This document provides instructions and materials for evaluating a participant's skills in removing, inspecting, disassembling, rebuilding, installing, and aligning a pump. The performance verification consists of 5 tasks: 1) removing the pump from its casing, 2) removing the impeller backplate and seal, 3) disassembling the bearing housing, 4) installing the shaft and bearings into the housing, and 5) installing the pump into the casing. The evaluator uses a checklist to record the date each task is completed. Upon completing all tasks, authorized signatures from the participant, evaluator, and administrator are required for submission to NCCER for certification.
CDC is a leading global consulting firm with over 35 years of experience providing design services for building exterior enclosure systems. Founded in 1973, CDC has over 165 employees worldwide and offers consulting services on a wide range of exterior systems from curtain walls and stone facades to architectural precast concrete and roofing. With offices across the US and internationally, CDC works with architects, developers, and contractors to design, engineer, and consult on exterior building projects.
This document provides an overview of the National Craft Assessment and Certification Program for Industrial Millwrights. It outlines the contents of the written assessment, including 15 modules and 146 total questions across various millwright topics. Candidates can use study materials ordered from Pearson Education and must complete the closed-book, 3-hour written assessment at an Assessment Center. Upon successful completion, NCCER will provide appropriate credentials and training prescription reports detailing assessment results.
The document summarizes the training offered at Millwright Local 1755's training facility in Parkersburg, WV. It offers extensive safety training as well as hands-on training in welding, machining, pump repair, alignment, and more. Trainees learn skills on realistic simulators and equipment. The training center encourages visits to see the facilities and advantages of using union millwrights with this level of training.
To receive a Qualified Millwright Card, an individual must meet one of four requirements related to field experience, apprenticeship completion, work hours, or continuing education courses. The Qualified Millwright Test consists of written and practical components covering millwright skills and knowledge. Various millwright-related courses are available to help prepare for the test.
This 3-sentence summary provides the essential information from the document:
This document contains reference tables for rapidly solving right-angle and oblique-angle triangles, as the title indicates it includes a Triangle Chart to aid in solving triangles. The document focuses on providing tables and a visual chart to help solve triangles by looking up values rather than through calculation.
The Millwright Local 1755 Training Center in Parkersburg, WV provides over $250,000 annually in training to apprentices and journeymen to safely and skillfully serve customers in various industries. The training covers topics like OSHA safety certifications, rigging, machinery installation and repair, welding, and more. Hands-on training is conducted using equipment like turbines, pumps, cranes and machinery to simulate real-world conditions. The goal is to provide a productive, high-quality workforce with the skills needed to keep customers' facilities operating efficiently.
This document discusses the importance and requirements of qualification for pharmaceutical equipment. Qualification ensures equipment is properly installed and functions as intended to maintain quality standards. It involves documented verification that equipment meets design specifications and user requirements through various stages from design to operation. Key segments of qualification discussed include users requirement specification, design qualification, factory acceptance testing, installation qualification, operational qualification, and performance qualification.
This curriculum vitae summarizes the qualifications and experience of Anandharajan Kalimuthu. He has over 12 years of experience in quality control, welding inspection, and non-destructive testing for various industries. His roles have included verifying materials and processes, performing inspections and tests, coordinating with contractors and clients, and preparing inspection reports. He holds several certifications in welding inspection, coating inspection, safety training, and auditing.
CDC is a leading global consulting firm with over 35 years of experience providing design services for building exterior enclosure systems. Founded in 1973, CDC has over 165 employees worldwide and offers consulting services on a wide range of exterior systems from curtain walls and stone facades to architectural precast concrete and roofing. With offices across the US and internationally, CDC works with architects, developers, and contractors to design, engineer, and consult on exterior building projects.
This document provides an overview of the National Craft Assessment and Certification Program for Industrial Millwrights. It outlines the contents of the written assessment, including 15 modules and 146 total questions across various millwright topics. Candidates can use study materials ordered from Pearson Education and must complete the closed-book, 3-hour written assessment at an Assessment Center. Upon successful completion, NCCER will provide appropriate credentials and training prescription reports detailing assessment results.
The document summarizes the training offered at Millwright Local 1755's training facility in Parkersburg, WV. It offers extensive safety training as well as hands-on training in welding, machining, pump repair, alignment, and more. Trainees learn skills on realistic simulators and equipment. The training center encourages visits to see the facilities and advantages of using union millwrights with this level of training.
