Different Types of Services: Engineering Consulting

Engineering Consulting firms offer different types of engineering services. Generally, engineering services are based upon the skills, capability, and projects of the company. Almost every consulting company has experienced engineers to give advice. They are work with the client to give the best solution to the problem and recommend the best action for the given initiative. Engineering consulting is the best for the peoples who do not have any knowledge of the specific tasks.

Different engineering consulting have different types of services offered. Some of the services are:

1.      Project Management

2.      Transport civil infrastructure

3.      Commercial design

4.      Residential design

Project Management:

Engineering Consulting provides a project management service to manage the projects and construction team. In Project Management team gives equal importance for every projects whether they are small or large.

The company specially designed a project management team to satisfy the customers and marketing productivity

Transport civil infrastructure:

 In this service is specially designed to complete the work on time and appropriate price as per the budget. Engineering consulting is specially designed to provide the projects solution and ensure the client to give quality and timely work. Engineering consulting provide an opportunity to work with both the public and private sector.

Commercial Design

In this service, we always focused on construction designs and techniques. Planning, designing, construction, project management and more are the part of the commercial design. We also listen to the clients and integrated the thoughts into plans.

Engineering consultancy aims to provide outstanding designs to improve the business.

Residential Design:

Every person wants his own house. They have a unique taste and requirements. In this situation engineering consulting helps them. They provide you a complete house design as per your requirements and expectations.

If you plan to rebuild your home or purchase a new home so engineering consultancy helps them a lot.

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𝗣𝘆𝗿𝗮𝗺𝗶𝗱𝘀 𝗖𝗼𝗻𝘀𝘂𝗹𝘁𝗶𝗻𝗴 𝗘𝗻𝗴𝗶𝗻𝗲𝗲𝗿𝘀 & 𝗔𝗿𝗰𝗵𝗶𝘁𝗲𝗰𝘁𝘀 𝗣𝘃𝘁. 𝗟𝘁𝗱 has one of the most Innovative, Passionate, and Professional teams of Engineers and Architects in Islamabad, Pakistan. Our portfolio says it all. We have worked on all kinds of projects in 𝗜𝘀𝗹𝗮𝗺𝗮𝗯𝗮𝗱.𝗖𝗼𝗻𝘁𝗮𝗰𝘁 Us:- 0334 5148335

Piping systems are critical to many processing plants or facilities, and because of that they need to be designed and fabricated with precision and care. The efficiency and operational flexibility of many plants and facilities depends greatly on the ability, flexibility and efficiency to transport fluid through the piping to equipment and machineries functioning collectively. A piping system, owing to its crucial role of fluid transport, requires a systematic approach by various engineering tools and methods prior to its construction and commissioning. Piping should be supported to prevent failure due to various loading conditions such as self-weight, operating pressure, temperature differences and dynamic loads.

This article discusses piping stress analysis for processing plants with a focus on practical notes and useful technical guidelines. Complex formulations or numerical aspect of analysis are not discussed in favor of practical guidelines.

Stresses in piping systems: primary and secondary

For most piping systems including nozzles and branch connections, two major types of stresses are encountered. These are classified as primary and secondary stresses. Primary stresses are generated by primary loadings such as pressure and weight. The secondary stresses are associated with cyclic conditions such as temperature changes or imposed displacements.

There have been two major criteria for primary stresses. The hoop stresses due to internal pressure should be safe and within specified limits considering the wall thickness of the piping components, including any reinforcement. The sum of the longitudinal stresses due to pressure, weight and other sustained loadings should be less than the specified limit. These limits are also function of operating temperature. Allowable stresses are reduced at high or low temperatures.

Considering secondary stresses, there have been specific sets of allowable stresses that are repetitive and cyclic. One set is the range of (secondary) stress in a piping system subjected to thermal movements. The temperature range for this condition is the total range from minimum to maximum or vice versa. The region of highest thermal stress is usually where the system absorbs most of the thermal movements. This can be the place with highest temperature difference.

Relatively high initial thermal stresses may decrease with time because of plastic strains. However, thermal stresses might reappear, probably in reversed direction, when the operation is shifted to another operating case with a different temperature. This phenomenon forms the basic difference between thermal stresses (secondary stress) and pressure or weight stresses (primary stress). Plastic strains can release the magnitude of thermal stresses by a change in the shape of the piping center-line or permanent deformations. This change in the shape has no practical effect on the sustained pressure or weight stresses. For this reason, sustained stresses are typically limited to the lowest allowable stress at maximum/minimum normal operating temperature.

