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little-p-eng-engineering · 7 months

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Unleashing the Potential of Little P.Eng. for ASME B31.3 Process Piping Calculation Services

In the ever-evolving landscape of the process piping industry, ASME B31.3 Process Piping Calculation Services stands as a paramount standard for design, inspection, and construction of process plants. As we delve into the complex world of piping engineering, we encounter Little P.Eng., an innovative engineering consulting firm pioneering the application of these industry standards.

With years of profound expertise and a cutting-edge approach, Little P.Eng. shines as the gold standard in providing ASME B31.3 Process Piping Calculation Services. This article aims to shed light on the instrumental role that Little P.Eng. plays in revolutionizing the field of process piping.

Understanding ASME B31.3 Process Piping Standards:

ASME B31.3, a prominent subsection of the American Society of Mechanical Engineers (ASME) B31 Code for Pressure Piping, is a comprehensive set of guidelines for process piping. It includes various aspects such as materials, fabrication, examination, testing, and much more. Given its criticality, these standards must be implemented with utmost precision and accuracy, an arena where Little P.Eng. truly excels.

Little P.Eng.: Your Reliable Partner for Piping Calculation Services:

As a recognized leader in the engineering consulting sector, Little P.Eng. is fully equipped to handle all facets of ASME B31.3 process piping calculation services. Leveraging the expertise of highly-skilled professionals, the latest technologies, and deep-rooted understanding of ASME standards, Little P.Eng. delivers innovative, accurate, and cost-effective solutions.

Little P.Eng. and Comprehensive Calculation Services:

Little P.Eng.'s range of calculation services spans from pressure design of piping components, flexibility and stress analysis, to support design and selection. Their commitment to precision, comprehensive reports, and prompt delivery, all tied to their deep-rooted understanding of ASME B31.3 standards, ensure that they stay ahead of the competition.

Embracing the Latest Technology:

Little P.Eng. makes optimal use of the latest technologies to provide unmatched ASME B31.3 process piping calculation services. Using state-of-the-art software tools, they simulate, analyze, and validate designs, leading to safe, reliable, and efficient process piping systems.

Customer Satisfaction: Little P.Eng.'s Hallmark:

With a steadfast commitment to customer satisfaction, Little P.Eng. prioritizes its clients' needs at every stage of the project. This results in services that not only adhere to ASME B31.3 standards but also align with the specific requirements of the clients.

Let's delve deeper into the pressure design calculations performed by Little P.Eng. under the ASME B31.3 Process Piping Calculation Services. Here are the key types of pressure design calculations:

Wall Thickness Calculations: One of the most crucial aspects of pressure design calculations involves determining the minimum wall thickness required for pipes to safely contain the pressure. Little P.Eng. uses sophisticated software tools to compute this accurately, factoring in variables like operating pressure, material strength, temperature, and pipe diameter.

Flange Rating Calculations: Little P.Eng. expertly handles the complexity of flange rating calculations, which involve determining the maximum pressure that flanges can handle without leaking. The process considers factors such as temperature, bolting material, gasket type, and flange material.

Branch Connection Calculations: When designing a process piping system, engineers often need to calculate the reinforcements required for branch connections. Little P.Eng. performs these calculations with precision, ensuring the integrity and safety of the piping system.

Expansion Joint Pressure Thrust Calculations: Expansion joints are vital components of process piping systems that accommodate thermal expansion or contraction. Little P.Eng. uses advanced tools to calculate the pressure thrust exerted on these joints, thus ensuring their optimal design.

Safety Valve Reaction Force Calculations: Little P.Eng. also determines the reaction force exerted on safety valves when they open in response to excessive pressure. These calculations are essential for the safe and efficient operation of the process piping system.

Pipe Support Span Calculations: Pipe support span calculations are critical for ensuring that the pipe doesn't sag excessively under its weight and operating conditions. Little P.Eng. performs these calculations meticulously, keeping in mind various factors such as pipe size, material, and temperature.

High-Pressure Piping Design Calculations: For high-pressure piping systems, Little P.Eng. offers specialized calculation services that consider unique challenges such as material selection, joint design, and testing procedures, ensuring the integrity of the system even under extreme pressure conditions.