To receive a Qualified Millwright Card, an individual must meet one of four requirements related to field experience, apprenticeship completion, work hours, or continuing education courses. The Qualified Millwright Test consists of written and practical components covering millwright skills and knowledge. Various millwright-related courses are available to help prepare for the test.
This 3-sentence summary provides the essential information from the document:
This document contains reference tables for rapidly solving right-angle and oblique-angle triangles, as the title indicates it includes a Triangle Chart to aid in solving triangles. The document focuses on providing tables and a visual chart to help solve triangles by looking up values rather than through calculation.
The Millwright Local 1755 Training Center in Parkersburg, WV provides over $250,000 annually in training to apprentices and journeymen to safely and skillfully serve customers in various industries. The training covers topics like OSHA safety certifications, rigging, machinery installation and repair, welding, and more. Hands-on training is conducted using equipment like turbines, pumps, cranes and machinery to simulate real-world conditions. The goal is to provide a productive, high-quality workforce with the skills needed to keep customers' facilities operating efficiently.
This document discusses the importance and requirements of qualification for pharmaceutical equipment. Qualification ensures equipment is properly installed and functions as intended to maintain quality standards. It involves documented verification that equipment meets design specifications and user requirements through various stages from design to operation. Key segments of qualification discussed include users requirement specification, design qualification, factory acceptance testing, installation qualification, operational qualification, and performance qualification.
This curriculum vitae summarizes the qualifications and experience of Anandharajan Kalimuthu. He has over 12 years of experience in quality control, welding inspection, and non-destructive testing for various industries. His roles have included verifying materials and processes, performing inspections and tests, coordinating with contractors and clients, and preparing inspection reports. He holds several certifications in welding inspection, coating inspection, safety training, and auditing.
Vijay Kumar is seeking a career in a leading corporate environment. He has 10 years of experience in quality assurance and production roles. His educational background includes a diploma in tool and die making. He is skilled in ISO standards, GD&T, quality tools and systems. His previous roles include quality engineer and production supervisor positions at various manufacturing companies.
This document is a curriculum vitae for A.Kannan. It summarizes his educational background, qualifications, computer skills, and work experience as a QC Inspector conducting inspections and non-destructive testing for various power and engineering projects in India and Singapore from 2004 to the present. His roles have included visual inspections, radiography, ultrasonic testing, and ensuring standards compliance.
Timothy J Jones provides a profile and experience summary as a Certified Welding Inspector with over 8 years of experience. He has held roles at SGS Pipeline Integrity Services, Element Materials Technology, and Sherry Laboratories performing welding inspections, non-destructive testing, mechanical testing, and acting as a technical specialist. His experience includes visual and non-destructive examination of welds, monitoring welder qualifications, and ensuring compliance with welding codes and standards.
This resume is for Ananda Mariyan D'souza, an Indian national born in 1974. He has over 18 years of experience as a senior welding and coating inspector working on various projects in countries like the UAE, Saudi Arabia, India, Oman, and Qatar. He has numerous technical qualifications and certifications. His responsibilities have included developing quality plans, inspecting welding and coatings, managing non-conformances, ensuring work meets specifications, and maintaining documentation. He is currently working as a senior welding and coating inspector for McDermott, Inc. on a project in the UAE and Saudi Arabia.
QUALIFICATION OF MANUFACTURING EQUIPMENTSANKUSH JADHAV
it gives the information about qualification of various manufacturing equipment which is used into the pharmaceutical labs. (only for information purpose)
Mark Woodman is an English quality assurance/expeditor based in Plymouth, UK. He has over 30 years of experience in inspection, quality control, and auditing for various industries such as oil and gas, aerospace, and automotive. Currently, he works as a third party QA through his own company MW Inspection Ltd on various projects. He has extensive experience auditing suppliers, reviewing documentation, conducting inspections and mechanical testing, and issuing non-conformance reports.
Chidambaram S provides his resume, including personal details, education history, and work experience in quality assurance and quality control roles. He has over 5 years of experience in inspection engineering for oil and gas pipeline projects. His responsibilities included verifying materials and drawings, witnessing welding and testing, and ensuring work was completed according to specifications. He is certified in non-destructive testing methods and holds a Bachelor's degree in Production Engineering. His objective is to use his practical skills and teamwork abilities to contribute value to his employer.