The degree of the above-mentioned effect will depend on the magnitude of the initial thermal stresses and the temperature. For example, the initial hot stress will in general decrease with time, and the sum of the hot and cold stresses will stay about the same. This sum is called the displacement (or expansion) stress range and is, therefore, independent of the initial state of piping during erection.

As a rough indication, for materials below the creep range, the allowable stresses are somewhere between 60% to 66% of the yield stress. Therefore, a rough safety factor of 1.5 - 1.6 was considered before reaching the yield. Too often, this is the bending stress at which plastic flow starts.

Nozzle loads

Nozzles serve to connect an equipment or machinery with adjoining piping network. These are relatively weak points which could be under considerable loads from piping. Nozzles whether nozzles of fix equipment (such as vessels, heat exchangers, reactors, etc). or nozzles of machineries (pumps, compressors, etc) are one of the most sensitive and critical components of piping stress analysis. A set of allowable loads for each nozzle in the form of forces and moments is usually provided by the manufacturer. Actual forces and moments imposed by the adjacent piping system on the nozzles should be less than the allowable limits. This is an important consideration particularly for delicate machineries that usually can only tolerate very low nozzle loads. This imposed many limitations on the piping systems connected to such machineries.

How to support piping?

The answer to this question needs many considerations and studies. However, a few rules are noted to start the supporting. Firstly, an optimum value of piping span should be estimated considering the weight load, temperature and pressure. As the focus is on weight load, rest supports should be inserted at each length of span calculated to restrict the downward displacements and associated stresses to recommended values. At this stage, restricting displacements in lateral and axial directions should be limited to only necessary locations.

Guide supports and stop supports should subsequently be used to limit the piping displacements in the lateral and axial direction, respectively. Anchor support and a set of supports limiting lateral movement should be specifically placed somewhere near sensitive equipment (such as a delicate machinery) to limit loadings on nozzles of such an equipment or machinery.

An important case is where the piping is lifted from the support (resting support, guide, etc). In numerical terms, this might be seen as reaction forces of zero magnitude. In that case, either those supports should be removed if estimated allowable span and other considerations allow this or adjustments of nearby supports made to account for efficient load distribution. Alternatively, if a support is needed in the location with lift-off due to any reason, for instance, to control modal/dynamic movements, a gripping or clamping supported (such a clamp) may be in that place.

How to reduce stresses and reaction loads

High reaction force is a major issue in piping and equipment nozzles. There are different methods to deal with this problem. One possible approach to alleviate the high stresses or high nozzle loads would be to accommodate thermal movements by changing the routing of the piping system by using a few additional bends, “Z” loops, U-turns, expansion loops or others. If not possible or not successful, other expensive options such as expansion joints and hangers might be used. These devices use spring effects to reduce the stresses, reactions and nozzle loads. These options impose considerable initial and operating costs to the piping systems and the plant. They reduce overall reliability. They should be used as the last option when other simpler and cheaper options cannot be applied.

Typically, hangers accommodate expansion along a vertical line only. They have been used to accommodate the weight of piping spool on the nozzles of equipment or machinery where rigid supports cannot be used due to thermal movement considerations. Expansion joints are restricted by a very high price range and thus expansion loops or similar turn are always the best options. Expansion joints can accommodate for all the axial movements, but requires special fittings, and many provisions. They have been maintenance-intensive. They are delicate pieces of equipment and only used in special circumstances.

Battery limits and connected piping

Often to have a clear picture of stresses and loads of piping systems of a unit and proper optimization of the piping, all surrounding and connecting piping systems should be considered. This is a critical consideration. How far of connecting piping should be included is a matter of debate.

The analysis of the piping in a unit should include a portion of the connected and surrounding piping systems so that the true response of the piping system under consideration is captured. The best approach is to model the interaction between all different piping, equipment and facilities as far as possible. The amount of piping to include in the model will vary from case to case but in general it should include:

The piping up to at least three supports past a change in direction from the orientation of the battery limit of the unit under study. This is just an estimate, if required, a larger portion of the surrounding piping should be considered. For instance, sometimes, there are three guides or resting supports and there are configured in a way that axial movement can still be transferred to or from the unit.

The flexibility of supports. When the flexibility of a support is considered, a support load and associated stresses are reduced. Such as reduction might be negligible or significant depending on many factors such as the flexibility of the support compared to the flexibility of the piping and overall system.

The flexibility of the nozzle-shell intersection at any connection of equipment.

