ASME V 2019 Brief information about NDT presentation This is the brief discussion and information about Non distructive testing and its acceptance criteria and rejection criteria
This document provides the 2021 edition of the ASME Boiler and Pressure Vessel Code Section V, which contains requirements and guidelines for nondestructive examination methods. It defines terms related to nondestructive examination and outlines qualification requirements for personnel. The document establishes general requirements for equipment, procedures, calibration, examinations, evaluations, and documentation for various nondestructive examination methods like radiography, ultrasonics, and real-time radioscopy. Appendices provide additional details for specific nondestructive examination methods and exceptions to other industry standards.
The document discusses weld defect acceptance criteria according to different codes such as ASTM B31.1, ASME VIII, ASME B31.3, and AWS D1.1. It provides details on acceptance limits for various weld defects depending on the examination method, material thickness, loading conditions, and material application. Defects discussed include cracks, lack of fusion, incomplete penetration, undercuts, porosity, and reinforcement. Acceptance criteria include maximum defect sizes, numbers of defects allowed, cumulative lengths of defects, and distances between defects.
This document provides information on the essential variables and requirements for welder qualification according to ASME Section IX. It lists the key variables that must be specified for a welder qualification, including welding process, type, base metal, filler metal, and weld thickness limits. It also outlines the qualification requirements and limitations for weld position, diameter, progression, backing, and which filler and base metals a welder is qualified to use based on their test.
This document summarizes the ASME PCC-2 standard for nonmetallic repairs of pipes and pipelines. It discusses the development history and contents of Part 4, including the qualification of materials, design calculations, installation requirements, and installer certification process. The presentation provides an overview of the standard's approach to repairs of both non-leaking and leaking pipes using composite materials and its goals for future enhancements.
This document provides a summary of Module 7, which covers Weld Procedure Qualification according to ASME Section IX. It discusses the 5 step process for qualifying a welding procedure and the variables that must be addressed in the Procedure Qualification Record (PQR). These include joint design, base metal, filler metal, position, preheat, post-weld heat treatment, gas, and electrical characteristics. An example procedure qualification is provided for a manual GTAW and GMAW weld on 0.75-inch thick A36 steel in the flat position, with no preheat or PWHT, using ER80S-D2 wire for GTAW and ER70S-6 wire for GMAW
The document provides an overview of the ASME B31.3 Process Piping Code. It discusses the code's philosophy, organization, history, scope, fluid service categories, and application. Key points include that B31.3 applies to process piping systems in chemical, petroleum, and other plants. It covers piping for various fluids and has specific requirements for Category M and high pressure fluid services. The code is organized into chapters that address design, materials, components, fabrication, inspection, and other topics.
Welding Procedure Specification and Welder approval based on
AWS D.1.1: Structural Steel Welding Code
ASME IX: Welding and Brazing Qualifications
API 1104: Welding of Pipelines
Twi cswip welding inspection notes and questionsThang Do Minh
The document discusses the duties of a welding inspector, including visual inspection of welds to identify defects and ensure they meet acceptance criteria. It describes tools that can aid inspection like magnification lenses. It outlines a code of practice for an inspection department, including checking documents, materials, equipment and welder qualifications before welding, monitoring the welding process and variables during welding, and inspecting the final weld for defects, dimensions and heat treatment after welding. Repairs should follow an authorized procedure and be re-inspected upon completion.
This document provides the 2021 edition of the ASME Boiler and Pressure Vessel Code Section V, which contains requirements and guidelines for nondestructive examination methods. It defines terms related to nondestructive examination and outlines qualification requirements for personnel. The document establishes general requirements for equipment, procedures, calibration, examinations, evaluations, and documentation for various nondestructive examination methods like radiography, ultrasonics, and real-time radioscopy. Appendices provide additional details for specific nondestructive examination methods and exceptions to other industry standards.
The document discusses weld defect acceptance criteria according to different codes such as ASTM B31.1, ASME VIII, ASME B31.3, and AWS D1.1. It provides details on acceptance limits for various weld defects depending on the examination method, material thickness, loading conditions, and material application. Defects discussed include cracks, lack of fusion, incomplete penetration, undercuts, porosity, and reinforcement. Acceptance criteria include maximum defect sizes, numbers of defects allowed, cumulative lengths of defects, and distances between defects.