The Data Cleansing Process - A Roadmap to Material Master Data QualityI.M.A. Ltd.
The document outlines a 12-step process for cleansing material master data to improve data quality. The steps include pre-cleanse evaluation, establishing data standards, reviewing test data, mining and standardizing existing data, enhancing data, identifying and consolidating duplicates, addressing incomplete records, quality control review, formatting data, final delivery and upload, and implementing post-cleanse governance. The overall goal is to assess current data quality, apply standard rules and formats, research and validate data, and maintain quality going forward.
This resume is for Jijo Antony, who has over 10 years of experience as a QA/QC Inspector and 11 years as a Welder in the oil and gas industry. He has extensive qualifications and certifications in welding inspection including CWB Level 2 Inspector, API 510 Authorized Inspector, and AWS Senior Certified Welding Inspector. The resume provides details of Jijo's work experience on various oil and gas projects as a Turnaround QC Inspector, highlights his skills in welding inspection, non-destructive testing, and quality control documentation.
Ekalaiyazhagan is a mechanical engineer seeking a position where he can contribute his skills. He has over 4 years of experience in quality control roles, specializing in painting and insulation inspection. His experience includes inspecting surface preparation, coating application and thickness, holiday detection, material receiving, and raising non-conformance reports. He is proficient in various painting standards and has experience with multiple coating types. Ekalaiyazhagan is currently working as a QC Engineer in Saudi Arabia, where he performs inspections for a petrochemical project.
Saravanan Nagarajan has over 10 years of experience in fabrication, welding, installation, erection, commissioning, and maintenance activities for onshore and offshore projects. He holds an engineering degree from Bharathidhasan University and certifications in welding inspection, pressure vessel inspection, and NDT. His experience includes quality control, inspection, welding surveillance, and coating inspection for various offshore and onshore projects in India, Qatar, UAE, and Saudi Arabia. He is proficient in inspection and non-destructive testing techniques.
The document discusses validation and qualification processes for equipment. It defines validation as establishing scientific evidence that a process is capable of consistently delivering quality products. Qualification is considered a subset of validation and ensures equipment is installed and will perform as intended. The key stages of validation are discussed as process design, process qualification, and continued process verification. Qualification includes design qualification, installation qualification, operational qualification, and performance qualification to demonstrate equipment is suitable for its intended use.
Jason Bellotti is seeking a position that utilizes his skills in machining, polishing, plating, and material handling. He has over 10 years of experience in related roles, including currently polishing medical equipment at CSI Industries and previously operating lathes, mills, grinders, and performing plating, polishing, and assembly at various Erie, PA companies. He has certifications in machining, blueprint reading, and first aid.
User specification requirements (urs) rashRASHMINasare
user specification requirements, factory acceptance test, & design qualification is the part of validation it is doing because the satisfaction of the customer & full filled the user requirement
The document provides information for a case study on supplying materials and manpower for scaffolding erection for modification and renovation work at UTM Semarak. It includes a synopsis of the project requirements, development concept and sketches, cost plans, procurement and contract management details, and work plans. The client requirements include material specifications, regulatory requirements, manpower needs and responsibilities. The cost plan outlines equipment and manpower package pricing, maintenance, insurance, and transportation costs.
Standard Operating Procedures SOP for Prestressed Concrete Members facility.pdfParmeshworVetwal1
This standard operating procedure provides guidelines for inspecting and accepting Bulb Tee and Modified Bulb Tee girders produced using prestressed concrete. Inspectors are to check that forms, reinforcing steel, strands, and inserts meet specification requirements. They also monitor concrete batching, testing, placement, and curing. Inspectors follow safety protocols and use approved forms to document inspections, sampling, and any nonconforming items. The guidelines are intended to ensure uniform inspections that comply with NCDOT, ASTM, and AASHTO standards.
S. Manikandan is seeking a position as a Quality Control Engineer with over 10 years of experience in quality inspection of oil and gas drilling equipment. He has held roles as a QC Engineer and Inspector for several companies performing inspections, testing, and maintaining quality documentation for offshore drilling equipment including BOPs, valves, and risers. Manikandan has extensive technical skills and certifications in quality control and non-destructive testing.
The document is a curriculum vitae for Mohsin Iqubal applying for the position of HVAC QC Inspector or Welding Inspector. It summarizes his educational background as a Mechanical Engineer and over 6 years of work experience in HVAC and welding projects in India and Saudi Arabia. It also lists his professional qualifications in welding inspection and non-destructive testing and provides details of his work experience on various projects in Saudi Arabia and India performing roles such as HVAC QC Inspector, Mechanical Inspector, and Welding QC Engineer.
