Friday, 19 February 2016

Wednesday, 13 January 2016

Friday, 9 October 2015

Process Piping & Pipelines System



 

One of the most important components of the infrastructure in the industrialized world is the vast network of pipelines and process piping—literally millions and millions of miles. The term “pipelines” generally refers to the network of pipelines that transport water, sewage, steam, and gaseous and liquid hydrocarbons from sources (e.g., reservoirs, steam plants, oil and gas wells, refineries) to local distribution centers (“transmission pipelines”), and to the network of pipelines that distribute such products to local markets and end users (“distribution” pipelines). The term “process piping” generally refers to the system of pipes that transport process fluids (e.g., air, steam, water, industrial gases, fuels, chemicals) around an industrial facility involved in the manufacture of products or in the generation of power. Pipelines and process piping are generally made of steel, cast iron, copper, or specialty metals in certain highly aggressive environments, but the use of plastic materials is growing, especially in hydrocarbon-based distribution lines and in sewer lines. Very large-diameter water transmission lines are often made of reinforced concrete.

The most common method of joining the individual segments of pipe is by welding (or soldering in the case of copper, and gluing in the case of plastics), although bolted flanges or threaded connections are often used in smaller-diameter process piping. In low-pressure piping systems that transport non-hazardous fluids like water and sewage, mechanical joints (e.g., “ball and spigot,” compression) that rely on friction are commonly used. Pipelines and piping are usually constructed and maintained in accordance with national and local regulations and applicable industry standards. For example, the most commonly used industrial code for the transport of liquids is ASME B31.4. B31.8 is most commonly used for the transmission and distribution of gas, and ASME B31.3 most often applies to process piping. Once assembled, pipelines are usually buried, but process piping is usually above ground.

Pipelines and process piping are the safest means to transport gases and fluids across countries or across manufacturing facilities. However, given the extensive network of pipelines and piping, failures do occur, which can be quite spectacular and lead to extensive property damage and loss of life. Given their potential impact, it is important to investigate the cause(s) of such failures, which often involve input from many different engineering and scientific disciplines. As such, Exponent, with its broad range of skill sets, is uniquely positioned to investigate such failures, and has done so on hundreds of occasions, ranging from quarter-inch process tubing to 20-ft-diameter concrete water distribution pipelines.

Equally important, of course, is the prevention of pipeline and piping failures. Our scientists and engineers provide in-depth technical knowledge that has enabled us to make significant contributions to clients during the design, layout, and construction of pipelines and piping systems, and in the development and implementation of integrity and risk management programs. Exponent staff has brought their expertise to bear on preventive projects ranging in scope from reviewing the design and construction of the process piping at petrochemical plants to overall integrity reviews of long-distance oil and gas transmission pipeline systems.

Clients that have utilized Exponent’s pipeline and process piping expertise have included Fortune 500 manufacturing and petrochemical companies, utilities, pipeline companies, insurers, and capital project lending organizations.
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Analysis Pipeline Failure


Applied Technical Services performs metallurgical pipe failure analysis and corrosion testing. Our capabilities include root cause determination of component and material failures incorporating analysis of engineering problems and specifications.
Our assessment services include evaluating various process and water pipe failures manufactured from steel pipe, PVC pipe, copper pipe, ABS pipe, CPVC pipe, HDPE pipe, polyethylene pipe, cast iron pipe and Kitec pipe. We perform scanning electron microscopy (SEM); microstructural analysis; optical metallography; mechanical property analysis; and scale and corrosion deposit analysis.
Our procedures assess, investigate and test engineered materials to identify the causes of failure events. In addition to problem solving, ATS assists in removing the root cause by systematically reviewing the components and processes that led to failure. Our pipe failure analysis material engineers reconstruct incidents, collect and analyze critical data for detailed analysis and reporting.
Our goal is to provide thorough pipe failure analysis results in compliance with industry standards by delivering economical and technologically advanced solutions.
Failure theories provide techniques to calculate stresses, and damage mechanisms describe material failures due to those stresses. Code techniques provide safe, conservative rules for initial pipe design, but the analysis of pipe failures requires added understanding of failure theories, plastic deformation, fatigue cracks, and crack growth after initial fracture.