This document provides information on the essential variables and requirements for welder qualification according to ASME Section IX. It lists the key variables that must be specified for a welder qualification, including welding process, type, base metal, filler metal, and weld thickness limits. It also outlines the qualification requirements and limitations for weld position, diameter, progression, backing, and which filler and base metals a welder is qualified to use based on their test.
This document summarizes the ASME PCC-2 standard for nonmetallic repairs of pipes and pipelines. It discusses the development history and contents of Part 4, including the qualification of materials, design calculations, installation requirements, and installer certification process. The presentation provides an overview of the standard's approach to repairs of both non-leaking and leaking pipes using composite materials and its goals for future enhancements.
This document provides a summary of Module 7, which covers Weld Procedure Qualification according to ASME Section IX. It discusses the 5 step process for qualifying a welding procedure and the variables that must be addressed in the Procedure Qualification Record (PQR). These include joint design, base metal, filler metal, position, preheat, post-weld heat treatment, gas, and electrical characteristics. An example procedure qualification is provided for a manual GTAW and GMAW weld on 0.75-inch thick A36 steel in the flat position, with no preheat or PWHT, using ER80S-D2 wire for GTAW and ER70S-6 wire for GMAW
The document provides an overview of the ASME B31.3 Process Piping Code. It discusses the code's philosophy, organization, history, scope, fluid service categories, and application. Key points include that B31.3 applies to process piping systems in chemical, petroleum, and other plants. It covers piping for various fluids and has specific requirements for Category M and high pressure fluid services. The code is organized into chapters that address design, materials, components, fabrication, inspection, and other topics.
Welding Procedure Specification and Welder approval based on
AWS D.1.1: Structural Steel Welding Code
ASME IX: Welding and Brazing Qualifications
API 1104: Welding of Pipelines
Twi cswip welding inspection notes and questionsThang Do Minh
The document discusses the duties of a welding inspector, including visual inspection of welds to identify defects and ensure they meet acceptance criteria. It describes tools that can aid inspection like magnification lenses. It outlines a code of practice for an inspection department, including checking documents, materials, equipment and welder qualifications before welding, monitoring the welding process and variables during welding, and inspecting the final weld for defects, dimensions and heat treatment after welding. Repairs should follow an authorized procedure and be re-inspected upon completion.
The document summarizes ASME Section VIII Division 1 code requirements for material identification, repair of material defects, Charpy impact testing of production test coupons, weld joint categories, radiographic and ultrasonic examination, welding requirements, and acceptance standards for non-destructive examination. Key points include requirements for original material markings, testing procedures that vary based on joint category and position, examination types based on joint size and material thickness, welder identification, pre-welding surface preparation, and imperfection acceptance criteria.
Peaking and banding refer to the roundness and straightness of shell plates around vertical and horizontal joints in storage tanks. Peaking is measured using a horizontal sweep board along vertical joints, while banding is measured using a vertical sweep board along horizontal joints. Acceptance criteria per API standards allow for peaking deviations of up to 13 mm and banding deviations of up to 13 or 25 mm depending on the standard. Proper measurement procedures involve visually inspecting the tank, positioning the sweep board accurately, and taking measurements at a minimum of 8 locations around the tank circumference.
This document provides standards for reference radiographs used to evaluate steel castings up to 2 inches thick. It includes:
1. An overview of the scope and purpose of the reference radiographs, which illustrate various types and severity levels of discontinuities commonly found in steel castings.
2. Descriptions of the categories and types of discontinuities represented, including gas porosity, inclusions, shrinkage, cracks, tears, and mottling. The discontinuities are graded on a scale of 1 to 5 based on their quantity, size, and distribution.
3. Procedures for how to use the reference radiographs to evaluate production radiographs and determine whether castings meet specified radi
Este documento establece los requisitos para la calificación de procedimientos y soldadores de soldadura estructural de acero. Se especifican los requisitos generales, la especificación del procedimiento de soldadura, y la calificación del rendimiento del soldador. Incluye detalles sobre los tipos de soldadura, pruebas requeridas, variables esenciales y duración de la calificación.
