personnel involved in the design, fabrication, assembly, erection, examination, inspection, and testing of process piping
Describe the scope and technical requirements of the ASME B31.3 Code
Apply and implement the quality requirements that are defined in the ASME B31.3 Code
Design of Bolted Flange Joints
What you'll learn
You Will Learn To
Develop an awareness of flange types and the ASME codes and standards applicable for bolted flange joint design
Enhance your knowledge for designing and analyzing bolted flange joints
Explain how the flange design interacts with bolts and gaskets to achieve a leak tight joint
Identify the parameters that can affect flange sealing along with methods to troubleshoot and remediate flange leakage
Fundamentals of Pumps and Their Selection for Optimum System Performance
What you'll learn
Calculate the pressure loss in a pipeline due to friction for circular and non circular ducts
Determine the pipe diameter that minimizes first plus operating costs of a piping system
Generate a system curve for a pipeline
Identify the testing methods used to obtain a performance map for a centrifugal pump
Employ the system curve to select an efficient centrifugal pump
Explain how to predict when cavitation will occur and identify the necessary steps to avoid it
Explain how to use dimensional analysis to correlate experimental data for a pump
Explain how the specific speed is determined
Apply affinity laws to predict off-design behavior for a pump
Identify types of positive displacement pumps
Examine common methods of measuring flow rate in a pipeline
Identify the types of meters available for flow rate measurement
Generate calibration curves for venturi, orifice, and elbow meters
Describe the different types of valves that are commercially available
Explain how to select the correct valve for a piping system
Identify and avoid problems by selecting the correct valve
Explain how to install, operate and maintain valves
Describe the process of diagnosing and troubleshooting valve problems
B31.8 Gas Transmission & Distribution Piping System
What you'll learn
Explain the causes and modes of pipeline failure
Describe the considerations for material specifications, pipe manufacturing, and pipe joining
Estimate pipeline stresses from external loading
Explain how to evaluate pipeline defects
Identify pipeline repair techniques
Identify the elements of pipeline integrity
Explain how code requirements address these issues
Explain the differences between B31.8 and US DOT gas pipeline regulations
Expert
Nuclear Piping Systems ASME BPV Code, Section III and ASME B31.1: Design, Integrity-Operability Assessment, and Repairs
6,000.00 EGP
Nuclear Piping Systems ASME BPV Code, Section III and ASME B31.1: Design, Integrity-Operability Assessment, and Repairs
What you'll learn
Describe Class 1, Class 2/3, and B31.1 nuclear piping design requirements
Explain the differences between Class 1, Class 2/3, and B31.1 Piping Systems
Describe the NRC regulatory requirements related to ASME III and B31.1 Piping Systems
Evaluate normal operating loads (pressure, weight, thermal expansion)
Evaluate postulated design loads (seismic, water hammer, vibration, pipe break, etc.)
Determine how to make the correct and cost-effective decisions in the design and modification of nuclear piping
Evaluate corroded (wall-thinning) nuclear piping
Evaluate crack-like flaws in nuclear piping
Assess operability of piping systems for abnormal conditions
Intermediate
Comparison of Global Quality Assurance & Management System Standards Used for Nuclear Application
6,000.00 EGP
Comparison of Global Quality Assurance & Management System Standards Used for Nuclear Application
What you'll learn
Describe the organization and scope of the ASME Section III Rules for Construction of Nuclear Facility Components
Identify ASME NQA-1 Nuclear Quality Assurance Standard contents and organization
Provide an overview of International Atomic Energy Agency (IAEA) Safety Standard GS-R-3, 2006-STI/PUB/1252
Describe the overview of ISO 9001-2008
Explain the practical application of these quality assurance requirements for the nuclear industry
B31.1 Power Piping
What you'll learn
Identify the difference between “Design by Rule” and “Design by Analysis” codes.
Discover the principal failure modes of piping components and where to look for them.
Recognize the difference between pressure component design and structural design.
Investigate the importance of piping flexibility.
Discuss how to develop stress intensification factors.
Recognize how to qualify nonstandard fittings and joints.
Identify materials selection and limitations, fabrication rules and their bases
Explain welding qualification requirements, inspection, examination, and testing requirements
Identify the Code requirements for power piping maintenance
Featured
Intermediate
ASME BPV Code, Section VIII, Division 2: Design & Fabrication of Pressure Vessels
4,800.00 EGP
ASME BPV Code, Section VIII, Division 2: Design & Fabrication of Pressure Vessels
What you'll learn
Explain how the requirements of Divisions 1 and 2 of Section VIII compare
Explain the theories of failure and design margins of various codes
Identify the general requirements of the new Division 2
Describe design rules and stress analysis methods
Explain fatigue analysis
Identify materials and fabrication requirements
Identify NDE requirements, pressure testing, and pressure relief requirements
Trending
B31.3 Process Piping
What you'll learn
Identify the responsibilities of personnel involved in the design, fabrication, assembly, erection, examination, inspection, and testing of process piping
Describe the scope and technical requirements of the ASME B31.3 Code
Apply and implement the quality requirements that are defined in the ASME B31.3 Code
Design of Bolted Flange Joints
What you'll learn
You Will Learn To
Develop an awareness of flange types and the ASME codes and standards applicable for bolted flange joint design
Enhance your knowledge for designing and analyzing bolted flange joints
Explain how the flange design interacts with bolts and gaskets to achieve a leak tight joint
Identify the parameters that can affect flange sealing along with methods to troubleshoot and remediate flange leakage
B31.8 Gas Transmission & Distribution Piping System
What you'll learn
Explain the causes and modes of pipeline failure
Describe the considerations for material specifications, pipe manufacturing, and pipe joining
Estimate pipeline stresses from external loading
Explain how to evaluate pipeline defects
Identify pipeline repair techniques
Identify the elements of pipeline integrity
Explain how code requirements address these issues
Explain the differences between B31.8 and US DOT gas pipeline regulations
Fundamentals of Pumps and Their Selection for Optimum System Performance
What you'll learn
Calculate the pressure loss in a pipeline due to friction for circular and non circular ducts
Determine the pipe diameter that minimizes first plus operating costs of a piping system
Generate a system curve for a pipeline
Identify the testing methods used to obtain a performance map for a centrifugal pump
Employ the system curve to select an efficient centrifugal pump
Explain how to predict when cavitation will occur and identify the necessary steps to avoid it
Explain how to use dimensional analysis to correlate experimental data for a pump
Explain how the specific speed is determined
Apply affinity laws to predict off-design behavior for a pump
Identify types of positive displacement pumps
Examine common methods of measuring flow rate in a pipeline
Identify the types of meters available for flow rate measurement
Generate calibration curves for venturi, orifice, and elbow meters
Describe the different types of valves that are commercially available
Explain how to select the correct valve for a piping system
Identify and avoid problems by selecting the correct valve
Explain how to install, operate and maintain valves
Describe the process of diagnosing and troubleshooting valve problems
B31.1 Power Piping
What you'll learn
Identify the difference between “Design by Rule” and “Design by Analysis” codes.