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𝗣𝘆𝗿𝗮𝗺𝗶𝗱𝘀 𝗖𝗼𝗻𝘀𝘂𝗹𝘁𝗶𝗻𝗴 𝗘𝗻𝗴𝗶𝗻𝗲𝗲𝗿𝘀 & 𝗔𝗿𝗰𝗵𝗶𝘁𝗲𝗰𝘁𝘀 𝗣𝘃𝘁. 𝗟𝘁𝗱 has one of the most Innovative, Passionate and Professional team of Engineers and Architects in Islamabad, Pakistan. Our portfolio says it all. We have worked on all kinds of projects in 𝗜𝘀𝗹𝗮𝗺𝗮𝗯𝗮𝗱.𝗖𝗼𝗻𝘁𝗮𝗰𝘁 Us:- 0334 5148335

Piping systems are critical to many processing plants or facilities, and because of that they need to be designed and fabricated with precision and care. The efficiency and operational flexibility of many plants and facilities depends greatly on the ability, flexibility and efficiency to transport fluid through the piping to equipment and machineries functioning collectively. A piping system, owing to its crucial role of fluid transport, requires a systematic approach by various engineering tools and methods prior to its construction and commissioning. Piping should be supported to prevent failure due to various loading conditions such as self-weight, operating pressure, temperature differences and dynamic loads.

This article discusses piping stress analysis for processing plants with a focus on practical notes and useful technical guidelines. Complex formulations or numerical aspect of analysis are not discussed in favor of practical guidelines.

Stresses in piping systems: primary and secondary

For most piping systems including nozzles and branch connections, two major types of stresses are encountered. These are classified as primary and secondary stresses. Primary stresses are generated by primary loadings such as pressure and weight. The secondary stresses are associated with cyclic conditions such as temperature changes or imposed displacements.

There have been two major criteria for primary stresses. The hoop stresses due to internal pressure should be safe and within specified limits considering the wall thickness of the piping components, including any reinforcement. The sum of the longitudinal stresses due to pressure, weight and other sustained loadings should be less than the specified limit. These limits are also function of operating temperature. Allowable stresses are reduced at high or low temperatures.

Considering secondary stresses, there have been specific sets of allowable stresses that are repetitive and cyclic. One set is the range of (secondary) stress in a piping system subjected to thermal movements. The temperature range for this condition is the total range from minimum to maximum or vice versa. The region of highest thermal stress is usually where the system absorbs most of the thermal movements. This can be the place with highest temperature difference.

Relatively high initial thermal stresses may decrease with time because of plastic strains. However, thermal stresses might reappear, probably in reversed direction, when the operation is shifted to another operating case with a different temperature. This phenomenon forms the basic difference between thermal stresses (secondary stress) and pressure or weight stresses (primary stress). Plastic strains can release the magnitude of thermal stresses by a change in the shape of the piping center-line or permanent deformations. This change in the shape has no practical effect on the sustained pressure or weight stresses. For this reason, sustained stresses are typically limited to the lowest allowable stress at maximum/minimum normal operating temperature.

The degree of the above-mentioned effect will depend on the magnitude of the initial thermal stresses and the temperature. For example, the initial hot stress will in general decrease with time, and the sum of the hot and cold stresses will stay about the same. This sum is called the displacement (or expansion) stress range and is, therefore, independent of the initial state of piping during erection.

As a rough indication, for materials below the creep range, the allowable stresses are somewhere between 60% to 66% of the yield stress. Therefore, a rough safety factor of 1.5 - 1.6 was considered before reaching the yield. Too often, this is the bending stress at which plastic flow starts.

Nozzle loads

Nozzles serve to connect an equipment or machinery with adjoining piping network. These are relatively weak points which could be under considerable loads from piping. Nozzles whether nozzles of fix equipment (such as vessels, heat exchangers, reactors, etc). or nozzles of machineries (pumps, compressors, etc) are one of the most sensitive and critical components of piping stress analysis. A set of allowable loads for each nozzle in the form of forces and moments is usually provided by the manufacturer. Actual forces and moments imposed by the adjacent piping system on the nozzles should be less than the allowable limits. This is an important consideration particularly for delicate machineries that usually can only tolerate very low nozzle loads. This imposed many limitations on the piping systems connected to such machineries.

How to support piping?

The answer to this question needs many considerations and studies. However, a few rules are noted to start the supporting. Firstly, an optimum value of piping span should be estimated considering the weight load, temperature and pressure. As the focus is on weight load, rest supports should be inserted at each length of span calculated to restrict the downward displacements and associated stresses to recommended values. At this stage, restricting displacements in lateral and axial directions should be limited to only necessary locations.