Types of Pipe Failure Analysis:

  • Pipeline Failure Analysis
  • PVC Pipe Failure
  • Copper Pipe Failure
  • Water Pipe Failure
  • ABS Pipe Failure
  • CPVC Pipe Failure
  • HDPE Pipe Failure
  • Polyethylene Pipe Failure
  • Cast Iron Pipe Failure
  • KITEC Pipe Failure
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Friday, 2 October 2015

Mechanical Failure Analysis


ATS’ mechanical failure analysis team is dedicated to helping individuals, corporations and manufacturers identify the root causes of component and system failures. Our technically advanced labs enable our experts to perform accurate and efficient tests, incorporated in precise and detailed reports. With years of experience, our professionals perform daily inspections on a wide variety of mechanical failures which may include common fatigue and overstress failures to and unique failures.
Our services are prevalent among the automotive, aerospace, nuclear, manufacturing and military industries. Testing is performed per industry standards, including ASTM E2332, ASTM E3, ASTM E18, ASTM E384, ASTM E112, ASTM E10, ASTM A247, ASTM B487, ASTM B748, equivalent ISO standards, and applicable specialized procedures.
Tests Include:
  • Optical Factography
  • Scanning Electron Microscopy
  • Energy Dispersive Spectoroscopy (EDS)
  • Impact Testing
  • Tensile Testing
  • Shear Testing
  • Torsion Testing
  • Pressure Testing
  • Hardness Testing
Results May Reveal Mechanical Failures Due To:
  • Ductility Issues
  • Brittle Products and Components
  • Fatigue
  • Overload
  • Environmental Effects
  • Manufacturing Defects
  • Contamination
  • Corrosion
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Wednesday, 30 September 2015

Onshore & Offshore Structures & Systems

Onshore Structures and Systems
 
Exponent is actively involved in providing risk assessment services for owners and operators of onshore petrochemical process facilities. These assessments focus on naturally occurring hazards such as hurricanes and earthquakes, and also on man-made hazards like vapor-cloud explosions. The scope of services provided by Exponent includes probabilistic and deterministic hazard definitions, onsite inspections, structural and material load and stress analyses using advanced modeling tools, vulnerability determinations, probable maximum loss estimations for property and business, and mitigation planning. The broad range of expertise among our staff enables us to conduct such assessments in a thorough and timely manner. The benefits of our multidisciplinary approach include better understanding of employee exposures to potentially hazardous situations, improved knowledge of asset vulnerabilities, identification of opportunities for cost-effective mitigation measures to reduce potential losses, and more thorough assessment of loss exposures from an insurance perspective.
Offshore Structures and Systems 
 
Exponent can assist offshore oil and gas operators with determination of load capacities and performance levels for a range of fixed and floating production or storage systems. These services include using advanced modeling tools to conduct structural analyses of platform systems or components, from caisson wellheads to drilling derricks, in accordance with the latest American Petroleum Institute best practices and specifications. Our analytical expertise and capabilities also include pipelines and well completion (casing and tubing). We have extensive expertise in materials testing, modeling, and thermal load analysis, which are important considerations when dealing with the extreme operating environments often encountered by oil and gas operators. Several of Exponent’s senior technical staff have previous work experience with major energy companies, and therefore are familiar with the needs and challenges faced by the offshore industry.
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Sunday, 20 September 2015

Petrochemical Industry



Chemical process accidents are often the result of unexpected interaction between automated process equipment and operators. In the drive to improve safety and reliability, chemical process facilities tend to rely heavily on automation using sophisticated instrumentation, computers, and programmable logic controllers to run their plants. In an effort to improve energy efficiency and reduce pollution, various pieces of equipment are interconnected in ways that complicate their operation. Equipment failures or operator errors can lead to sudden and unexpected changes in the plant operation. If these disruptions to normal process operation exceed the capabilities of the operators or the capacity of the safety systems, a severe accident can occur, potentially producing a devastating fire, explosion, or toxic release. 