This document provides information about the CSWIP 3.1 Welding Inspector course and certification from TWI Ltd. The course covers a wide range of welding inspection and quality topics through lectures and provides exam assessment to obtain the CSWIP 3.1 Welding Inspector certification. The certification is valid for 5 years, after which a CV assessment or renewal exam is required to maintain certification. The CSWIP program has three levels of welding inspector certification.
This document summarizes Saudi Aramco's approval of revised welding procedure specifications (WPS) submitted by Larsen & Toubro for fabrication work on the Hasbah II project. Saudi Aramco had previously approved the listed WPSs at Status 2 but is now approving the revised versions. The approvals allow fabrication to proceed using the new WPSs without need for resubmission unless further technical changes are required. The document provides details on the contractor, project, and approved WPS revisions.
Especificación de procedimiento de soldaduraDavid Lunar
Este documento establece los requisitos para la especificación de procedimientos de soldadura (EPS) de acuerdo con el Reglamento CIRSOC 304. Describe dos tipos de EPS, precalificada y calificada. Para las EPS precalificadas, especifica los procesos, metales base y de aporte permitidos, así como las temperaturas mínimas de precalentamiento. También proporciona una tabla con la selección del metal de aporte en función del grupo y requisitos del metal base.
The document outlines the duties and responsibilities of a Senior Welding Inspector. It discusses that the role requires strong leadership, technical, and managerial skills. Some key responsibilities include managing inspection teams, providing guidance to inspectors, making technical decisions, planning inspections, and ensuring work is completed on time and to budget. Senior Welding Inspectors must have in-depth knowledge of welding technology, quality standards, and the ability to audit work and evaluate non-destructive testing reports. Strong communication, organization, and people management skills are also important to motivate personnel and ensure high morale is maintained throughout inspection projects.
This document provides an overview and introduction to ASME Section VIII Division 1, which establishes rules for the construction of pressure vessels. It discusses the historical context that led to the development of pressure vessel codes, an overview of ASME's codes and standards, key definitions, and the design requirements and considerations specified in Section VIII Division 1. The document covers topics such as material selection, corrosion allowances, minimum thickness requirements, design pressure, and loadings that must be considered in pressure vessel design.
This document provides an introduction to ASME Section IX, which establishes general guidelines for welding procedure and welder performance qualifications. It discusses the requirements for qualifying welding procedures using procedure qualification records (PQRs) and welding procedure specifications (WPSs). The key points covered include:
- ASME Section IX covers the qualification of welding and brazing procedures.
- Welding procedure qualifications demonstrate that a set of welding variables can reliably produce sound welds.
- WPSs and PQRs are used to document and qualify welding procedures. A WPS must be supported by a qualified PQR to be used for production.
It also summarizes the classification of base metals using 'P' numbers,
The document provides guidance for welding inspectors taking the CSWIP 3.1 practical examination. It outlines the requirements for conducting visual inspections of plate and pipe test welds, including completing thumbprint sketches and final reports. Candidates must observe and report all imperfections, take accurate measurements, and compare their findings to code acceptance criteria. The document reviews welding imperfections, specialized gauges for measurements, and the reporting formats and evaluation standards required by the CSWIP exam.
Saes w-011-welding on plot ( process ) pipingabhi10apr
This document outlines welding requirements for on-plot piping at Saudi Aramco. It specifies approved welding processes, welding consumables, welding procedures, welder qualification requirements, joint details, corrosion resistant materials, technique and workmanship standards, preheat and post weld heat treatment needs, production weld hardness testing, inspection access, weld identification, inspection requirements, and repair standards. The document provides detailed requirements to ensure welding is completed according to applicable codes and standards for safety and quality.
The document provides acceptance criteria for various types of defects found during radiographic testing of welds based on different codes and standards including API 1104, SP-1174, B31.3, and ASME Section IX. It lists the maximum allowable size, length, and aggregate length of defects such as cracks, incomplete penetration, incomplete fusion, burn through, slag inclusions, porosity, and undercutting.
This document contains 47 multiple choice questions related to ASME B31.3 piping code. The questions cover topics such as material properties, joint design, welding, inspection and testing requirements.