Guide supports and stop supports should subsequently be used to limit the piping displacements in the lateral and axial direction, respectively. Anchor support and a set of supports limiting lateral movement should be specifically placed somewhere near sensitive equipment (such as a delicate machinery) to limit loadings on nozzles of such an equipment or machinery.

An important case is where the piping is lifted from the support (resting support, guide, etc). In numerical terms, this might be seen as reaction forces of zero magnitude. In that case, either those supports should be removed if estimated allowable span and other considerations allow this or adjustments of nearby supports made to account for efficient load distribution. Alternatively, if a support is needed in the location with lift-off due to any reason, for instance, to control modal/dynamic movements, a gripping or clamping supported (such a clamp) may be in that place.

How to reduce stresses and reaction loads

High reaction force is a major issue in piping and equipment nozzles. There are different methods to deal with this problem. One possible approach to alleviate the high stresses or high nozzle loads would be to accommodate thermal movements by changing the routing of the piping system by using a few additional bends, “Z” loops, U-turns, expansion loops or others. If not possible or not successful, other expensive options such as expansion joints and hangers might be used. These devices use spring effects to reduce the stresses, reactions and nozzle loads. These options impose considerable initial and operating costs to the piping systems and the plant. They reduce overall reliability. They should be used as the last option when other simpler and cheaper options cannot be applied.

Typically, hangers accommodate expansion along a vertical line only. They have been used to accommodate the weight of piping spool on the nozzles of equipment or machinery where rigid supports cannot be used due to thermal movement considerations. Expansion joints are restricted by a very high price range and thus expansion loops or similar turn are always the best options. Expansion joints can accommodate for all the axial movements, but requires special fittings, and many provisions. They have been maintenance-intensive. They are delicate pieces of equipment and only used in special circumstances.

Battery limits and connected piping

Often to have a clear picture of stresses and loads of piping systems of a unit and proper optimization of the piping, all surrounding and connecting piping systems should be considered. This is a critical consideration. How far of connecting piping should be included is a matter of debate.

The analysis of the piping in a unit should include a portion of the connected and surrounding piping systems so that the true response of the piping system under consideration is captured. The best approach is to model the interaction between all different piping, equipment and facilities as far as possible. The amount of piping to include in the model will vary from case to case but in general it should include:

The piping up to at least three supports past a change in direction from the orientation of the battery limit of the unit under study. This is just an estimate, if required, a larger portion of the surrounding piping should be considered. For instance, sometimes, there are three guides or resting supports and there are configured in a way that axial movement can still be transferred to or from the unit.

The flexibility of supports. When the flexibility of a support is considered, a support load and associated stresses are reduced. Such as reduction might be negligible or significant depending on many factors such as the flexibility of the support compared to the flexibility of the piping and overall system.

The flexibility of the nozzle-shell intersection at any connection of equipment.

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Little P.Eng. for Engineering Services is a  structural and mechanical (Piping Design / Piping Stress Analysis) engineering consulting company  located in Toronto, Ontario, Canada; We serve United states and Canada. We offer engineering services in the following areas:

 ​

Piping     Systems Design and Engineering:     Design of piping systems, pipe stress analysis,     structural and seismic analysis of industrial and commercial piping     systems, pipelines and mechanical components based on ASME Section III and     Sections VIII and B31 codes.      

Structural engineering services and     Failure Analysis:     Linear and nonlinear statics, dynamics and thermal analysis, fatigue,     fracture mechanics, limit load, ratcheting, shake down and creep analysis     based on ASME Section III and Section VIII.      

Seismic     Design and Engineering:     Seismic analysis for non-structural components such as storage tanks,     boilers, cooling towers, piping systems  based on ASCE, CBC and ASME     codes, using Finite Element Analysis.      

Mechanical     Engineering and Design Peer Reviews:     Machinery and part design, stress analysis, test design and simulations,     3D modelling, CAD drafting for power and process plants and other     Industrial and Commercial Facilities.

 Little P.Eng. for Engineering Services regularly teams up with general contractors, architects and projects owners in design and structural analysis of water, steam, oil and gas (process and power) piping systems, pipelines and mechanical components.

​

Our piping Engineers specialize in performing Pipe Stress Analysis, Structural and Failure Analysis and Seismic Analysis on Industrial and Commercial Pipelines and mechanical components based on ASME (Section III, Section VIII and B31 codes), AISC and ASCE and other applicable codes, utilizing advanced Finite Element Analysis. Our seismic designers use the latest technology to analyze and develop your Pipelines based on the applicable codes and standards.

