In 2003, a refinery began a program to apply advanced composite wear rings, line shaft bearings, and related components. By September 2006, the program had expanded to 61 pumps, at which point plant personnel quantified results. The reliability impact of the program was evaluated using pump repair history, vibration records, and mechanical seal emissions data.
Results indicate that the program has been successful. Failures within the subject population decreased by 45%, overall vibration levels fell by an average of 25%, and mechanical seal emissions failures (for pumps subject to testing) dropped by 70%. These results suggest that proper application of composite materials can lead to improved reliability, and should be one of the options considered by plants seeking to increase their pump life.
Paradigm Projects is an engineering firm established in 2007 that specializes in structural strengthening, retrofitting, repairs, and remediation. It uses innovative techniques like concrete jacketing, grouting, fiber reinforced polymers, and resin injection. The company has extensive experience retrofitting and repairing structures for various objectives such as strengthening due to construction errors or load changes. It summarizes several projects involving retrofitting columns, slabs, and foundations using methods like fiber wrapping, grouting, and resin injection to repair cracks and deficiencies.
This document provides information on Citadel Technologies' pipe repair products, including DiamondWrap, BlackDiamond, DiamondWrap HP, and RhinoWrap composite wrap systems. It describes the materials, properties, testing, installation process, and benefits of using these carbon fiber composite systems for repairing pipelines and piping. The systems can restore pipes to maximum operating pressures without shutdowns. They are alternatives to clamps and replacements that save time and costs compared to other repair methods.
This document provides an overview of services offered by Integrated Technologies, Inc. related to surface finishing processes. It includes sections on master planning, facility design, project implementation, operations and maintenance support, opportunity assessments, asset management, production planning, water and wastewater management, and energy efficiency. Design drawings and diagrams are presented for surface finishing lines, tank sizing, phased renovation plans, and water recycling systems.
Pacific Minerals Processing is a company based in Western Australia that supplies process equipment to the mineral processing industry. The company's owners have over 65 years of combined experience in the Australian and African mineral processing sectors. Pacific Minerals Processing specializes in designing and supplying high-rate thickeners to concentrate slurries or sludges through the process of gravity sedimentation.
SCS Environmental Contracting Statement of Qualificationdmcoy
SCS Environmental Contracting, Inc. is an environmental contracting company that was incorporated in 1988 with offices in Fort Wayne, Indiana and Columbus, Ohio. They have a variety of specialized equipment and provide turn-key environmental remediation services from initial site investigation to completion. The company aims to hire skilled employees and provide quality service to clients on time and within budget while prioritizing safety.
This document advertises and provides information about the "Retrofitting for Energy Efficiency Europe" conference taking place on February 15-16, 2011 in London. The conference will bring together architects, project managers, and property owners to discuss cost-effective approaches to retrofitting and refurbishment projects. Speakers from organizations like Vinci, Bouygues, MT Hojgaard, and BRE will provide case studies and insights into delivering innovative retrofit strategies, new technologies, and legislation compliance. The conference aims to help attendees develop effective retrofit designs, execution plans, and upgrade programs to improve energy efficiency and secure their business in the growing retrofitting industry.
The program is designed to assist Building Designers meet the requirements of the Cal Green code. A Handout will be provided that will cover many other aspects of the Cal Green Non Residential code, but this session will focus on Energy Efficiency.
Since 2005, Gary has averaged over 125 days of instruction per year in a variety of energy conservation topics. These include: California Residential Energy Standards, Duct Testing for HVAC contractors, CHEERS Rater certification training for Building Envelope, HVAC, Solar PV as well as core building science. In 2008 Gary developed and was the lead instructor the CHEERS Existing Home training program. This extensive four-day class focuses on building science as well as the art of residential energy audits. Gary’s extensive field experience as a HERS rater and his technical building science knowledge ensures that his training is accurate and easy to understand. Gary’s light-hearted, logical and down-to-earth presentation style ensures that participants understand the material and how to apply the specific rules or applications to their particular situation.
Gary has been involved with Green building beginning in 2003 when he first became a LEED AP and has continued his support of Durable Sustainable Design. He has been on and coordinated Design /Implement Teams for Energy Management, Waste Reduction and Building Failure Remediation since the 1980’s.
Paradigm Projects is an engineering firm established in 2007 that specializes in structural strengthening, retrofitting, repairs, and remediation. It uses innovative techniques like concrete jacketing, grouting, fiber reinforced polymers, and resin injection. The company has extensive experience retrofitting and repairing structures for various objectives such as strengthening due to construction errors or load changes. It summarizes several projects involving retrofitting columns, slabs, and foundations using methods like fiber wrapping, grouting, and resin injection to repair cracks and deficiencies.
This document provides information on Citadel Technologies' pipe repair products, including DiamondWrap, BlackDiamond, DiamondWrap HP, and RhinoWrap composite wrap systems. It describes the materials, properties, testing, installation process, and benefits of using these carbon fiber composite systems for repairing pipelines and piping. The systems can restore pipes to maximum operating pressures without shutdowns. They are alternatives to clamps and replacements that save time and costs compared to other repair methods.
This document provides an overview of services offered by Integrated Technologies, Inc. related to surface finishing processes. It includes sections on master planning, facility design, project implementation, operations and maintenance support, opportunity assessments, asset management, production planning, water and wastewater management, and energy efficiency. Design drawings and diagrams are presented for surface finishing lines, tank sizing, phased renovation plans, and water recycling systems.
Pacific Minerals Processing is a company based in Western Australia that supplies process equipment to the mineral processing industry. The company's owners have over 65 years of combined experience in the Australian and African mineral processing sectors. Pacific Minerals Processing specializes in designing and supplying high-rate thickeners to concentrate slurries or sludges through the process of gravity sedimentation.
SCS Environmental Contracting Statement of Qualificationdmcoy
SCS Environmental Contracting, Inc. is an environmental contracting company that was incorporated in 1988 with offices in Fort Wayne, Indiana and Columbus, Ohio. They have a variety of specialized equipment and provide turn-key environmental remediation services from initial site investigation to completion. The company aims to hire skilled employees and provide quality service to clients on time and within budget while prioritizing safety.
This document advertises and provides information about the "Retrofitting for Energy Efficiency Europe" conference taking place on February 15-16, 2011 in London. The conference will bring together architects, project managers, and property owners to discuss cost-effective approaches to retrofitting and refurbishment projects. Speakers from organizations like Vinci, Bouygues, MT Hojgaard, and BRE will provide case studies and insights into delivering innovative retrofit strategies, new technologies, and legislation compliance. The conference aims to help attendees develop effective retrofit designs, execution plans, and upgrade programs to improve energy efficiency and secure their business in the growing retrofitting industry.