This document provides generalized guidelines for structural steel welding inspection as per the AWS D1.1 Structural Welding Code for Steel. It covers standard terms, the scope of the code, limitations on its use, design of welded connections, weld joint configurations, prequalification of welding procedures, qualification requirements, fabrication, inspection, and non-destructive testing requirements. Key areas addressed include complete and partial joint penetration welds, fillet welds, prequalification criteria for common welding processes and materials, visual inspection acceptance standards, and additional non-destructive testing as required.
Here are the major responsibilities of a project engineer summarized:
- Oversee all construction activities to ensure they are completed as per approved plans, schedule and budget.
- Coordinate with different project departments like safety, procurement, contracts and quality.
- Ensure materials are available on time and resolve any technical or design issues that arise.
- Lead meetings and ensure contractor action plans and schedules are understood.
- Review invoices, punch lists and change orders for approval.
- Oversee commissioning, documentation handover and project closeout.
- Monitor project progress and address any delays by expediting work or investigating causes.
This document outlines the ASME Boiler and Pressure Vessel Code Section IX requirements for welding, brazing, and fusing qualifications. It provides the scope, definitions, general requirements, and standards for welding procedure and performance qualifications. The document establishes guidelines for welding variables, tests and examinations used to qualify welding procedures and welders. It includes requirements for recording and documenting welding data in a standardized manner.
The document summarizes ASME Section VIII Division 1 code requirements for material identification, repair of material defects, Charpy impact testing of production test coupons, weld joint categories, radiographic and ultrasonic examination, welding requirements, and acceptance standards for non-destructive examination. Key points include requirements for original material markings, testing procedures that vary based on joint category and position, examination types based on joint size and material thickness, welder identification, pre-welding surface preparation, and imperfection acceptance criteria.
Peaking and banding refer to the roundness and straightness of shell plates around vertical and horizontal joints in storage tanks. Peaking is measured using a horizontal sweep board along vertical joints, while banding is measured using a vertical sweep board along horizontal joints. Acceptance criteria per API standards allow for peaking deviations of up to 13 mm and banding deviations of up to 13 or 25 mm depending on the standard. Proper measurement procedures involve visually inspecting the tank, positioning the sweep board accurately, and taking measurements at a minimum of 8 locations around the tank circumference.
This document provides standards for reference radiographs used to evaluate steel castings up to 2 inches thick. It includes:
1. An overview of the scope and purpose of the reference radiographs, which illustrate various types and severity levels of discontinuities commonly found in steel castings.
2. Descriptions of the categories and types of discontinuities represented, including gas porosity, inclusions, shrinkage, cracks, tears, and mottling. The discontinuities are graded on a scale of 1 to 5 based on their quantity, size, and distribution.
3. Procedures for how to use the reference radiographs to evaluate production radiographs and determine whether castings meet specified radi
Este documento establece los requisitos para la calificación de procedimientos y soldadores de soldadura estructural de acero. Se especifican los requisitos generales, la especificación del procedimiento de soldadura, y la calificación del rendimiento del soldador. Incluye detalles sobre los tipos de soldadura, pruebas requeridas, variables esenciales y duración de la calificación.
This document provides information about the CSWIP 3.1 Welding Inspector course and certification from TWI Ltd. The course covers a wide range of welding inspection and quality topics through lectures and provides exam assessment to obtain the CSWIP 3.1 Welding Inspector certification. The certification is valid for 5 years, after which a CV assessment or renewal exam is required to maintain certification. The CSWIP program has three levels of welding inspector certification.
This document summarizes Saudi Aramco's approval of revised welding procedure specifications (WPS) submitted by Larsen & Toubro for fabrication work on the Hasbah II project. Saudi Aramco had previously approved the listed WPSs at Status 2 but is now approving the revised versions. The approvals allow fabrication to proceed using the new WPSs without need for resubmission unless further technical changes are required. The document provides details on the contractor, project, and approved WPS revisions.
Especificación de procedimiento de soldaduraDavid Lunar
Este documento establece los requisitos para la especificación de procedimientos de soldadura (EPS) de acuerdo con el Reglamento CIRSOC 304. Describe dos tipos de EPS, precalificada y calificada. Para las EPS precalificadas, especifica los procesos, metales base y de aporte permitidos, así como las temperaturas mínimas de precalentamiento. También proporciona una tabla con la selección del metal de aporte en función del grupo y requisitos del metal base.