​

You will be able to see the analyzed 3D models of your piping systems on your computer. This will provide an easy to use platform for collaboration to enhance our joint ability to identify critical points of the design. This process can also be used to streamline the Critical Design Review (CDR), saving valuable business development resources and maximize the ROI of your company R&D assets. We believe that quality of our works, reliability and dedication to our customer needs is what makes us successful.

 We are a collection of leaders and professionals in engineering who are dedicated to designing and creating the most innovative solutions for our clients. Located in Toronto, ON, Canada, we operate everywhere from local markets to the most remote regions of the world especially North America (united states and Canada) to present the best Engineering Services.

We believe in the value of shared knowledge. Our teams of experts are well-informed and up-to-date on the latest technologies, which allows us to elevate the level of our work. On every project, we draw from our wide ranging expertise and experience to create and deliver inspired solutions.

Whether a project is large or small, in its earliest stages or nearing completion, our team is invested and determined to deliver the best solutions. We understand the level of pride that comes with ownership; therefore we always take stewardship of the success of all of our client’s projects. 

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Professional Piping Engineering and Stress Analysis Services Canada from Little P.Eng. on Vimeo.

Little P.Eng for Engineering Services has the engineering excellence, specialist skills and a wealth of experience to provide clients with consistent professional piping engineering and design services. Whether it’s a simple pipe spool design, or for complex process plant, Little P.Eng. for Engineering Services has the impartial, practical and technical resources to make your project a success. We are Specialists in Refinery, Offshore, Petrochemicals and Industrial piping Projects and are experienced with complying with PED and CDM requirements: We can offer a range of Piping Engineering services to aid you and your project: • Design Calculations to relevant codes of practice, national standards and design codes. We have years of experience in designing to various codes and standards including: • BS EN 13480 • ASME B31.1, B31.3, B31.8 • ASME VIII Div. 1&2 • PD5500 • PED 2014/68/EU • EN 13445 • CSA Z662 • ANSI, ISO, DIN, API, WIMES and Norsok international standards and specifications. • Pipe Specifications • Material specifications • Component Datasheets (inc EJMA expansion joint, spring support and valve datasheets) • Schedules (pipe support, bolts etc) • Line Lists • PED Classifications • Pressure Vessel Calculations We use Stress Analysis software packages Caesar II and Autopipe to complete the stress and flexibility analysis of piping systems to recognized code requirements. Our pipe stress analysis can include for both Static and Dynamic loading scenarios and the analysis can be completed to a variety of the latest international codes and standards such as ASME B31.3, ASME B31.1, ASME B31.4, ASME B31.8, CSA Z662, BS EN 13480 and PD 8010. Using pipe stress analysis services we are able to: • Mitigate the effects of thermal and pressure expansion on the piping systems • Assess the effects of potential impact loads such as slug loads and water hammer • Capture potential support lift off scenarios • Determine piping reaction loadings onto equipment nozzles • Review nozzle loads for compliance with international codes / standards and any limitations imposed by the equipment manufacturer • Determine pipe support loads on Steelwork and Civil Structures • Confirm all Pipe Stresses will be below defined limits • Assess the effects of potential vibration sources such as wind and seismic • Define and create Variable and Constant Spring pipe support datasheets using a variety of supplier catalogs to suit client requirements Our professional piping stress engineers have a bachelor's and Master's degree in mechanical / structural engineering and province license (P.Eng.) in Alberta, Saskatchewan, British Columbia and Ontario. We review, validate, certify and stamp piping and structural packages. Located in Calgary Alberta Canada; We offer our services to our valuable clients across Canada and USA.

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Affordable Pipe Stress Analysis Services Outsourcing Company across Canada

Meena Rezkallah

P.Eng. | Piping / Structural Engineer. | Engineering Consultant Services. Ontario, Alberta, British Columbia, Saskatchewan.

Meena Rezkallah, P.Eng.

As a specialist in the field of pipe stress analysis services and plant construction Meena Development LTD. offers a wide range of engineering services We serve our client in Canada and globally using CAESAR II and pipe stress calculations as per API, ASME B31.3, B31.1, B31.8, B31.4, CSA Z662. The combination of modern working methods, up-to-date CAE-Software and the Know-How of intensive experience in the pipe and plant business guarantees a reliable engineering and project consulting in:

Static and dynamic analysis of various projects as power plants, district heat networks, chemical plants, pump stations, refineries, ships, bridges, cranes, and other units in plant construction Calculation.