The program is designed to assist Building Designers meet the requirements of the Cal Green code. A Handout will be provided that will cover many other aspects of the Cal Green Non Residential code, but this session will focus on Energy Efficiency.
Since 2005, Gary has averaged over 125 days of instruction per year in a variety of energy conservation topics. These include: California Residential Energy Standards, Duct Testing for HVAC contractors, CHEERS Rater certification training for Building Envelope, HVAC, Solar PV as well as core building science. In 2008 Gary developed and was the lead instructor the CHEERS Existing Home training program. This extensive four-day class focuses on building science as well as the art of residential energy audits. Gary’s extensive field experience as a HERS rater and his technical building science knowledge ensures that his training is accurate and easy to understand. Gary’s light-hearted, logical and down-to-earth presentation style ensures that participants understand the material and how to apply the specific rules or applications to their particular situation.
Gary has been involved with Green building beginning in 2003 when he first became a LEED AP and has continued his support of Durable Sustainable Design. He has been on and coordinated Design /Implement Teams for Energy Management, Waste Reduction and Building Failure Remediation since the 1980’s.
This document provides an overview of building commissioning (Cx). It defines Cx, outlines the key approaches and benefits. It describes the commissioning process including developing owner's project requirements and functional performance testing. Tools used in Cx like checklists and issues logs are also reviewed. Existing building commissioning and the role of Cx in achieving LEED certification are summarized. The presentation concludes with contact information for additional questions.
The document summarizes the Allen S. King Rehabilitation Project. It provides an overview of the Metro Emissions Reduction Project and details of the King Plant Rehabilitation. Key activities include installing new pollution control equipment, rebuilding the boiler and replacing the steam turbine. The capital cost is estimated at $382 million and emissions of NOx, SO2, PM and HG will be reduced by 89%, 91%, 20% and 20% respectively. The status and schedule are outlined, with return to service planned for May 2007. Challenges include construction labor availability in fall 2006 and commodity price increases.
Richard Patrick Hord has over 38 years of experience in olefins, aromatics, and butadiene processes. He has lived in the Philippines since 2006 and is a US citizen. He has extensive experience with commissioning, startups, turnarounds and technical writing for major projects around the world. His resume details his education and qualifications, positions held, and projects completed with Dow Chemical and Union Carbide.
During 2008, Baker Hughes continued investing in people and technology to help oil and gas companies improve reservoir performance. The company delivered advanced solutions for unconventional gas and deepwater projects in North America and expanded internationally. Baker Hughes reinforced key positions while adapting to changing market conditions around the world and pursuing new opportunities for growth.
This document summarizes a case study using Statistical Energy Analysis (SEA) methods in the acoustic design of an advanced luxury sedan. Key findings include:
1) Presenting SEA results as a "pareto" chart of treatments ranked by their impact on meeting noise targets helped prioritize sound package content decisions.
2) Tracking acoustic absorption sources and assigning absorption values to vehicle subsystems was important for accurate SEA modeling of a complex vehicle.
3) Design sensitivity analysis identified the parameters most affecting noise levels at different frequencies, informing design changes with highest impact.
Dekker/Perich/Sabatini is an architecture, interiors, planning, and engineering firm with offices in Albuquerque, Las Vegas, and Amarillo. They provide comprehensive design services and have experience designing LEED certified buildings. They have 21 LEED Accredited Professionals on staff and have designed several educational, commercial, residential, and institutional projects under the LEED rating systems.
Safety advisors on site;
Risk assessments and method statements;
Emergency response plans;
Monitoring:
Inspections and audits;
Accident and incident reporting;
Review and improvement.
Communication:
Toolbox talks;
Notice boards;
Safety alerts.
Welfare:
Canteen and rest areas;
First aid provision;
Accommodation.
Personal Protective Equipment:
Issue and enforcement of use;
Maintenance and replacement.
Plant and Equipment:
Inspections and certification;
Operator competency;
Guarding and isolation.
Working at Height:
Scaffolding and MEWPs;
Edge protection;
Fall arrest
Opportunities For Existing Buildings - Deep Cut EmissionsMichael Skelton
This paper investigates the opportunity,
costs and benefits of making deeper cuts
than the minimum of 25% of greenhouse
gas (GHG) emissions by 2020 (as
required in the Bali Road Map) in the built
environment.
Thomas Conway has over 25 years of experience as an electrical technician in the oil and gas sector, most recently as Lead Electrical Technician on the FPSO Peregrino in Brazil. He has a proven track record of managing electrical maintenance and projects, as well as leading and developing teams. Conway is currently seeking a new career opportunity utilizing his extensive skills and experience in electrical work, maintenance, project management, and safety leadership.
The document discusses the expansion of The Forum Shops at Caesars in Las Vegas that was completed ahead of schedule and on budget. As the general contractor, Perini worked closely with the architecture and design teams. The expansion included a spiral escalator, large atrium with a skylight, and structural supports for the escalator. It also posed life safety and air handling challenges that were resolved through team effort. A representative from the architecture firm praised Perini for their experience in handling large, complicated projects.
William J. Maschinot is a process engineer with over 20 years of experience in operations management and process improvements. He has worked in various leadership roles directing manufacturing operations and implementing strategies to increase production capacity, quality, and safety while reducing costs. Maschinot is recognized for his expertise in Six Sigma and lean manufacturing methodologies and has worked on numerous projects from inception to completion. He has a proven track record of slashing costs and boosting productivity and efficiency across several industries.
Jim Cloer has over 15 years of experience in product engineering and process development across multiple industries. He specializes in developing and sustaining new products and processes, overseeing complex projects, and collaborating with clients. Recent projects at his side business DAC Aero involved designing replacement parts for obsolete firearm magazines using additive manufacturing. At previous employers he improved production processes, developed new products, and led cross-functional teams to resolve issues. He has a BS in Mechanical Engineering and expertise in design, manufacturing engineering, and technical tools like SolidWorks.
Susan Cassidy has over 15 years of experience as a process engineer, primarily working on refinery projects. She received her Bachelor's degree in Chemical Engineering in 2000. Her career includes roles as a process engineer at Engen Refinery and Foster Wheeler, where she led engineering projects in South Africa, Malaysia, Thailand, Kuwait, and Canada. Currently, she is the Principal Process Engineer at Engen Refinery, leading the Utilities group and overseeing various water reduction initiatives and projects.