Conclusion:

The ASME B31.3 Process Piping Calculation Services can be quite challenging to navigate without the assistance of an experienced partner like Little P.Eng. Their meticulous attention to detail, robust understanding of industry standards, and unflinching commitment to quality make them an invaluable asset in the realm of process piping.

Little P.Eng.'s team of expert engineers works tirelessly to stay at the forefront of evolving industry standards, technologies, and market demands, ensuring their clients get the best of what the industry has to offer. With their forward-thinking approach, they not only provide services but also contribute to shaping the future of the process piping industry.

Keywords:

Little P.Eng., ASME B31.3 Process Piping Calculation Services, engineering consulting, process piping industry, process piping standards, pressure design, flexibility and stress analysis, support design and selection, customer satisfaction, Wall Thickness Calculations, Flange Rating Calculations, Branch Connection Calculations, Expansion Joint Pressure Thrust Calculations, Safety Valve Reaction Force Calculations, Pipe Support Span Calculations, High-Pressure Piping Design Calculations.

Tags:

Little P.Eng.

engineering consulting

Expansion Joint Pressure Thrust Calculations

Safety Valve Reaction Force Calculations

High-Pressure Piping Design Calculations

ASME B31.3 Process Piping Calculation Services

process piping industry

process piping standards

pressure design

flexibility and stress analysis

support design and selection

customer satisfaction

Wall Thickness Calculations

Flange Rating Calculations

Branch Connection Calculations

Pipe Support Span Calculations

Engineering Services

Pipe Stress Analysis Services

Piping Design

Located in Calgary, Alberta; Vancouver, BC; Toronto, Ontario; Edmonton, Alberta; Houston Texas; Torrance, California; El Segundo, CA; Manhattan Beach, CA; Concord, CA; We offer our engineering consultancy services across Canada and United States. Meena Rezkallah.

#Little P.Eng.#engineering consulting #Expansion Joint Pressure Thrust Calculations #Safety Valve Reaction Force Calculations #High-Pressure Piping Design Calculations #ASME B31.3 Process Piping Calculation Services #process piping industry #process piping standards #pressure design #flexibility and stress analysis #support design and selection #customer satisfaction #Wall Thickness Calculations #Flange Rating Calculations #Branch Connection Calculations #Pipe Support Span Calculations

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dealhunter739 · 3 years

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Api 660 Latest Edition

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list of standards

Addeddate 2016-09-25 12:20:51 Identifier API653 Identifier-ark ark:/13960/t4qk2b23h Ocr ABBYY FineReader 11.0 Ppi 300 Scanner Internet Archive HTML5 Uploader 1.6.3. Download do game boy game. API Std 660 currently viewing. March 2015 Shell-and-tube Heat Exchangers, Ninth Edition, Includes Addendum 1 (2020). American Petroleum Institute (API) standards advocate proven, sound engineering and operating practices and safe, interchangeable equipment and materials from drill bits to environmental protection. Included are manuals, standards, specifications, recommended practices, bulletins, guidelines and technical reports.