1) GE has developed a broad line of steam turbines for STAG combined-cycle power systems that are matched to GE gas turbines and HRSGs.
2) The steam turbines can accommodate one, two, or three pressure cycles for reheat or non-reheat applications depending on the gas turbine characteristics and site conditions.
3) The latest addition is a platform for 7G, 9G, 7H, and 9H STAG systems that integrate the gas turbine, steam turbine, and generator and optimize performance, with 7H and 9H additionally utilizing steam cooling in the gas turbine.
1) The document discusses laser alignment tips for measuring shaft alignment and recommends using a 10-inch diameter in coupling mode measurements for simplicity.
2) It explains that the angularity measurement, or gap, will be the same regardless of the diameter measured.
3) Examples show that a gap of 4.5 mils measured at 10 inches, 5.4 mils at 12 inches, and 1.8 mils at 4 inches all represent the same angularity of 0.45 mils per inch of diameter.
Vijay Kumar is seeking a career in a leading corporate environment. He has 10 years of experience in quality assurance and production roles. His educational background includes a diploma in tool and die making. He is skilled in ISO standards, GD&T, quality tools and systems. His previous roles include quality engineer and production supervisor positions at various manufacturing companies.
This document is a curriculum vitae for A.Kannan. It summarizes his educational background, qualifications, computer skills, and work experience as a QC Inspector conducting inspections and non-destructive testing for various power and engineering projects in India and Singapore from 2004 to the present. His roles have included visual inspections, radiography, ultrasonic testing, and ensuring standards compliance.
Timothy J Jones provides a profile and experience summary as a Certified Welding Inspector with over 8 years of experience. He has held roles at SGS Pipeline Integrity Services, Element Materials Technology, and Sherry Laboratories performing welding inspections, non-destructive testing, mechanical testing, and acting as a technical specialist. His experience includes visual and non-destructive examination of welds, monitoring welder qualifications, and ensuring compliance with welding codes and standards.
This resume is for Ananda Mariyan D'souza, an Indian national born in 1974. He has over 18 years of experience as a senior welding and coating inspector working on various projects in countries like the UAE, Saudi Arabia, India, Oman, and Qatar. He has numerous technical qualifications and certifications. His responsibilities have included developing quality plans, inspecting welding and coatings, managing non-conformances, ensuring work meets specifications, and maintaining documentation. He is currently working as a senior welding and coating inspector for McDermott, Inc. on a project in the UAE and Saudi Arabia.
QUALIFICATION OF MANUFACTURING EQUIPMENTSANKUSH JADHAV
it gives the information about qualification of various manufacturing equipment which is used into the pharmaceutical labs. (only for information purpose)
Mark Woodman is an English quality assurance/expeditor based in Plymouth, UK. He has over 30 years of experience in inspection, quality control, and auditing for various industries such as oil and gas, aerospace, and automotive. Currently, he works as a third party QA through his own company MW Inspection Ltd on various projects. He has extensive experience auditing suppliers, reviewing documentation, conducting inspections and mechanical testing, and issuing non-conformance reports.
Chidambaram S provides his resume, including personal details, education history, and work experience in quality assurance and quality control roles. He has over 5 years of experience in inspection engineering for oil and gas pipeline projects. His responsibilities included verifying materials and drawings, witnessing welding and testing, and ensuring work was completed according to specifications. He is certified in non-destructive testing methods and holds a Bachelor's degree in Production Engineering. His objective is to use his practical skills and teamwork abilities to contribute value to his employer.
The Data Cleansing Process - A Roadmap to Material Master Data QualityI.M.A. Ltd.
The document outlines a 12-step process for cleansing material master data to improve data quality. The steps include pre-cleanse evaluation, establishing data standards, reviewing test data, mining and standardizing existing data, enhancing data, identifying and consolidating duplicates, addressing incomplete records, quality control review, formatting data, final delivery and upload, and implementing post-cleanse governance. The overall goal is to assess current data quality, apply standard rules and formats, research and validate data, and maintain quality going forward.