Indeed the best pipe stress analysis company across Canada. We Undertake Overall Piping Stress Analysis for chemical plants, refineries and as well as for other industries. Afterwards completion of plot plans we organize pipe supports data for upgrading in plot plans and piping layouts. Although, Stress analysis is performed altogether on all lines with attention to their process parameters. Reports are generated specifically to observe the stresses generated by self weight, service medium pressure, temperature and other details. Piping stress analysis is one among our team’s area of experience eventually. And that is consistent with latest international standards. These standards are specifically applicable for process piping, power piping and other standards both for above ground and below ground piping. We are best piping design and pipe stress analysis service company in Canada at the present time for Offshore Piping Stress Analysis Services.

Meena Development LTD. offers a wide variety of engineering services, as there are:

Pipe static, -dynamic (vibration analysis)

Structural Steel Sections

Pressure loss and temperature loss calculations

Stress analysis

Internal Pressure design

Design Strength analysis, Stability calculations

Life monitoring analysis

Finite-Element-Analysis

Upon request, our project consulting service supports you in organizing and structuring your projects on the spot and develops possibilities of standardization and streamlining in integrated project teams together with you.

Our Pipe Stress Analysis package includes:

Static load analysis in piping systems

Dynamic load analysis in piping systems

Thermal stress analysis in piping systems

Stress checks due to flow of service medium

Stress check for process parameters like temperature, pressure, density of service medium

Pipe hangers and support design & selection

Analysis of loads on nozzles & flanges

Design of pipe racks

Structural stress analysis

Vessel & equipment structure design analysis

Manufacturing and fabrication of piping spools

Fabrication of steel structures

Our proven expertise with few of our chemical plants piping layout design has helped us to gain more customer confidence and has also developed our team to take new challenges for future projects. It also serves as a strength for us to be one of prominent Piping Design, Pipe Stress Analysis and engineering service providing companies in Canada. Followed by design compliance, we also manufacture and fabricate the piping spools as per final isometrics generated. This basically makes us one of the most preferred piping erection, spools design and manufacturing companies in Canada. Another key point of Onshore & Offshore Piping Stress Analysis Services and pipe stress analysis company Canada

Pipe static analysis

Static analysis according to I. And II. Order theory with linear and nonlinear boundary conditions, as well as special fields of pipe static analysis like

Continuous elastic foundation for soil restraint pipes

Nonlinear bedding

Hanger displacement and friction

Jacket piping

Plastic piping with stress analysis (PE, GRP)

Pipe dynamic analysis

Dynamic analysis acc. To modal response or direct integration method with linear and nonlinear boundary conditions

Eigen-frequencies, mode shapes, earthquake, fluid hammer

Any time dependent loads

Stress analysis

ASME B31.1, B31.3, B31.4, B31.5, B31.8

CSA Z662

EN 13480, EN 13941, CODETI

KTA 3201.2, KTA 3211.2

FDBR, AGFW, AGFW FW401

ASME-Code Section III NB/NC/ND, Stoomweezen D1101

Plastic pipes acc. to ISO14692, BS7159, KRV, WAVISTRONG GFK

Calculation of steel structural sections

Supports and pipe racks according to ACI, AISC, ASCE, NBC, DIN 18800, EN1993 or EN13480.

Located in Calgary Alberta, We offer our Piping Engineering Services, Skid Design Services, Pipeline Engineering Services and Structural Engineering Services across Canada. To get our Piping Stress Analysis Services, please contact our Engineering company.

Our professional piping stress engineers have a bachelor's and Masters degree in mechanical / structural engineering and province license (P.Eng.) in Alberta, Saskatchewan, British Columbia and Ontario. We review, validate, certify and stamp piping and structural packages. Also check Industries We Serve.

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Published By

Meena Rezkallah

P.Eng. | Piping / Structural Engineer. | Engineering Consultant Services. Ontario, Alberta, British Columbia, Saskatchewan.

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CAESAR II Pipe Stress Analysis Services from Little P.Eng. on Vimeo.

Are you looking for the reliable partner for the stress analysis of the piping system at your client's plant or refinery ? Little P.Eng. Engineering, has a proven track record in providing pipe stress analysis services using CAESAR II. Our Piping Stress Engineer has been providing in-depth technical knowledge and proven performance in the fields of Piping Stress Analysis, Piping Engineering and Pipe Support Design to Oil & Gas Operating Companies and EPC Companies at various locations around Canada and USA. We know that Piping Stress Analysis is a vital part of any plant layout our Piping Engineers co-ordinate with other disciplines working on a project.