Tolu John Adesanwo has over 5 years of experience in chemical process engineering, safety, and research. He has worked on projects involving wastewater treatment, refinery operations, and coal-derived liquid characterization. Adesanwo is proficient in process simulation software and safety training. He has a strong record of improving safety culture and resolving conflicts. Adesanwo also has research experience and publications characterizing coal liquids for refining.
Introducing Ways To Effectively Select The Right Material Anisaanisazila
The document discusses selecting materials for wastewater treatment plants in Bahrain that can withstand corrosion from effluent. It recommends using materials like glass-reinforced plastic (GRP) and polymer concrete pipe that are highly corrosion resistant. It emphasizes performing life cycle cost analyses to select materials that minimize costs over the long term. It also recommends implementing a quality assurance framework involving guidelines, audits, inspections and testing to ensure projects meet specifications and perform as intended.
Nitin Sardana has over 7 years of experience in chemical process optimization and improvement for metal finishing and polymerization processes. He has worked in both lab and production settings and has a proven track record of enhancing process operations to improve quality, efficiency, and cost savings. He is knowledgeable in quality systems and process analysis techniques and has experience leading projects to commission new production lines and troubleshoot process issues.
John B. Bloom is seeking a project manager position and has over 30 years of experience in engineering, project management, and nuclear technology. He holds a Master's degree in Environmental Technology, a Bachelor's degree in Nuclear Engineering, and a Project Management certification. His experience includes over two years as a mechanical engineer, developing procedures and instructions for complex systems, and managing projects using software like MS Office, AutoCAD, and SAP.
This document contains a resume for Michael G. Ilasi, who has over 6 years of experience as a Process Engineer. He has worked on projects involving air separation, steam methane reforming, hydrogen purification, natural gas processing, and helium purification and liquefaction. Currently he is a Cryogenic Systems Process Engineer at Air Products and Chemicals Inc., where he has led several projects including designing a hydrogen purification unit and supporting an air separation plant in Brazil. He holds an MS and BS in Chemical Engineering from Villanova University.
This document provides a summary of Sanjay Prakash Sharan's professional experience and qualifications. He has over 23 years of experience in operations, maintenance, project execution, commissioning, and management in the oil and gas industry. Currently he works as the Chief Engineer (Mechanical) for ONGC Ltd., managing gas turbine projects. He has extensive experience planning and managing projects, maintenance operations, and safety compliance. His background includes training personnel, conducting technical audits, developing maintenance strategies, and expertise in aeroderivative gas turbines.
This curriculum vitae summarizes the professional experience of Daswimm. He has over 20 years of experience in operations management, environmental health and safety roles. His experience includes positions at PT. Ecogreen Oleochemical, PT. Dow AgroSciences Indonesia, and currently as Operations Manager at PT Vopak Terminal Merak. He has a proven track record of achievements in areas such as waste water treatment, management of change processes, production optimization, and reducing safety incidents.
This document provides an overview of building commissioning (Cx). It defines Cx, outlines the key approaches and benefits. It describes the commissioning process including developing owner's project requirements and functional performance testing. Tools used in Cx like checklists and issues logs are also reviewed. Existing building commissioning and the role of Cx in achieving LEED certification are summarized. The presentation concludes with contact information for additional questions.
The document summarizes the Allen S. King Rehabilitation Project. It provides an overview of the Metro Emissions Reduction Project and details of the King Plant Rehabilitation. Key activities include installing new pollution control equipment, rebuilding the boiler and replacing the steam turbine. The capital cost is estimated at $382 million and emissions of NOx, SO2, PM and HG will be reduced by 89%, 91%, 20% and 20% respectively. The status and schedule are outlined, with return to service planned for May 2007. Challenges include construction labor availability in fall 2006 and commodity price increases.
Richard Patrick Hord has over 38 years of experience in olefins, aromatics, and butadiene processes. He has lived in the Philippines since 2006 and is a US citizen. He has extensive experience with commissioning, startups, turnarounds and technical writing for major projects around the world. His resume details his education and qualifications, positions held, and projects completed with Dow Chemical and Union Carbide.
During 2008, Baker Hughes continued investing in people and technology to help oil and gas companies improve reservoir performance. The company delivered advanced solutions for unconventional gas and deepwater projects in North America and expanded internationally. Baker Hughes reinforced key positions while adapting to changing market conditions around the world and pursuing new opportunities for growth.
This document summarizes a case study using Statistical Energy Analysis (SEA) methods in the acoustic design of an advanced luxury sedan. Key findings include:
1) Presenting SEA results as a "pareto" chart of treatments ranked by their impact on meeting noise targets helped prioritize sound package content decisions.
2) Tracking acoustic absorption sources and assigning absorption values to vehicle subsystems was important for accurate SEA modeling of a complex vehicle.
3) Design sensitivity analysis identified the parameters most affecting noise levels at different frequencies, informing design changes with highest impact.
Dekker/Perich/Sabatini is an architecture, interiors, planning, and engineering firm with offices in Albuquerque, Las Vegas, and Amarillo. They provide comprehensive design services and have experience designing LEED certified buildings. They have 21 LEED Accredited Professionals on staff and have designed several educational, commercial, residential, and institutional projects under the LEED rating systems.
Safety advisors on site;
Risk assessments and method statements;
Emergency response plans;
Monitoring:
Inspections and audits;
Accident and incident reporting;
Review and improvement.
Communication:
Toolbox talks;
Notice boards;
Safety alerts.
Welfare:
Canteen and rest areas;
First aid provision;
Accommodation.
Personal Protective Equipment:
Issue and enforcement of use;
Maintenance and replacement.
Plant and Equipment:
Inspections and certification;
Operator competency;
Guarding and isolation.
Working at Height:
Scaffolding and MEWPs;
Edge protection;
Fall arrest
Opportunities For Existing Buildings - Deep Cut EmissionsMichael Skelton
This paper investigates the opportunity,
costs and benefits of making deeper cuts
than the minimum of 25% of greenhouse
gas (GHG) emissions by 2020 (as
required in the Bali Road Map) in the built
environment.