This resume is for Jijo Antony, who has over 10 years of experience as a QA/QC Inspector and 11 years as a Welder in the oil and gas industry. He has extensive qualifications and certifications in welding inspection including CWB Level 2 Inspector, API 510 Authorized Inspector, and AWS Senior Certified Welding Inspector. The resume provides details of Jijo's work experience on various oil and gas projects as a Turnaround QC Inspector, highlights his skills in welding inspection, non-destructive testing, and quality control documentation.
Ekalaiyazhagan is a mechanical engineer seeking a position where he can contribute his skills. He has over 4 years of experience in quality control roles, specializing in painting and insulation inspection. His experience includes inspecting surface preparation, coating application and thickness, holiday detection, material receiving, and raising non-conformance reports. He is proficient in various painting standards and has experience with multiple coating types. Ekalaiyazhagan is currently working as a QC Engineer in Saudi Arabia, where he performs inspections for a petrochemical project.
Saravanan Nagarajan has over 10 years of experience in fabrication, welding, installation, erection, commissioning, and maintenance activities for onshore and offshore projects. He holds an engineering degree from Bharathidhasan University and certifications in welding inspection, pressure vessel inspection, and NDT. His experience includes quality control, inspection, welding surveillance, and coating inspection for various offshore and onshore projects in India, Qatar, UAE, and Saudi Arabia. He is proficient in inspection and non-destructive testing techniques.
The document discusses validation and qualification processes for equipment. It defines validation as establishing scientific evidence that a process is capable of consistently delivering quality products. Qualification is considered a subset of validation and ensures equipment is installed and will perform as intended. The key stages of validation are discussed as process design, process qualification, and continued process verification. Qualification includes design qualification, installation qualification, operational qualification, and performance qualification to demonstrate equipment is suitable for its intended use.
Jason Bellotti is seeking a position that utilizes his skills in machining, polishing, plating, and material handling. He has over 10 years of experience in related roles, including currently polishing medical equipment at CSI Industries and previously operating lathes, mills, grinders, and performing plating, polishing, and assembly at various Erie, PA companies. He has certifications in machining, blueprint reading, and first aid.
User specification requirements (urs) rashRASHMINasare
user specification requirements, factory acceptance test, & design qualification is the part of validation it is doing because the satisfaction of the customer & full filled the user requirement
The document provides information for a case study on supplying materials and manpower for scaffolding erection for modification and renovation work at UTM Semarak. It includes a synopsis of the project requirements, development concept and sketches, cost plans, procurement and contract management details, and work plans. The client requirements include material specifications, regulatory requirements, manpower needs and responsibilities. The cost plan outlines equipment and manpower package pricing, maintenance, insurance, and transportation costs.
Standard Operating Procedures SOP for Prestressed Concrete Members facility.pdfParmeshworVetwal1
This standard operating procedure provides guidelines for inspecting and accepting Bulb Tee and Modified Bulb Tee girders produced using prestressed concrete. Inspectors are to check that forms, reinforcing steel, strands, and inserts meet specification requirements. They also monitor concrete batching, testing, placement, and curing. Inspectors follow safety protocols and use approved forms to document inspections, sampling, and any nonconforming items. The guidelines are intended to ensure uniform inspections that comply with NCDOT, ASTM, and AASHTO standards.
S. Manikandan is seeking a position as a Quality Control Engineer with over 10 years of experience in quality inspection of oil and gas drilling equipment. He has held roles as a QC Engineer and Inspector for several companies performing inspections, testing, and maintaining quality documentation for offshore drilling equipment including BOPs, valves, and risers. Manikandan has extensive technical skills and certifications in quality control and non-destructive testing.
The document is a curriculum vitae for Mohsin Iqubal applying for the position of HVAC QC Inspector or Welding Inspector. It summarizes his educational background as a Mechanical Engineer and over 6 years of work experience in HVAC and welding projects in India and Saudi Arabia. It also lists his professional qualifications in welding inspection and non-destructive testing and provides details of his work experience on various projects in Saudi Arabia and India performing roles such as HVAC QC Inspector, Mechanical Inspector, and Welding QC Engineer.
1) GE has developed a broad line of steam turbines for STAG combined-cycle power systems that are matched to GE gas turbines and HRSGs.
2) The steam turbines can accommodate one, two, or three pressure cycles for reheat or non-reheat applications depending on the gas turbine characteristics and site conditions.
3) The latest addition is a platform for 7G, 9G, 7H, and 9H STAG systems that integrate the gas turbine, steam turbine, and generator and optimize performance, with 7H and 9H additionally utilizing steam cooling in the gas turbine.