The petrochemical process industries represent a significant contribution to the world economy. Companies in this industry produce a wide variety of products, including ethylene, vinyl chloride, styrene monomer, propylene, benzene, toluene, and xylene, which are the raw materials for many plastics. Producing these chemicals involves handling hazardous materials and managing large amounts of energy. Because of these conditions, when something goes wrong at a petrochemical processing facility, it can have catastrophic consequences. 

 

With more than 40 years of experience analyzing thousands of failures, Exponent is a leader in loss investigation, including material failures, fires, and explosions. These investigations range from high-loss disasters to small incidents for major national and international oil refiners. This experience provides Exponent engineers and scientists unique insights in addressing various risk and reliability issues and assessing environmental and health impacts, to help our clients increase the safety of their personnel, processes, and facilities and minimize operational disruptions and property loss. Additionally, our expertise in risk assessment, release characterization, dispersion modeling, vapor cloud explosion analysis, industrial hygiene, toxicology, and epidemiology allows us to comprehensively examine the consequences of both hypothetical and actual releases of toxic and flammable substances.
Exponent has a wide range of in-house expertise that integrates the latest process, safety, risk, and environmental developments into our work. As a result, we can address everything from small, focused analyses to complex, multi-disciplinary projects. The capabilities of our experts allow Exponent to offer the following services:
  • Accident and incident investigation 
  • Root-cause analysis (RCA) 
  • Fire and explosion analysis 
  • Fire protection engineering 
  • Fitness-for-service evaluation 
  • Specification, corrosion control, and failure analysis of materials 
  • Evaluation of pressure relief systems, vessels, and piping 
  • Analysis of atmospheric releases, spills, and environmental fate 
  • Groundwater and soil remediation support 
  • Compliance with standards and regulations 
  • Risk and reliability analysis and quantitative risk assessment 
  • Process hazards analysis (PHA) 
  • Hazard and operability analysis (HAZOP) 
  • Failure modes and effects analysis (FMEA) 
  • Review of process safety management (PSM) and risk management program (RMP) 
  • Safety and health training 
  • Environmental impact and baseline assessments 
  • Site security and vulnerability analysis 
  • Site investigation and remediation 
  • Hydrology and groundwater monitoring 
  • Project management, performance, scheduling, and construction delay analysis
 
Further, Exponent is actively involved in providing risk assessment services for owners and operators of onshore petrochemical process facilities. These assessments focus on naturally occurring hazards such as hurricanes and earthquakes, and also on man-made hazards such as vapor cloud explosions. The scope of services provided by Exponent includes probabilistic and deterministic hazard definitions, onsite inspections, structural and material load and stress analyses using advance modeling tools, vulnerability determinations, probable maximum loss estimations for property and business, and mitigation planning. The broad range of expertise among various Exponent practices enables us to offer clients the skills necessary to conduct such assessments in a thorough and timely manner. The benefits include better understanding of employee exposures to potentially hazardous situations, current knowledge of asset vulnerabilities, identification of opportunities for cost-effective mitigation measures to reduce potential losses, and better knowledge of loss exposures from an insurance perspective.
Exponent engineers and scientists regularly publish in leading technical journals, present at conferences, serve on National Fire Protection Association (NFPA) and American Society for Testing and Materials (ASTM) technical committees, chair American Institute of Chemical Engineers (AIChE) conference sessions, and provide peer review for journals such as Process Safety Progress, Journal of Petroleum Science & Engineering (JPSE), and Journal of Loss Prevention in the Process Industries (JLPPI).
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