Thomas Conway has over 25 years of experience as an electrical technician in the oil and gas sector, most recently as Lead Electrical Technician on the FPSO Peregrino in Brazil. He has a proven track record of managing electrical maintenance and projects, as well as leading and developing teams. Conway is currently seeking a new career opportunity utilizing his extensive skills and experience in electrical work, maintenance, project management, and safety leadership.
The document discusses the expansion of The Forum Shops at Caesars in Las Vegas that was completed ahead of schedule and on budget. As the general contractor, Perini worked closely with the architecture and design teams. The expansion included a spiral escalator, large atrium with a skylight, and structural supports for the escalator. It also posed life safety and air handling challenges that were resolved through team effort. A representative from the architecture firm praised Perini for their experience in handling large, complicated projects.
William J. Maschinot is a process engineer with over 20 years of experience in operations management and process improvements. He has worked in various leadership roles directing manufacturing operations and implementing strategies to increase production capacity, quality, and safety while reducing costs. Maschinot is recognized for his expertise in Six Sigma and lean manufacturing methodologies and has worked on numerous projects from inception to completion. He has a proven track record of slashing costs and boosting productivity and efficiency across several industries.
Jim Cloer has over 15 years of experience in product engineering and process development across multiple industries. He specializes in developing and sustaining new products and processes, overseeing complex projects, and collaborating with clients. Recent projects at his side business DAC Aero involved designing replacement parts for obsolete firearm magazines using additive manufacturing. At previous employers he improved production processes, developed new products, and led cross-functional teams to resolve issues. He has a BS in Mechanical Engineering and expertise in design, manufacturing engineering, and technical tools like SolidWorks.
Susan Cassidy has over 15 years of experience as a process engineer, primarily working on refinery projects. She received her Bachelor's degree in Chemical Engineering in 2000. Her career includes roles as a process engineer at Engen Refinery and Foster Wheeler, where she led engineering projects in South Africa, Malaysia, Thailand, Kuwait, and Canada. Currently, she is the Principal Process Engineer at Engen Refinery, leading the Utilities group and overseeing various water reduction initiatives and projects.
Tolu John Adesanwo has over 5 years of experience in chemical process engineering, safety, and research. He has worked on projects involving wastewater treatment, refinery operations, and coal-derived liquid characterization. Adesanwo is proficient in process simulation software and safety training. He has a strong record of improving safety culture and resolving conflicts. Adesanwo also has research experience and publications characterizing coal liquids for refining.
Introducing Ways To Effectively Select The Right Material Anisaanisazila
The document discusses selecting materials for wastewater treatment plants in Bahrain that can withstand corrosion from effluent. It recommends using materials like glass-reinforced plastic (GRP) and polymer concrete pipe that are highly corrosion resistant. It emphasizes performing life cycle cost analyses to select materials that minimize costs over the long term. It also recommends implementing a quality assurance framework involving guidelines, audits, inspections and testing to ensure projects meet specifications and perform as intended.
Nitin Sardana has over 7 years of experience in chemical process optimization and improvement for metal finishing and polymerization processes. He has worked in both lab and production settings and has a proven track record of enhancing process operations to improve quality, efficiency, and cost savings. He is knowledgeable in quality systems and process analysis techniques and has experience leading projects to commission new production lines and troubleshoot process issues.
John B. Bloom is seeking a project manager position and has over 30 years of experience in engineering, project management, and nuclear technology. He holds a Master's degree in Environmental Technology, a Bachelor's degree in Nuclear Engineering, and a Project Management certification. His experience includes over two years as a mechanical engineer, developing procedures and instructions for complex systems, and managing projects using software like MS Office, AutoCAD, and SAP.
This document contains a resume for Michael G. Ilasi, who has over 6 years of experience as a Process Engineer. He has worked on projects involving air separation, steam methane reforming, hydrogen purification, natural gas processing, and helium purification and liquefaction. Currently he is a Cryogenic Systems Process Engineer at Air Products and Chemicals Inc., where he has led several projects including designing a hydrogen purification unit and supporting an air separation plant in Brazil. He holds an MS and BS in Chemical Engineering from Villanova University.
This document provides a summary of Sanjay Prakash Sharan's professional experience and qualifications. He has over 23 years of experience in operations, maintenance, project execution, commissioning, and management in the oil and gas industry. Currently he works as the Chief Engineer (Mechanical) for ONGC Ltd., managing gas turbine projects. He has extensive experience planning and managing projects, maintenance operations, and safety compliance. His background includes training personnel, conducting technical audits, developing maintenance strategies, and expertise in aeroderivative gas turbines.
This curriculum vitae summarizes the professional experience of Daswimm. He has over 20 years of experience in operations management, environmental health and safety roles. His experience includes positions at PT. Ecogreen Oleochemical, PT. Dow AgroSciences Indonesia, and currently as Operations Manager at PT Vopak Terminal Merak. He has a proven track record of achievements in areas such as waste water treatment, management of change processes, production optimization, and reducing safety incidents.
Wayne Justin Smith Jr. has over 6 years of experience as a mechanical engineer working in nuclear propulsion. He received a Master's degree in Mechanical Engineering from Georgia Tech with a 3.9 GPA and currently works as an engineer for Bechtel Marine Propulsion Corporation, where he facilitates reactor testing and ensures safety. Prior to his current role, he worked for Bechtel developing testing procedures for nuclear components and supervising engineers in researching sound dampening materials.
Zvi Eisenberg has over 33 years of experience in the commercial nuclear industry. He has held various roles including lead engineer, manager, staff engineer, and project manager. His experience includes design, engineering, safety analysis, licensing, root cause analysis, and operations support. He has extensive knowledge of regulations, standards, and requirements related to nuclear facility operations and safety.
Zvi Eisenberg has over 33 years of experience in the commercial nuclear industry. He has held various roles including lead engineer, manager, staff engineer, and project manager. His experience includes design, engineering, safety analysis, licensing, root cause analysis, and operations support. He has extensive knowledge of federal and state regulations as well as industry standards related to nuclear facility operations and safety.
This document provides information about Bestwork Plumbing Inc., including their mission, management team, and the resume of their Technical and Managing Director, Senando DT Trajico. Bestwork Plumbing aims to become a leading plumbing construction firm through high quality work and client satisfaction. The management team has extensive local and international experience in construction fields. Senando DT Trajico has over 30 years of experience in civil engineering, plumbing, and project management.
Fluorocarbon is one of the largest fluoropolymer processors in the UK and a global supplier. It has 6 manufacturing sites and supplies a wide range of fluoropolymer products and components to various industries such as aerospace, automotive, chemical processing, food processing, and more. It offers products like PTFE pipes, fittings and hoses, machined and molded components, industrial bakeware, high performance coatings, and seals.