1) The document discusses laser alignment tips for measuring shaft alignment and recommends using a 10-inch diameter in coupling mode measurements for simplicity.
2) It explains that the angularity measurement, or gap, will be the same regardless of the diameter measured.
3) Examples show that a gap of 4.5 mils measured at 10 inches, 5.4 mils at 12 inches, and 1.8 mils at 4 inches all represent the same angularity of 0.45 mils per inch of diameter.
1. A transit is a surveying instrument used to measure horizontal and vertical angles. It has graduated circles to measure these angles and spirit levels to level the instrument.
2. To set up a transit, mount it on a tripod and level it using its leveling screws. Alternate leveling between pairs of screws until the bubble is centered in both spirit levels.
3. Key functions of a transit include measuring horizontal and vertical angles to establish horizontal and vertical positions for surveying tasks like property boundaries, vertical structures, road grades, and sewer lines.
This document discusses GE's industrial steam turbine product line and technologies. It describes GE's extensive experience in designing and manufacturing industrial steam turbines since the early 1900s. The document outlines GE's modular product structure and innovations that have improved turbine performance, efficiency, reliability, and reduced costs. These include new inlet sections, advanced controls, packaged units, standardized designs, and a global manufacturing and support network.
GE manufactures a wide range of steam turbines from small industrial units to large combined cycle and nuclear designs. They offer steam turbine products for reheat combined cycle applications, non-reheat applications, and nuclear power. Their A series steam turbines are optimized for maximum output and efficiency in combined cycle systems, incorporating advanced technologies like high-reaction drum rotors for high efficiency.
This document contains several conversion tables for converting between decimals, fractions, and millimeters. It includes tables for converting decimals to millimeters from 0.001 to 1.000 mm, fractions to their decimal equivalents and then to millimeters, and common fractions to their decimal equivalents and millimeters.
This document provides instructions for basic layout techniques, including:
1. Connecting two points with a straight line by using a pencil as a pivot point.
2. Erecting a perpendicular line at the end of another line using compasses.
3. Dividing a line or object into equal parts by using numbers that are divisible by the number of parts.
This document provides equivalents between metric and imperial units of measurement for linear, square, cubic, and weight measures. Some key conversions included are:
1 meter = 3.2808 feet, 1 kilometer = 0.6214 mile, 1 square meter = 10.764 square feet, 1 liter = 0.2642 gallons, 1 gram = 0.03527 ounces, and 1 kilogram = 2.2046 pounds.
This document provides a reference table for millimeter tap drill sizes for metric taps of various sizes. The table lists the recommended drill size in both millimeters and inches for metric taps from M1.6 x 0.35 to M39 x 4.
The document is a conversion table that lists millimeter measurements from 0.01 to 100 in increments of 0.01 and their equivalent measurements in inches.
The document summarizes a new 1000 megawatt power plant in Kuwait called Az Zour that uses eight Siemens SGT5-2000E gas turbine units to help meet growing electricity demand. The plant operates using both gas and oil fuels and was designed for high availability to help Kuwait meet peak electricity needs during hot summer months. It supplements an existing nearby thermal plant and was commissioned in February 2005 to provide reliable power and help Kuwait cope with its increasing electricity requirements.
Siemens provides fuel gasification technology for integrated gasification combined cycle (IGCC) power plants and industrial applications. The Siemens Fuel Gasification technology uses an entrained-flow gasifier capable of converting a wide range of fuels into syngas. The gasifier offers benefits such as feedstock flexibility, high carbon conversion rates, and the ability to operate at high pressures. Siemens can provide engineering services, key equipment, and full turnkey solutions for gasification projects.
The document summarizes the Siemens SGT5-PAC 4000F gas turbine package. The package combines essential mechanical, electrical, and control equipment to generate electrical power efficiently through gas turbines. It provides a standardized and cost-effective power generation system. The core component is the Siemens SGT5-4000F gas turbine. The package benefits customers through reliable, high-performance, low-emission power generation.
The document discusses two common questions about using laser alignment tools like the Optalign and Rotalign to detect soft foot in machines:
1) The laser tools only show shaft movement, not actual foot movement or the soft foot correction amount. This is because they do not have additional dimensional information about the feet and base.