The document outlines the duties and responsibilities of a Senior Welding Inspector. It discusses that the role requires strong leadership, technical, and managerial skills. Some key responsibilities include managing inspection teams, providing guidance to inspectors, making technical decisions, planning inspections, and ensuring work is completed on time and to budget. Senior Welding Inspectors must have in-depth knowledge of welding technology, quality standards, and the ability to audit work and evaluate non-destructive testing reports. Strong communication, organization, and people management skills are also important to motivate personnel and ensure high morale is maintained throughout inspection projects.
This document provides an overview and introduction to ASME Section VIII Division 1, which establishes rules for the construction of pressure vessels. It discusses the historical context that led to the development of pressure vessel codes, an overview of ASME's codes and standards, key definitions, and the design requirements and considerations specified in Section VIII Division 1. The document covers topics such as material selection, corrosion allowances, minimum thickness requirements, design pressure, and loadings that must be considered in pressure vessel design.
This document provides an introduction to ASME Section IX, which establishes general guidelines for welding procedure and welder performance qualifications. It discusses the requirements for qualifying welding procedures using procedure qualification records (PQRs) and welding procedure specifications (WPSs). The key points covered include:
- ASME Section IX covers the qualification of welding and brazing procedures.
- Welding procedure qualifications demonstrate that a set of welding variables can reliably produce sound welds.
- WPSs and PQRs are used to document and qualify welding procedures. A WPS must be supported by a qualified PQR to be used for production.
It also summarizes the classification of base metals using 'P' numbers,
The document provides guidance for welding inspectors taking the CSWIP 3.1 practical examination. It outlines the requirements for conducting visual inspections of plate and pipe test welds, including completing thumbprint sketches and final reports. Candidates must observe and report all imperfections, take accurate measurements, and compare their findings to code acceptance criteria. The document reviews welding imperfections, specialized gauges for measurements, and the reporting formats and evaluation standards required by the CSWIP exam.
Saes w-011-welding on plot ( process ) pipingabhi10apr
This document outlines welding requirements for on-plot piping at Saudi Aramco. It specifies approved welding processes, welding consumables, welding procedures, welder qualification requirements, joint details, corrosion resistant materials, technique and workmanship standards, preheat and post weld heat treatment needs, production weld hardness testing, inspection access, weld identification, inspection requirements, and repair standards. The document provides detailed requirements to ensure welding is completed according to applicable codes and standards for safety and quality.
The document provides acceptance criteria for various types of defects found during radiographic testing of welds based on different codes and standards including API 1104, SP-1174, B31.3, and ASME Section IX. It lists the maximum allowable size, length, and aggregate length of defects such as cracks, incomplete penetration, incomplete fusion, burn through, slag inclusions, porosity, and undercutting.
This document contains 47 multiple choice questions related to ASME B31.3 piping code. The questions cover topics such as material properties, joint design, welding, inspection and testing requirements.
This document provides generalized guidelines for structural steel welding inspection as per the AWS D1.1 Structural Welding Code for Steel. It covers standard terms, the scope of the code, limitations on its use, design of welded connections, weld joint configurations, prequalification of welding procedures, qualification requirements, fabrication, inspection, and non-destructive testing requirements. Key areas addressed include complete and partial joint penetration welds, fillet welds, prequalification criteria for common welding processes and materials, visual inspection acceptance standards, and additional non-destructive testing as required.
Here are the major responsibilities of a project engineer summarized:
- Oversee all construction activities to ensure they are completed as per approved plans, schedule and budget.
- Coordinate with different project departments like safety, procurement, contracts and quality.
- Ensure materials are available on time and resolve any technical or design issues that arise.
- Lead meetings and ensure contractor action plans and schedules are understood.
- Review invoices, punch lists and change orders for approval.
- Oversee commissioning, documentation handover and project closeout.
- Monitor project progress and address any delays by expediting work or investigating causes.
This document outlines the ASME Boiler and Pressure Vessel Code Section IX requirements for welding, brazing, and fusing qualifications. It provides the scope, definitions, general requirements, and standards for welding procedure and performance qualifications. The document establishes guidelines for welding variables, tests and examinations used to qualify welding procedures and welders. It includes requirements for recording and documenting welding data in a standardized manner.