Ali Khosrowzadeh has over 10 years of experience in drilling engineering for offshore and onshore operations. He has expertise in drilling fluid systems and all facets of drilling operations. As a senior drilling engineer, he designed drilling programs, optimized bit selection, and identified solutions to drilling problems to reduce costs and improve well production. He has a proven record of sharing knowledge and improving drilling operations through training, technology, and process improvements.
This document provides a summary of Jitendra Kumar Gupta's work experience and qualifications. It outlines his 26 years of experience in instrumentation engineering, including roles in project management, maintenance, and commissioning of fertilizer plants in India and abroad. It also lists his educational background in instrumentation engineering and training in areas like SAP and technical teaching.
Rashid Iqbal has over 12 years of experience as a process engineer working in gas treating, NGL extraction, sulfur recovery, utilities, and fertilizer industries. He currently works as a process engineer at GASCO in Abu Dhabi, where he performs various duties including plant performance testing, troubleshooting, energy optimization, and participating in HAZOP studies. Previously, he worked as a process diagnostics engineer and helped optimize operations at various oil and gas facilities in the Middle East. He also has experience working on an ammonia plant revamp project in Pakistan.
Brian Spencer is a Managing Director and Design and Training Consultant at Avion Technical Services Limited based in Knowle, West Midlands. He has 29 years of experience in high pressure gas engineering, including operations, maintenance, design, construction, and training. He holds qualifications including a BSc in Mechanical Engineering, an NVQ A1 and V1, and is a Fellow of the Institution of Mechanical Engineers.
Brian Spencer is a Managing Director and Design and Training Consultant at Avion Technical Services Limited based in Knowle, West Midlands. He has 29 years of experience in high pressure gas engineering, including experience in operations, maintenance, design, construction and training. He holds qualifications including a BSc in Mechanical Engineering, an NVQ A1 and V1, and is a Fellow of the Institution of Mechanical Engineers. He has worked as an engineering manager and consultant for various companies and organizations within the gas industry.
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𝐔𝐧𝐯𝐞𝐢𝐥 𝐭𝐡𝐞 𝐅𝐮𝐭𝐮𝐫𝐞 𝐨𝐟 𝐄𝐧𝐞𝐫𝐠𝐲 𝐄𝐟𝐟𝐢𝐜𝐢𝐞𝐧𝐜𝐲 𝐰𝐢𝐭𝐡 𝐍𝐄𝐖𝐍𝐓𝐈𝐃𝐄’𝐬 𝐋𝐚𝐭𝐞𝐬𝐭 𝐎𝐟𝐟𝐞𝐫𝐢𝐧𝐠𝐬
Explore the details in our newly released product manual, which showcases NEWNTIDE's advanced heat pump technologies. Delve into our energy-efficient and eco-friendly solutions tailored for diverse global markets.
AI Transformation Playbook: Thinking AI-First for Your BusinessArijit Dutta
I dive into how businesses can stay competitive by integrating AI into their core processes. From identifying the right approach to building collaborative teams and recognizing common pitfalls, this guide has got you covered. AI transformation is a journey, and this playbook is here to help you navigate it successfully.
NIMA2024 | De toegevoegde waarde van DEI en ESG in campagnes | Nathalie Lam |...BBPMedia1
Nathalie zal delen hoe DEI en ESG een fundamentele rol kunnen spelen in je merkstrategie en je de juiste aansluiting kan creëren met je doelgroep. Door middel van voorbeelden en simpele handvatten toont ze hoe dit in jouw organisatie toegepast kan worden.
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Efficient PHP Development Solutions for Dynamic Web ApplicationsHarwinder Singh
Unlock the full potential of your web projects with our expert PHP development solutions. From robust backend systems to dynamic front-end interfaces, we deliver scalable, secure, and high-performance applications tailored to your needs. Trust our skilled team to transform your ideas into reality with custom PHP programming, ensuring seamless functionality and a superior user experience.
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Enhancing Adoption of AI in Agri-food: IntroductionCor Verdouw
Introduction to the Panel on: Pathways and Challenges: AI-Driven Technology in Agri-Food, AI4Food, University of Guelph
“Enhancing Adoption of AI in Agri-food: a Path Forward”, 18 June 2024
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Prescriptive analytics BA4206 Anna University PPTFreelance
Business analysis - Prescriptive analytics Introduction to Prescriptive analytics
Prescriptive Modeling
Non Linear Optimization
Demonstrating Business Performance Improvement
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Driving Pump Reliability Forward in Refineries with Advanced Composite Wear Rings
1. Table of Contents
DRIVING PUMP RELIABILITY FORWARD WITH ADVANCED COMPOSITE WEAR RINGS
by
Robert Aronen
Technical Support Engineer
IndustryUptime
Benicia, California
Brian Boulden
President
Boulden Company
Conshohocken, Pennsylvania
Martin Russek
Rotating Equipment Specialist
Sunoco Inc.
Westville, New Jersey
Mr. Russek graduated with a B.S. degree (Mechanical
Robert Aronen is Technical Support Engineering, 1989) from Trenton State College.
Engineer with IndustryUptime, in Benicia,
California. He has been providing engineering
support for DuPont™ Vespel® CR-6100 in ABSTRACT
the pump market since 2002. In 2000,
In 2003, a refinery began a program to apply advanced
he cofounded IndustryUptime, a rotating
composite wear rings, line shaft bearings, and related components.
equipment reliability company. His prior
By September 2006, the program had expanded to 61 pumps, at
experience includes four years as a rotating
which point plant personnel quantified results. The reliability
equipment engineer in the refining industry
impact of the program was evaluated using pump repair history,
and six years as an engineer for Flowserve
vibration records, and mechanical seal emissions data.
Fluid Sealing Division. His work has been published in
Results indicate that the program has been successful. Failures
Hydrocarbon Processing and Pumps & Systems.
thin the subject population decreased by 45 percent, overall
Mr. Aronen received a B.S. degree (Mechanical Engineering,
vibration levels fell by an average of 25 percent, and mechanical
1991) from Rose-Hulman Institute of Technology.
seal emissions failures (for pumps subject to testing) dropped by
70 percent. These results suggest that the proper application of
composite materials can lead to improved reliability, and should be
Brian Boulden has been President of
one of the options considered by plants seeking to increase their
Boulden Company, in Conshohocken,
pump life.