2) To calculate the exact soft foot correction, the tool would need detailed information about dimensions, conditions, and irregularities, which would still only allow it to make a guess. It is best to use feeler gauges on the foot with the most shaft movement detected by the laser tool.
The document discusses advanced technology combined cycle power generation systems from GE Power Systems that integrate gas and steam turbines. The systems can achieve 60% net thermal efficiency when burning natural gas. They provide highly efficient power generation while minimizing environmental impact. The document focuses on GE's H-Technology combined cycles that integrate steam-cooled gas turbines with steam bottoming cycles using steam turbines and heat recovery steam generators. It provides details on system configuration and integration, performance specifications, and environmental benefits.
This document provides instructions for using the Easy-Laser shaft measurement system to measure and align shafts. It describes preparing the system by mounting units, selecting programs, and entering distances. It then explains how to perform softfoot measurements, take measurement readings by turning the shafts and recording values, and view results showing offset, angular, and adjustment values. Tolerances for alignment are also provided.
The document lists decimal equivalents of drill sizes from #1 to #80 in a table with 4 columns. It provides the size of each drill in inches in increments decreasing from 0.2280 inches for the #1 drill to 0.0135 inches for the #80 drill size.
This document discusses Integrated Gasification Combined Cycle (IGCC) technology and the need to meet market requirements for carbon capture and storage (CCS). It provides an overview of IGCC experience, key components like gas turbines and gasification, and integration challenges. The main points are:
1) IGCC with pre-combustion CCS is a promising option for reducing carbon emissions from coal plants. Experience from non-CCS IGCC plants can help develop CCS-enabled IGCC.
2) Over 4,700MW of IGCC plants are operating globally, providing experience with syngas fuels and different gasification methods.
3) Gas turbines are being optimized for high efficiency sy
This document discusses operation and maintenance of different valve types used in reciprocating compressors. It begins with an introduction of the COP® poppet valve, outlining its design and history. Field experience shows poppet valves outperform traditional plate and ring valves in applications with contaminated gases and over a wide speed range. Poppet valves typically last 8,000-15,000 hours depending on the application, outlasting plate valves which may only achieve 4,000-8,000 hours. The document provides maintenance guidelines and compares expected lifetimes of plate, ring, and poppet valves in different compressor applications. Proper valve selection and maintenance are important to maximize reliability and efficiency.
This document provides a post-project assessment of a U.S. Department of Energy demonstration of coal reburning for NOx control at a cyclone boiler. The project achieved over 50% reductions in NOx emissions while maintaining boiler performance when burning both bituminous and subbituminous coal. Reburning involves creating reducing zones where NOx is converted to N2. The demonstration was conducted at a 110 MW unit and showed coal reburning is technically and economically feasible for retrofitting cyclone boilers, an important application since cyclone boilers account for a significant portion of coal-fired generation in the U.S.
1. Performance Verification Packet
Industrial Millwright V3
This performance verification is designed as one method to evaluate job skills and safe work habits of a participant. The
performance of the participant must be evaluated by an NCCER certified evaluator, at an NCCER authorized assessment
site and be approved by an NCCER accredited assessment center. For a Certified Plus credential, the version of the
assessment and performance verification must be the same.
Last Updated: September 2009
National Center for Construction Education and Research
rd
3600 NW 43 Street , Bldg. G • Gainesville, FL 32606
Telephone 352.334.0911 • Fax 352.334.0929
2. NCCER PERFORMANCE VERIFICATION HOW TO SHEET
INDUSTRIAL MILLWRIGHT V3
Participant
1) Print your last name, first name, and social security number.
2) Print your company name, current employer, and the state where your employer’s main
office is located.
3) In the space provided for “Participant Signature,” sign your name and enter the date you
signed the form.
Performance Evaluator
1) In the space provided for “Site Code,” enter the postal zip code of the location where the
performance verification is being conducted.
2) In the column provided for “Date,” enter the date the participant completed each of the
tasks. This date is important because there may be times a participant does not complete
the performance verification in one day.
3) In the space provided for “Performance Evaluator,” sign your name.
4) In the space provided for “Date,” next to your signature, list the date the participant
successfully completed all of the tasks.
Administrator
1) In the space provided for “Administrator,” sign your name. Your signature indicates that
the performance evaluator is certified to conduct this performance verification and that it
was conducted within the guidelines of the NCCER. Do not use a signature stamp.
2) In the space provided for “Date”, next to your signature, list the date that this
performance verification form is being sent to the NCCER for entry into the National
Registry.