Discover the principal failure modes of piping components and where to look for them.
Recognize the difference between pressure component design and structural design.
Investigate the importance of piping flexibility.
Discuss how to develop stress intensification factors.
Recognize how to qualify nonstandard fittings and joints.
Identify materials selection and limitations, fabrication rules and their bases
Explain welding qualification requirements, inspection, examination, and testing requirements
Identify the Code requirements for power piping maintenance
Expert
Nuclear Piping Systems ASME BPV Code, Section III and ASME B31.1: Design, Integrity-Operability Assessment, and Repairs
6,000.00 EGP
Nuclear Piping Systems ASME BPV Code, Section III and ASME B31.1: Design, Integrity-Operability Assessment, and Repairs
What you'll learn
Describe Class 1, Class 2/3, and B31.1 nuclear piping design requirements
Explain the differences between Class 1, Class 2/3, and B31.1 Piping Systems
Describe the NRC regulatory requirements related to ASME III and B31.1 Piping Systems
Evaluate normal operating loads (pressure, weight, thermal expansion)
Evaluate postulated design loads (seismic, water hammer, vibration, pipe break, etc.)
Determine how to make the correct and cost-effective decisions in the design and modification of nuclear piping
Evaluate corroded (wall-thinning) nuclear piping
Evaluate crack-like flaws in nuclear piping
Assess operability of piping systems for abnormal conditions
Intermediate
Comparison of Global Quality Assurance & Management System Standards Used for Nuclear Application
6,000.00 EGP
Comparison of Global Quality Assurance & Management System Standards Used for Nuclear Application
What you'll learn
Describe the organization and scope of the ASME Section III Rules for Construction of Nuclear Facility Components
Identify ASME NQA-1 Nuclear Quality Assurance Standard contents and organization
Provide an overview of International Atomic Energy Agency (IAEA) Safety Standard GS-R-3, 2006-STI/PUB/1252
Describe the overview of ISO 9001-2008
Explain the practical application of these quality assurance requirements for the nuclear industry
Featured
Intermediate
ASME BPV Code, Section VIII, Division 2: Design & Fabrication of Pressure Vessels
4,800.00 EGP
ASME BPV Code, Section VIII, Division 2: Design & Fabrication of Pressure Vessels
What you'll learn
Explain how the requirements of Divisions 1 and 2 of Section VIII compare
Explain the theories of failure and design margins of various codes
Identify the general requirements of the new Division 2
Describe design rules and stress analysis methods
Explain fatigue analysis
Identify materials and fabrication requirements
Identify NDE requirements, pressure testing, and pressure relief requirements
Featured Courses
Featured
ASME BPV Code, Section VIII, Division 2: Design & Fabrication of Pressure Vessels
This introductory course describes the use of alternative rules for …
ASME BPV Code, Section VIII, Division 2: Design & Fabrication of Pressure Vessels
What you'll learn
Explain how the requirements of Divisions 1 and 2 of Section VIII compare
Explain the theories of failure and design margins of various codes
Identify the general requirements of the new Division 2
Describe design rules and stress analysis methods
Explain fatigue analysis
Identify materials and fabrication requirements
Identify NDE requirements, pressure testing, and pressure relief requirements
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All ASME Standards Course Courses
Nuclear Piping Systems ASME BPV Code, Section III and ASME B31.1: Design, Integrity-Operability Assessment, and Repairs
Apply ASME Section III, Division 1, Subsections NB/NC/ND to the …
What you'll learn
Describe Class 1, Class 2/3, and B31.1 nuclear piping design requirements
Explain the differences between Class 1, Class 2/3, and B31.1 Piping Systems
Describe the NRC regulatory requirements related to ASME III and B31.1 Piping Systems
Evaluate normal operating loads (pressure, weight, thermal expansion)
Evaluate postulated design loads (seismic, water hammer, vibration, pipe break, etc.)
Determine how to make the correct and cost-effective decisions in the design and modification of nuclear piping
Evaluate corroded (wall-thinning) nuclear piping
Evaluate crack-like flaws in nuclear piping
Assess operability of piping systems for abnormal conditions