It is our commitment to provide comprehensive analysis and design services with an unsurpassed level of engineering integrity and skill.

Our Service :- • Thermal and Sustained Stress Analysis of small and large diameter piping (ASME B31.3, ASME B31.4, ASME B31.8, CSA Z662.) • Evaluation of loads on various types of equipment such as: Compressors, Centrifugal and Reciprocating Pumps, Towers and Pressure Vessels.

Also, we are specialized in cost effective structural skids designs services. A skid is a process system which contains a frame or structure containing pressure vessels, heat exchanger, pumps, valves, instrumentation, and so on.

Little P.Eng. for Engineering Services has wide experience in design of equipment and piping skids of a wide variety. Skid design will comply with international standards and customer specifications Ensure safe lifting, transportation and operation. Optimize skid costs, by reducing unnecessary costs Ensure sufficient stiffness (at key locations) to avoid vibration problems for components mounted on the skids. We have rich experience of serving structural skids designs companies across Canada and USA.

Advantage with us: • High level of Quality • Competitive pricing • Daily and weekly working reporting as per your need. • Guaranteed timely communication through emails / instant messengers

Our professional piping stress engineers have a bachelor's degree in mechanical / structural engineering and province license (P.Eng.) in Alberta, Saskatchewan, British Columbia and Ontario. We review, validate, certify and stamp piping and structural packages.

Located in Calgary Alberta Canada; We serve our clients across USA and Canada. to get a free quote about our CAESAR II Pipe Stress Analysis Services, please contact us.

littlepeng.com/single-post/2020/07/18/caesar-ii-pipe-stress-analysis-services

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Are you looking for the reliable partner for the stress analysis of the piping system at your client's plant or refinery ? Little P.Eng. Engineering, has a proven track record in providing pipe stress analysis services using CAESAR II. Our Piping Stress Engineer has been providing in-depth technical knowledge and proven performance in the fields of Piping Stress Analysis, Piping Engineering and Pipe Support Design to Oil & Gas Operating Companies and EPC Companies at various locations around Canada and USA. We know that Piping Stress Analysis is a vital part of any plant layout our Piping Engineers co-ordinate with other disciplines working on a project.

It is our commitment to provide comprehensive analysis and design services with an unsurpassed level of engineering integrity and skill.

Our Service :-

Thermal and Sustained Stress Analysis of small and large diameter piping (ASME B31.3, ASME B31.4, ASME B31.8, CSA Z662.)

Evaluation of loads on various types of equipment such as: Compressors, Centrifugal and Reciprocating Pumps, Towers and Pressure Vessels.

Also, we are specialized in cost effective structural skids designs services. A skid is a process system which contains a frame or structure containing pressure vessels, heat exchanger, pumps, valves, instrumentation, and so on.

Little P.Eng. for Engineering Services has wide experience in design of equipment and piping skids of a wide variety. Skid design will comply with international standards and customer specifications Ensure safe lifting, transportation and operation. Optimize skid costs, by reducing unnecessary costs Ensure sufficient stiffness (at key locations) to avoid vibration problems for components mounted on the skids. We have rich experience of serving structural skids designs companies across Canada and USA.

Advantage with us:

High level of Quality

Competitive pricing

Daily and weekly working reporting as per your need.

Guaranteed timely communication through emails / instant messengers

Our professional piping stress engineers have a bachelor's degree in mechanical / structural engineering and province license (P.Eng.) in Alberta, Saskatchewan, British Columbia and Ontario. We review, validate, certify and stamp piping and structural packages. We serve our clients across USA and Canada. to get a free quote about our CAESAR II Pipe Stress Analysis Services, please contact us.

Meena Rezkallah

P.Eng. | Piping / Structural Engineer. | Engineering Consultant Services. Ontario, Alberta, British Columbia, Saskatchewan.

CAESAR II Pipe Stress Analysis Services

Little P.Eng. For Engineering Consultant Services Company

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Are you looking for the reliable partner for the stress analysis of the piping system at your client’s plant or refinery ? Little P.Eng. Engineering, has a proven track record in providing pipe stress analysis services using CAESAR II. Our Piping Stress Engineer has been providing in-depth technical knowledge and proven performance in the fields of Piping Stress Analysis, Piping Engineering and Pipe Support Design to Oil & Gas Operating Companies and EPC Companies at various locations around Canada and USA. We know that Piping Stress Analysis is a vital part of any plant layout our Piping Engineers co-ordinate with other disciplines working on a project.