This document summarizes the 2019 ASME Boiler and Pressure Vessel Code. It provides the table of contents which lists the sections and subparts contained within the code. These include stress tables, physical properties tables, charts for determining shell thickness, and mandatory appendices describing the basis and development of stress values, design criteria, and guidelines for approving new materials. The document also lists personnel involved in developing the code and a summary of changes from the previous edition.
ASME BPVC 2021 Section IX - Qualification Standard for Welding, Brazing, and ...joshy38
This document provides the qualifications and requirements for welding, brazing, and fusing procedures, welders, brazers, and welding, brazing, and fusing operators according to the ASME Boiler and Pressure Vessel Code. It defines the scope, types of tests, test positions, and variables that are required to qualify welding procedures and welding personnel. It also provides standards for documenting welding data, procedures, and qualifications.
This document provides standards for gray iron pipe flanges and flanged fittings in classes 25, 125, and 250. It includes information on pressure-temperature ratings, sizes, marking, materials, fitting dimensions and tolerances, bolt and gasket dimensions, hydrostatic tests, and certifications. The document aims to establish uniform requirements for gray iron flanges and fittings to promote interchangeability.
This document is an American National Standard that provides specifications for gray iron threaded fittings in classes 125 and 250, including dimensions, materials, markings, and tolerances. It defines requirements for elbows, tees, crosses, caps, couplings, and other fittings. The standard was originally published in 1927 and has been revised periodically to incorporate new practices and metric equivalents. It is developed and maintained by the ASME B16 Standards Committee under procedures accredited by the American National Standards Institute.
This document is the ASME B31.4-2019 code for pressure piping, which provides requirements for the design, materials, construction, inspection, testing, operation and maintenance of pipeline transportation systems for liquids and slurries. The document outlines chapters covering the scope and definitions, design criteria, material requirements, dimensional requirements, construction and welding standards, inspection and testing procedures, operation and maintenance guidelines, corrosion control measures, and offshore liquid pipeline systems. Revisions are made periodically to this international piping code standard to incorporate new information.
This document is the ASME B31.4-2022 code for pressure piping systems transporting liquids and slurries. It provides standards and requirements for the design, materials, construction, inspection, testing, operation and maintenance of pipeline transportation systems. The document outlines chapters covering the scope and definitions, design criteria, material standards, dimensional requirements, construction and welding procedures, inspection and testing protocols, operation and maintenance practices, corrosion control, and offshore liquid pipeline systems.
This document presents the American Society of Mechanical Engineers (ASME) B30.2-2011 safety standard for overhead and gantry cranes. It covers the scope, definitions, references, general construction and installation requirements, inspection and testing procedures, operator training and operation guidelines, and maintenance training and maintenance practices for overhead and gantry cranes. The standard provides safety requirements for cranes with top running bridges, single or multiple girders, and top running trolley hoists. It was revised in 2011 and establishes the minimum performance and design criteria to help ensure cranes are safe to operate.
This document establishes standards for factory-made steel pipe bends produced using induction bending. It covers the design, materials, manufacturing process, testing, marking, and inspection of induction bends for transportation and distribution piping systems. The standards apply to carbon steel bends within a range of wall thicknesses and diameters. Larger fabricated bends produced by welding multiple smaller bends are not covered. The document provides standards for material properties, required tests, dimensional specifications, production inspection, and certification of induction bends.
This document provides operating instructions for the ULTRAMAT 23 gas analyzer. It includes information on safety, installation, technical description, start-up, operation, and maintenance. The ULTRAMAT 23 is an infrared gas analyzer that can measure concentrations of various gases and oxygen. It features automated calibration, data logging and output, and integration capabilities. Installation involves gas and electrical connections following guidelines. Start-up involves an autocalibration procedure and optional calibration. The analyzer operates in warm-up, measuring, and input modes controlled from the display and keypad. Maintenance includes periodic checks and cleaning or replacement of components.
This document is the operator's manual for the TA Instruments DSC Autosampler. It provides safety information and instructions for preparing, operating, calibrating and troubleshooting the autosampler. The autosampler is used to automatically load samples into the DSC for thermal analysis testing. It features a turret assembly that moves sample pans between positions and uses gripper fingers to pick up and place pans in the DSC cell. The manual guides the user through setup, manual operation, calibration procedures, sample preparation and diagnostic tests to ensure proper functioning of the autosampler.