Pennsylvania, since 1991. Boulden Company
distributes engineered products including INTRODUCTION
DuPont™ Vespel® CR-6100 for the U.S.
Gulf Coast, Northeast, Eastern Canada, In 2003, the Sunoco, Eagle Point refinery began using
Caribbean, and Western Europe. He has composite wear materials to improve the reliability of pumps in
worked in the petrochemical and refining challenging services. Common problems for the subject pumps
industries since 1983. included inadequate suction conditions, potential run-dry exposure
Mr. Boulden received a B.A. degree due to process upsets, and inadequate rotor stability in light
(Business, 1981) from Westchester University. hydrocarbon service. The refinery was seeking a material that
could survive these adverse process conditions, be chemically
compatible with refinery process chemicals, have an adequate
Martin Russek has been a Rotating temperature range to allow broad application, and have good
Equipment Specialist and Senior Rotating machining and installation properties for the site repair facility.
Equipment Engineer at the Eagle Point Success in the initial problem pumps led to a program approach,
Refinery (now owned by Sunoco), in resulting in a total of 61 pumps being converted to composite wear
Westville, New Jersey, for the past eight components as of the summer of 2006.
years. He has been involved in numerous The material used in this program (hereafter referred to as
performance upgrades on compressors, “composite”) is a compression molded composite of a fluoropolymer
pumps, and turbines. Prior to his work at resin reinforced by long carbon fibers oriented in a directional
Eagle Point, he was a Systems Engineer and matrix. The directional matrix creates an anisotropic material that
Maintenance Engineer for Public Service has different properties in the x-y plane as compared to the z-axis.
Electric & Gas Company. He has a Level II vibration For the purpose of pump components, the x-y plane represents
certification from Entek and is an INPO certified Systems Engineer. properties perpendicular to the rotating element, and the z-axis
15
2. Table of Contents
16 PROCEEDINGS OF THE TWENTY-THIRD INTERNATIONAL PUMP USERS SYMPOSIUM • 2007
represents properties in the direction along the axis of the pump Most pump repairs were completed by the onsite refinery
shaft. Material properties and selected test data are shown in maintenance facility using the following procedures. Composite
Table 1. components were machined and installed with an interference fit.
Some applications used the composite as a solid component
Table 1. Composite Properties and Test Data. (Figure 3), other applications used the composite as an insert into
the existing metal wear ring, which was machined and used as a
Property English Units Test Method
holder (Figure 4). In either case, additional anti-rotation devices
Thermal Expansion Coefficient (x-y plane) 1.8 X 10-6 in./in./ºF ASTM D-696 such as pins or screws were not used—the interference fit
providing the sole anti-rotation mechanism. This method has
Thermal Expansion Coefficient (z-direction) to 300ºF -6
180 X 10 in./in./ºF ASTM D-696 proved effective. Existing metal rotating components were run
against the composite stationary components with no special
Dynamic Coefficient of Friction (@ 25 ft./min.) 0.20 --
machining or hardness requirements.
Limiting PV >155,000 ft./min.-psi --
Hardness 75-80 Shore D ASTM D-2240
Ultimate Compressive Strength (x-y plane) 11.7 ksi ASTM D-695
Compressive Modulus (x-y plane) 383 ksi ASTM D-695
Ultimate Compressive Strength (z-direction) 43.8 ksi ASTM D-695
Compressive Modulus (z-direction) 318 ksi ASTM D-695
Water Absorption <1% ASTM D-5229
Stationary pump wear rings, throat bushings, interstage
bushings, pressure reducing bushings, and vertical pump line shaft
bearings and bowl bushings were converted from metal to the
composite. Figure 1 shows the location of composite components
in a typical horizontal pump. Figure 2 shows the location of
composite components in a typical vertical pump.
Figure 3. Solid Composite Wear Ring.
Figure 1. Composite Components in a Horizontal Pump. (Courtesy,
http://www2.dupont.com/Vespel/en_US/Literature/crfam.pdf)
Figure 4. Composite Insert Wear Ring.
Subject Pump Population
The subject population provides a good cross section of typical
refinery services. A total of 61 pumps were retrofitted to include
composite wear components, in both horizontal and vertical
pumps, with exposure to nearly all of the most common
refinery-service products and chemicals.
• Temperatures from 65 F (18 C) to 475 F (246 C)
• Services included ethane, propane, gasoline, boiler feed water,
furnace oil, kerosene, diethanolamine (DEA), cumene, sulfuric
acid, caustic, naphtha, and sour water
• Thirty-six vertical pumps and 25 horizontal pumps, with power
ranges from 25 horsepower to 750 horsepower
• API pump types single-stage overhung (OH2), vertical inline
(OH4), between bearings double-suction (BBI) as shown in
Figure 5, between bearings horizontally split multistage (BB3), and
Figure 2: Composite Components in a Vertical Pump. multistage vertical (VS6)
3. Table of Contents
DRIVING PUMP RELIABILITY FORWARD WITH ADVANCED COMPOSITE WEAR RINGS 17
improvement limited to the 2 to 4 percent of the population with
adverse process conditions that could lead to seizure? Is the
improvement sustainable over long periods of time, or is vibration
reduced at the initial installation only to increase six months later?
The results from this program suggest that composite wear
components with reduced running clearance produce a significant
and lasting improvement in pump reliability.
Data were collected for 61 pumps with time in service ranging
from 86 days to 1240 days, with an average time in service of 407
days. The population of 61 pumps generated a cumulative run-time
of 68 years (refer to APPENDIX A on methodology for details).
Total failures during the equivalent run-time before and after were
counted and used to calculate mean time between repair (MTBR),
using total time in service divided by number of failures.
For the entire population, there were 22 failures during the 68
years of run-time before conversion, and 12 failures during the 68
years of run-time after conversion. MTBR increased from 37
months to 68 months.
A legitimate question would be whether or not this reliability
Figure 5. Between Bearings Pump with Composite Wear Rings improvement is sustainable over several years. To evaluate the
Installed. longer term reliability improvement, the same calculation was
completed for pumps in service for more than one year, and for
pumps in service for more than two years. Table 2 shows the
• Sixteen pumps in intermittent services, such as tank farm and results. At a minimum, these data suggest that the reliability
loading pumps, and 45 pumps inside continuous process units
improvement is not a short-lived phenomenon.