3) In the space provided for “Accredited Assessment Center,” print the name of the
accredited assessment center that is conducting this performance verification.
Last Updated: September 2009
National Center for Construction Education and Research
rd
3600 NW 43 Street , Bldg. G • Gainesville, FL 32606
Telephone 352.334.0911 • Fax 352.334.0929
3. NCCER PERFORMANCE VERIFICATION EVALUATOR CHECKLIST
INDUSTRIAL MILLWRIGHT V3
Date
Completed Task To Perform
__-__-__ 1. Remove pump from casing
• Checked impeller condition
• Checked shaft and seal
__-__-__ 2. Remove impeller backplate and seal
• Checked shaft run out
• Checked for seal failure
• Inspected back plate
__-__-__ 3. Disassemble bearing housing
• Inspected shaft
• Checked for proper fit
__-__-__ 4. Install shaft and bearings into housing
• Checked and verified proper fit
• Made sure all secondary seals, O-rings, etc., are in place
__-__-__ 5. Install pump in casing
• Verified impeller clearance
• Verified seal setting after impeller clearance
• Proper specifications were met during installation
Last Updated: September 2009
National Center for Construction Education and Research
rd
36 00 NW 43 Street, Bldg. G• Gainesville, Florida 32606
Phone 352.334.0911 • Fax 352.334.0929
4. NCCER PERFORMANCE VERIFICATION CANDIDATE SUMMARY
INDUSTRIAL MILLWRIGHT V3
Objective
The candidate will demonstrate the ability to remove, inspect, disassemble, rebuild, install and align a
pump and record necessary information.
Scope
This Performance Verification provides a means to observe and evaluate competencies in the
following areas:
• Removing pump from casing
• Removing impeller back plate and seal
• Disassembly of bearing housing
• Installation of shafts and bearings into housing
• Installation of a pump into casing
Materials Required
• PPE • Machinist level
• Wrenches (combination) • Optical level
• Rigging equipment (i.e., sling, • Shims (hard pack and precision shims)
shackles, hoist, etc.) • Hand held mirror
• Pullers • Dial indicators with chain or reverse
• Induction heater alignment brackets
• 250-degree temp-stick • Laser
• Various coupling types • Brass punch
• Emery cloth or Scotchbrite • Pump Installed in Casing
• Flat file • Proper Measurement Tools
• Various bearing types • Pump Specification Sheet
• Allen wrenches • Hand / Power Tools
• Foundation and baseplates
Time Required
Based on Job Site specifications and equipment
Tasks
• Remove pump from casing
Check condition
Check shaft and seal
• Remove impeller backplate and seal
Check shaft
Check seal
Disassemble bearing housing
Inspect shaft
Check for proper fit
• Install shaft and bearings in housing
Check for proper fit
Make sure all secondary seals, O-rings, etc., are in place
• Install pump in casing
Verify proper clearances
Last Updated: September 2009
National Center for Construction Education and Research
rd
36 00 NW 43 Street, Bldg. G• Gainesville, Florida 32606
Phone 352.334.0911 • Fax 352.334.0929
5. NCCER PERFORMANCE VERIFICATION SUBMISSION FORM
INDUSTRIAL MILLWRIGHT V3
PVMLWR15_03 CRAFT
Candidate information
Last Name First Name Social Security Number
Employer/Company Name State Site Code
Evaluator
Last Name First Name Social Security Number
TASK TASK DATE START END
NUMBER (MM/DD/YY) TIME TIME
01 Remove pump from casing (15404-08)
02 Remove impeller backplate and seal (15304-08)
03 Disassemble bearing housing (15306-08)
04 Install shaft and bearings in housing (15306-08)
05 Install pump in casing (15405-08)
Consent/Release: I, the undersigned, do hereby authorize the National Center for Construction Education and
Research (NCCER) to release the information and results attained through the administration of
the National Craft Assessment and Certification Program (NCACP) to the organization
referenced below, and acknowledge that the employer noted above is my present employer.
Accredited Assessment Center: ___________________
Participant: Date:
Performance Evaluator: Date:
Primary Administrator: Date:
Last Updated: September 2009
Return Completed Form To:
NCCER Registry
36 00 NW 43rd St. Bldg . G • Gai nes vill e, Flor ida 32606
Phone 352-334-0911 • Fax 352-334-0929