This document summarizes API 510, which provides guidelines for inspecting pressure vessels and pressure relief devices in service. It covers preparing for and performing inspections, evaluating inspection data, determining corrosion rates and equipment life. Inspections include external, internal, thickness measurements and pressure testing. Inspection frequency is based on risk factors but generally internal inspections are recommended every 3-5 years for most vessels. The code aims to ensure safe operation of in-service pressure equipment through regular inspections and repairs.
Api rp 577 2nd ed. 2013 welding processes, inspection, and metallurgy (1)SERFORTECCIALTDA
This document provides guidelines for welding processes, inspection, and metallurgy according to API standards. It discusses welding inspection tasks before, during, and after welding. These include verifying materials and procedures, monitoring welding parameters, and performing non-destructive testing. It also describes common welding processes like shielded metal arc welding and gas tungsten arc welding. The document outlines how to write welding procedure specifications and qualify welding procedures. Finally, it addresses welding materials, including systems for classifying base and filler metals.
This document is the ASME B30.2-2001 safety standard for overhead and gantry cranes. It provides definitions, requirements, and guidelines related to the construction, installation, inspection, testing, maintenance, and operation of overhead and gantry cranes. The standard addresses topics such as crane markings, clearances, construction requirements, electrical systems, hoisting equipment, inspections, qualifications for operators, load handling procedures, and lockout/tagout procedures. The document establishes mandatory safety rules and advisory guidelines to help ensure the safe design, operation and maintenance of overhead and gantry cranes.
This document is a manual for the OXYMAT 61 Oxygen Analyzer. It provides information for installation, operation, maintenance and safety. The manual contains technical specifications and descriptions of the analyzer components, gas connections, electrical connections, start-up procedures, operation functions, and maintenance instructions. Trademarks and legal notices are also included.
This document is the American National Standard ASME B30.4-2010, which provides safety standards for portal and pedestal cranes. It defines the scope, terms, and references applicable to cranes covered by the standard. The standard also establishes requirements for the erection, inspection, testing, maintenance, and operation of portal and pedestal cranes to ensure safety.
This document provides information about Host Link Units for connecting C-series Rack PCs to host computers. It contains details on the applicable Host Link Unit models, system configurations, installation, programming commands, and unit characteristics. The Host Link Units support various interface types including RS-232C and RS-422 to enable communication between C-series Rack PCs and host systems like HMIs, controllers, or other computers. Programming involves using commands to read and write data as well as force outputs on the Rack PCs.
This document provides manuals for ACS550 adjustable speed AC drives including safety, installation, start-up, diagnostics, and maintenance information. It contains details on preparing for installation such as checking motor compatibility, protecting the motor winding and bearings, routing cables, installing the drive, and checking the installation. Technical specifications and drawings are also included to aid in the selection and installation of the appropriate drive model.
This document outlines safety standards for tower cranes, including standards for their erection, climbing, inspection, testing, maintenance, and operation. It defines key terms related to tower cranes and provides requirements for their design, construction, and components. The document establishes personnel qualification standards and describes operating practices to ensure safe operation of tower cranes.
How to Fix the Import Error in the Odoo 17Celine George
An import error occurs when a program fails to import a module or library, disrupting its execution. In languages like Python, this issue arises when the specified module cannot be found or accessed, hindering the program's functionality. Resolving import errors is crucial for maintaining smooth software operation and uninterrupted development processes.
This presentation was provided by Steph Pollock of The American Psychological Association’s Journals Program, and Damita Snow, of The American Society of Civil Engineers (ASCE), for the initial session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session One: 'Setting Expectations: a DEIA Primer,' was held June 6, 2024.