• Twenty-one pumps in volatile organic compound ([VOC]—
hydrocarbons with vapor pressure greater than 14.7 psia at ambient Table 2. Reliability Improvement Based on Time in Service.
temperature—68 F) service, 12 of which use single seals and are
subject to the site leak detection and repair (LDAR) program > 1 Year Service > 2 Years Service
• Specific speeds from 600 to 8500, and rotational speeds from Number of Pumps 29 5
1200 rpm to 3600 rpm
Total Run Time 46.5 Years 12.8 Years
The Potential Benefits of Composites in Pumps
Failures Before 20 7
Composites in pumps offer two types of benefits. The first is the
potential for the pump to survive run-dry or off-design conditions Failures After 9 1
that could cause metal components to seize. The first benefit leads
to the second benefit—a material that is not prone to seizure can MTBR Before 27 Months 22 Months
be installed with reduced clearances compared to the API standard. MTBR After 62 Months 154 Months
Looking at the first benefit, a very small fraction of pumps
failures are blamed on wear ring seizure or run-dry conditions.
Reliability studies where failure causes have been identified The improvement has obviously been the most dramatic for the
suggest these failure modes to account for 2 to 4 percent of pump initial pumps converted to composites. This should not be a
failures (Bloch, 1988). However, pump seizure has the potential to surprise, as these pumps were “bad actors” with repeat failures
be a high-energy failure mode leading to serious consequences, prior to conversion to composite components.
such as excessive pump repair costs or potential environmental
or safety incidents. Avoiding these failures, therefore, offers a Vibration
significant benefit for many pumping applications.
Reducing wear ring clearance creates a number of opportunities As discussed, reduced wear ring clearance should result in
for improved pump reliability and performance. Reducing greater rotor stability due to the Lomakin effect. One would think
clearance increases rotor damping forces due to the Lomakin effect that greater rotor stability would lead to lower overall vibration
(Lobanoff and Ross, 1992), which would suggest pumps should levels; however, no field study known to the authors has been
achieve lower vibration levels. Lobanoff and Ross (1992) also undertaken to establish the degree to which vibration is reduced
note that reduced wear ring clearance reduces the net positive when wear ring clearances are reduced.
suction head required (NPSHR), which has the potential to Essentially the same methodology was used to evaluate the
mitigate cavitation in marginal situations. (Unfortunately, field impact on vibration—using overall vibration readings from before
instrumentation did not allow for measurement of NPSHR and and after the conversion date. Three points before conversion and
these data could not be included in this study.) Lower vibration after conversion were used. The three “before composite” data
and reduced cavitation should logically result in improved pump points were from readings one year, six months, and one month
reliability. Individual case studies have been published to support before conversion. The three “after composite” data points were
this assertion, with small groups of pumps showing substantial from readings one month, six months, and one year after
reliability improvement (Komin, 1990; Pledger, 2001). conversion. (In practice, due to the pumps being converted to
composites at different times, being on different data collection
RESULTS OF STUDY routes, and running only during some of the vibration collection
intervals, these “dates” for the data points can best be described as
Pump Reliability “approximate timeframes.”)
While pump design texts and individual case studies would It is difficult to compare before and after vibration data due to
suggest pump reliability should improve, key questions remain: the mass of data—multiple data collection points on each pump,
Does pump reliability for a population improve, or is the different pump types, and vibration occurring at multiple
4. Table of Contents
18 PROCEEDINGS OF THE TWENTY-THIRD INTERNATIONAL PUMP USERS SYMPOSIUM • 2007
frequencies. Therefore, the data needed to be simplified. First, vibration data, it would seem self-evident that improved rotor
vibration frequency was ignored and only overall velocity readings stability would also improve mechanical seal reliability.
were used for each data point. Next, the average of the individual An area of particular importance is the reliability of mechanical
overall readings for a pump was used as the vibration magnitude seals in VOC service, due to increasingly restrictive national and
for any point in time—an overall of overalls. (Example: if an local emissions regulations. Furthermore, this section of pumps
overhung horizontal pump had three data collection points, with lends itself to study. At the time of this study, the site recorded
horizontal, vertical, and axial overall vibration readings of 0.12, emissions failures of pumps in VOC service in an LDAR database,
0.18, and 0.20 inches per second (ips), the “overall” reading at that providing a record of how many times each pump exceeded the
point in time would be the average of these three overalls, or 0.17.) local standard for VOC emissions.
Vibration readings were only used for horizontal pumps, due to Within the population studied, 21 pumps were in services that
data collection points being directly on the pump rotor (refer to fell under the definition of VOC. Most of these pumps were in
Note on Vertical Pumps below). Sufficient data were available for gasoline, butane, or propane service. Twelve of these pumps use
a total of 24 pumps, with results shown in Figure 6. single seals and therefore have a recorded emissions failure history
within the site LDAR program.
The impact of composites was evaluated by counting emissions
failures during the equivalent run-time before and after conversion
to composite wear rings. For the 12 pumps with single seals, there
was a total of 14.2 years of run-time with composites. Figure 7
shows the number of emissions failures before and after the
composite program. During the period prior to composite
installation, there were seven emissions failures; after composites,
there were two emissions failures—a 70 percent reduction in
emissions failure rate.
Figure 6. Vibration Magnitude Before and After Composite
Installation.
The results show an average reduction of 25 percent in overall
vibration levels for the subject population from 0.15 to 0.11 ips.
The impact of composites was evaluated by dividing the data set
into two groups, the “Top ½” of pumps showing the largest
improvement and the “Bottom ½” of pumps showing little or no Figure 7. Emissions Failures Before and After Composite
vibration reduction. We find that the top half of pumps were previ- Installation.
ously running with higher vibration amplitudes (>0.15 ips), and
experienced an average vibration reduction of 42 percent. For the Efficiency
bottom half of pumps, which were already running at very low Efficiency improvements from reduced wear ring clearance have
vibration (close to 0.1 ips), reducing the clearance with composites been well documented both in pump design texts (Bloch and
had no impact on vibration. Geitner, 1985) and case histories (Pledger, 2001). Unfortunately,
Note on Vertical Pumps typical field instrumentation does not allow for extremely accurate
measurement of pump efficiency, and for that reason efficiency
Vibration data for vertical pumps were not used in this study. data have not been included in this study.