It is our commitment to provide comprehensive analysis and design services with an unsurpassed level of engineering integrity and skill.

Our Service :-

Thermal and Sustained Stress Analysis of small and large diameter piping (ASME B31.3, ASME B31.1, ASME B31.4, ASME B31.8, CSA Z662, API)

Evaluation of loads on various types of equipment such as: Compressors, Centrifugal and Reciprocating Pumps, Towers and Pressure Vessels.

Also, we are specialized in cost effective structural skids designs services. A skid is a process system which contains a frame or structure containing pressure vessels, heat exchanger, pumps, valves, instrumentation, and so on.

Little P.Eng. for Engineering Services has wide experience in design of equipment and piping skids of a wide variety. Skid design will comply with international standards and customer specifications Ensure safe lifting, transportation and operation. Optimize skid costs, by reducing unnecessary costs Ensure sufficient stiffness (at key locations) to avoid vibration problems for components mounted on the skids. We have rich experience of serving structural skids designs companies across Canada and USA.

Advantage with us:

High level of Quality

Competitive pricing

Daily and weekly working reporting as per your need.

Guaranteed timely communication through emails / instant messengers

Our professional piping stress engineers have a bachelor’s degree in mechanical / structural engineering and province license (P.Eng.) in Alberta, Saskatchewan, British Columbia and Ontario. We review, validate, certify and stamp piping and structural packages.

Located in Calgary Alberta Canada; We serve our clients across USA and Canada. to get a free quote about our CAESAR II Pipe Stress Analysis Services, please contact us.

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CAESAR II Piping Stress Analysis Information Requirements to provide premium piping engineering, full-service pipe design and pipeline / pipe stress analysis services, from initial concept through final construction. Using CAESAR II and pipe stress calculations as per API, ASME B31.3, B31.1, B31.8, B31.4, CSA Z662.

In order to perform a comprehensive piping stress analysis, the following data are desired:

1.      1. Piping system drawing, isometrics and/or spool piece drawings. The piping drawing should represent the as-exists condition as closely as possible, including pipe hanger location and pipe weld locations.

2.      Piping materials information, including: (a) Pipe OD and ID or wall thickness. (b) Pipe material specification. (c) Fitting wall thickness or class. (d) Valve type, pressure ratings, and weights. (e) Types of valve operators and weights. (f) Relief valve relieving capacities and dimensional data. (g) Insulation thickness and density. (h) Termination point (nozzles) expansion and allowable loads.

3.      Pipe support details, including: (a) Pipe support type and locations. (b) Spring type support load capacities. (c) Spring type support load adjustments. (d) Component bills of materials.

4.      Fluid characteristics, including: (a) Design temperature. (b) Design pressure. (c) Operating temperature. (d) Operating pressure.

5.      "As-exists" conditions, including the following: (a) Pipe hanger hot and cold walkdown data, such as actual spring settings, hanger condition, interferences, etc. (b) Pipe system hot and cold walkdown data, such as insulation damage, interferences, pipe distortion, movements, etc.

6.      If warranted, to perform safety valve discharge analysis, the following are required: (a) Relief valve relieving capacities and dimensional data. (b) Pipe snubber details and locations.

7.      If warranted, to perform turbine trip analysis, the following are required: (a) Stop and/or Intercept valves' effective closing time. (b) Stop and/or Intercept valves' details and weights. (c) Heat balance data, including the flow rate for each pipe size (lb./hr.).

8.      Information required to perform other transient load analysis would be requested on an as needed basis.

It is important to note that the information involving the piping segments supplied by the boiler and turbine manufacturers will likely not be found with the plant piping specifications and will require the review of specific drawing/information associated with the individual suppliers.

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·      Engineering Services

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 Engineering Consulting Services Alberta

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Engineering Consulting Services Middle East (Arabian Gulf)

Engineering Services

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Steam Piping design as per ASME B31.1, B31.3, B31.8, CSA Z662; by Meena Rezkallah, P.Eng.

Steam is an efficient means of transporting energy from one place to another for various purposes like mechanical work and heating as well as electricity generation. Steam piping network is always of high temperature and pressure and special care needs to be taken care while designing steam piping systems. Various national and international codes and standards dictate design of steam piping systems.

Steam Piping on Piping Racks

Piping Layout : Steam Tracing

Piping Layout : Jacketed Piping

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