Exploiting Artificial Intelligence for Empowering Researchers and Faculty, In...Dr. Vinod Kumar Kanvaria
Exploiting Artificial Intelligence for Empowering Researchers and Faculty,
International FDP on Fundamentals of Research in Social Sciences
at Integral University, Lucknow, 06.06.2024
By Dr. Vinod Kumar Kanvaria
A Strategic Approach: GenAI in EducationPeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
বাংলাদেশের অর্থনৈতিক সমীক্ষা ২০২৪ [Bangladesh Economic Review 2024 Bangla.pdf] কম্পিউটার , ট্যাব ও স্মার্ট ফোন ভার্সন সহ সম্পূর্ণ বাংলা ই-বুক বা pdf বই " সুচিপত্র ...বুকমার্ক মেনু 🔖 ও হাইপার লিংক মেনু 📝👆 যুক্ত ..
আমাদের সবার জন্য খুব খুব গুরুত্বপূর্ণ একটি বই ..বিসিএস, ব্যাংক, ইউনিভার্সিটি ভর্তি ও যে কোন প্রতিযোগিতা মূলক পরীক্ষার জন্য এর খুব ইম্পরট্যান্ট একটি বিষয় ...তাছাড়া বাংলাদেশের সাম্প্রতিক যে কোন ডাটা বা তথ্য এই বইতে পাবেন ...
তাই একজন নাগরিক হিসাবে এই তথ্য গুলো আপনার জানা প্রয়োজন ...।
বিসিএস ও ব্যাংক এর লিখিত পরীক্ষা ...+এছাড়া মাধ্যমিক ও উচ্চমাধ্যমিকের স্টুডেন্টদের জন্য অনেক কাজে আসবে ...
This presentation includes basic of PCOS their pathology and treatment and also Ayurveda correlation of PCOS and Ayurvedic line of treatment mentioned in classics.
How to Add Chatter in the odoo 17 ERP ModuleCeline George
In Odoo, the chatter is like a chat tool that helps you work together on records. You can leave notes and track things, making it easier to talk with your team and partners. Inside chatter, all communication history, activity, and changes will be displayed.
Strategies for Effective Upskilling is a presentation by Chinwendu Peace in a Your Skill Boost Masterclass organisation by the Excellence Foundation for South Sudan on 08th and 09th June 2024 from 1 PM to 3 PM on each day.
Macroeconomics- Movie Location
This will be used as part of your Personal Professional Portfolio once graded.
Objective:
Prepare a presentation or a paper using research, basic comparative analysis, data organization and application of economic information. You will make an informed assessment of an economic climate outside of the United States to accomplish an entertainment industry objective.
1. Nondestructive
Examination
SECTION V
ASME BPVC.V-2019
2019
ASME Boiler and
Pressure Vessel Code
An International Code
Copyright ASME International (BPVC)
Provided by IHS under license with ASME Licensee=Khalda Petroleum/5986215001, User=Amer, Mohamed
Not for Resale, 07/02/2019 13:29:23 MDT
No reproduction or networking permitted without license from IHS
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2. Markings such as “ASME,” “ASME Standard,” or any other marking including “ASME,” ASME
logos, or the ASME Single Certification Mark shall not be used on any item that is not constructed
in accordance with all of the applicable requirements of the Code or Standard. Use of ASME’s
name or logos or of the ASME Single Certification Mark requires formal ASME certification; if no
certification program is available, such ASME markings may not be used. (For Certification and
Accreditation Programs, see https://www.asme.org/shop/certification‐accreditation.)
Items produced by parties not formally possessing an ASME Certificate may not be described,
either explicitly or implicitly, as ASME certified or approved in any code forms or other document.
Copyright ASME International (BPVC)
Provided by IHS under license with ASME Licensee=Khalda Petroleum/5986215001, User=Amer, Mohamed
Not for Resale, 07/02/2019 13:29:23 MDT
No reproduction or networking permitted without license from IHS
--`,``,``,,`,`,,````,`,``,,,`-`-`,,`,,`,`,,`---
3. V
NONDESTRUCTIVE
EXAMINATION
ASME Boiler and Pressure Vessel Committee
on Nondestructive Examination
AN INTERNATIONAL CODE
2019 ASME Boiler &
Pressure Vessel Code
2019 Edition July 1, 2019
Two Park Avenue • New York, NY • 10016 USA
Copyright ASME International (BPVC)
Provided by IHS under license with ASME Licensee=Khalda Petroleum/5986215001, User=Amer, Mohamed
Not for Resale, 07/02/2019 13:29:23 MDT
No reproduction or networking permitted without license from IHS
--`,``,``,,`,`,,````,`,