This was a function of methodology, not whether or not there is a Combined with previous work demonstrating improved
rotor stability benefit for vertical pumps. Horizontal pump efficiency, the improved pump reliability demonstrated by these
vibration measurement occurs on the bearing housings for the results should be of significant interest to business managers. In
pump rotor. Vertical pump vibration measurement typically occurs the past, reliability managers would suggest that a 2 percent
at the motor, which may provide a better indication of motor health increase in pump efficiency was interesting, but the real goal of the
than pump rotor stability. To avoid this debate, vertical pumps were organization was to improve reliability. Looking at the gains in
omitted from this study. reliability demonstrated by this study, it appears as though plants
This is not to say that vertical pumps have stable rotors. Rotor can both increase efficiency and reliability simultaneously.
instability problems are actually more common in vertical pumps
than in horizontal pumps (Corbo and Malanoski, 1998). Long shaft CONCLUSIONS
vertical pumps can experience serious problems such as whirl at
the line shaft bearings (Corbo, et al., 2002). Reducing clearance at This work has highlighted several key benefits of using
the line shaft bearings may help to address some of these problems composite wear components in pumps: reduced vibration, reduced
with vertical pumps. seal VOC failures, and improved reliability. While it would not be
responsible to assume the degree of success in this program is
Emissions typical or entirely due to the conversion to composites, the authors
can make some conclusions:
Pump failures are most frequently attributed to mechanical seals
(Bloch, 1988). In practice, vibration, shaft deflection, cavitation, or • The 61 pumps converted to composites demonstrated an
multiple other causes can result in a pump failure that is identified improvement in reliability. The total number of failures for all pumps
in maintenance records as “mechanical seal failure.” Similar to the converted to composites fell by 45 percent during the test period.
5. Table of Contents
DRIVING PUMP RELIABILITY FORWARD WITH ADVANCED COMPOSITE WEAR RINGS 19
• The pumps that were converted to composite wear rings with conversion data were evaluated. If the conversion date was six
reduced clearance demonstrated lower vibration, particularly for months ago, then only six months of prior conversion data
pumps that previously operated with higher vibration levels. The were evaluated. The end result is an “equivalent” run-time before
average vibration reduction was 25 percent. conversion, and again a cumulative run-time of 68 years prior to
the composite conversion.
• Single seals in VOC services showed significantly improved
Finally, this study draws conclusions based on simple criteria:
reliability after conversion to composite wear rings with reduced
clearance. After conversion, pump failures due to mechanical seal pump failures are bad, low vibration is better than high vibration,
emissions in services subject to the site LDAR program were and emissions failures are unwanted. In other words, no attempt
reduced by 70 percent. was made to evaluate the root cause of failures, the cause of
vibration, or the cause of mechanical seal leakage before and after
• Pumps that may experience run-dry conditions or process upsets the composite installation.
showed the largest increase in reliability. The initial group of
pumps that were targeted due to process-related issues experienced REFERENCES
an 85 percent reduction in failures. Bloch, H. P., 1988, Practical Machinery Management for Process
Plants Volume 1: Improving Machinery Reliability, Second
This study of 61 pumps, incorporating over 68 years of running Edition, Houston, Texas: Gulf Publishing Company.
time demonstrates that composite wear materials can contribute
toward improved pump reliability. The reliability impact was Bloch, H. P. and Geitner, F. K., 1985, Practical Machinery
demonstrated across the entire data set. This would suggest that a Management for Process Plants, Volume 4: Major Process
significant opportunity exists for plants to improve pump reliabil- Equipment Maintenance and Repair, Houston, Texas: Gulf
ity and efficiency simultaneously. Publishing Company.
Corbo, M. A., Leishear, R. A., and Stefanko, D. B., 2002, “Practical
APPENDIX A— Use of Rotordynamic Analysis to Correct a Vertical Long Shaft
METHODOLOGY Pump’s Whirl Problem,” Proceedings of the Nineteenth
To quantify the reliability impact of the program, the study International Pump Users Symposium, Turbomachinery
compiled pump repair, vibration, and mechanical seal emissions Laboratory, Texas A&M University, College Station, Texas,
failure data from before and after the composite conversion. The pp. 107-120.
site maintenance management system provided pump repair Corbo, M. A. and Malanoski, S. B., 1998, “Pump Rotordynamics
history, the site vibration monitoring program provided vibration Made Simple,” Proceedings of the Fifteenth International
data, and emissions failure history was obtained from the site Pump Users Symposium, Turbomachinery Laboratory, Texas
LDAR program. A&M University, College Station, Texas, pp. 167-204.
One of the difficulties in establishing the impact of any change
in pump repair practice is that the change occurs at the time of Komin, R. P., 1990, “Improving Pump Reliability in Light
repair. Therefore, each pump has a different “conversion date” Hydrocarbon and Condensate Service with Metal Filled
from which to evaluate results. Therefore, simply using the con- Graphite Wear Parts,” Proceedings of the Seventh International
version date of the first pump as the starting date for all 61 pumps Pump Users Symposium, Turbomachinery Laboratory, Texas
would obscure the results. A&M University, College Station, Texas, pp. 49-54.
To address this issue, the conversion date for each pump was Lobanoff, V S. and Ross, R. R., 1992, Centrifugal Pumps: Design
.
identified from maintenance records so that the actual time in and Application, Second Edition, Houston, Texas: Gulf
service for each pump was used as the evaluation period. Publishing Company.
Subtracting the conversion date from the data collection date for
each pump generated the run-time for each pump. Adding the Pledger, J. P., 2001, “Improving Pump Performance & Efficiency
run-times for all 61 pumps resulted in the “cumulative run-time” of with Composite Wear Components,” World Pumps, Number 420.
68 years.
A related problem arises in determining how much prior repair BIBLIOGRAPHY
history to use in determining baseline performance. Perhaps a Bloch, H. P. and Budris, A. R., 2004, Pump User’s Handbook: Life
pump failed twice in the five years before conversion, but the Extension, Lilburn, Georgia: Fairmont Press, Inc.
composite has only been in service for 18 months with no failures.
Is it accurate to say that the prior MTBR was 30 months and the
ACKNOWLEDGEMENT
current MTBR is infinite?
To avoid this misrepresentation, equal time periods before and The authors would like to thank Dave Pfaff, Technical Service
after conversion were used for data collection. In other words, if the Engineer at the DuPont™ Vespel® manufacturing plant in Valley
conversion date was three years ago, then three years of prior View, Ohio, for providing composite material information.
6. Table of Contents
20 PROCEEDINGS OF THE TWENTY-THIRD INTERNATIONAL PUMP USERS SYMPOSIUM • 2007