list of standards

hello guys this are some applicable standards as tips however this document is old a decade! but may be helpful. just shearing. Engineering Rocks!!! 1.0 LIST OF STANDARDS ORGANIZATIONS BY EQUIPMENT CATEGORIES 1.1 GENERAL 1.2 SAFETY 1.3 VESSELS - TANKS 1.4 HEAT TRANSFER EQUIPMENT 1.5 ROTATING EQUIPMENT 1.6 PROCESS EQUIPMENT 1.7 MATERIAL HANDLING 1.8 GENERAL SERVICES 1.9 PLANT SERVICES 1.10 BUILDING SERVICES 1.11 PLUMBING 1.12 PIPING 1.13 MISCELLANEOUS MATERIAL, WELDING, ETC. 2.0 LIST OF MAJOR CODES AND STANDARDS RELATED TO PROCESS ENGINEERING 2.1 ANSI 2.2 API 2.3 ASME 2.4 ASHRAE 2.5 AWWA 2.6 CEMA 2.7 CGSB 2.8 CSA 2.9 CTI 2.10 HYDRAULICS INSTITUTE 2.11 MSS 2.12 NACE 2.13 NEMA 2.14 NFPA 2.15 PFI 2.16 RMA 2.17 SSPC 2.18 TEMA 2.19 ULC TABLE OF CONTENTS (CONTINUED) 2.20 ISA 2.21 ISO 2.22 OFFSHORE PIPELINE 2.23 UNITS OF MEASUREMENT ------------------------------------------------------------ 1.0 LIST OF STANDARDS ORGANIZATIONS BY EQUIPMENT CATEGORIES 1.1 General AGS American Gas Society ANSI American National Standards Institute BSI British Standards Institute CGSB Canadian General Standards Board CSA Canadian Standards Association ISO International Organization for Standardization NBS National Bureau of Standards ISA Instrument Society of America 1.2 Safety ANSI American National Standard Institute Dept. of Labour EPA Environment Protection Agency FM Factory Mutual NBFU National Board of Fire Underwriters NFPA National Fire Protection Association OSHA Occupational Safety and Health Administration UL Underwriters' Laboratories 1.3 Vessels - Tanks API American Petroleum Institute ASME American Society of Mechanical Engineers AWWA American Water Works Association NBBI National Bureau of Boiler & Pressure Vessel Inspectors ULC Underwriters' Laboratories of Canada 1.4 Heat Transfer Equipment API American Petroleum Institute CTI Cooling Tower Institute TEMA Tubular Exchanger Manufacturers Association 1.5 Rotating Equipment ANSI American National Standard Institute API American Petroleum Institute AWWA American Water Works Association DEMA Diesel Engine Manufacturers Association Hydraulics Institute MPTA Mechanical Power Transmission Association 1.6 Process Equipment AWWA American Water Works Association GPSA Gas Processor Suppliers Association API American Petroleum Institute ASME American Society of Mechanical Engineers ASTM American Society for Testing and Materials ANSI American National Standards Institute NBBI National Bureau of Boiler and Pressure Vessel Inspectors CMAA Crane Equipment Manufacturers Association of America 1.7 Material Handling CEMA Conveyor Equipment Manufacturers Association CMAA Crane Equipment Manufacturers Association of America CSA Canadian Standards Association FEM Fédération Européenne de la Manutention (Rules for the Design of Hoisting Appliances) MHI Material Handling Institute RMA Rubber Manufacturers Association 1.8 General Services SAMA Scientific Apparatus Makers Association 1.9 Plant Services ACGIH American Conference of Governmental Industrial Hygienists AGA American Gas Association AWWA American Water Works Association CAGI Compressed Air and Gas Institute CGA Canadian Gas Association CGA INC. Compressed Gas Association 1.10 Building Services AMCA Air Moving and Conditioning Association ARI Air-Conditioning and Refrigeration Institute ASHRAE American Society of Heating, Refrigerating and Air-Conditioning Engineers 1.11 Plumbing ASPE American Society of Plumbing Engineers ASSE American Society of Sanitary Engineers - Canadian Plumbing Code PDI Plumbing and Drainage Institute - Provincial Plumbing Code 1.12 Piping API American Petroleum Institute ASME American Society of Mechanical Engineers MSS Manufacturers Standardization Society of the Valve and Fittings Industry PFI Pipe Fabricators Institute PPI Plastic Pipe Institute 1.13 Miscellaneous Material, Welding, etc. ASME American Society of Mechanical Engineers ASTM American Society for Testing and Materials TIMA Thermal Insulation Manufacturers Association 2.0 LIST OF MAJOR CODES AND STANDARDS RELATED TO PROCESS ENGINEERING 2.1 ANSI A1 Liquefied Petroleum Gas System A13.1 Scheme for Identification of Piping Systems B.16.1 Cast Iron Pipe Flanges and Flanged Fittings, Class 25, 125, 250, and 800 B.16.5 Pipe Flanges and Fittings B16.9 Steel Buttwelding Fittings B31 Corrosion Control for B31.1 B31.1 Power Piping B31.2 Fuel Gas Piping B31.3 Chemical Plant and Petroleum Refinery Piping B31.4 Liquid Petroleum Transportation Piping Systems B31.5 Refrigeration Piping B31.8 Gas Transmission and Distribution Systems (1982) B31.11 Slurry Transportation Piping Systems B36.10 Welded and Seamless Wrought Pipe B36.19 Stainless Steel Pipe B73.1M Horizontal, End Suction Centrifugal Pumps B73.2M Vertical In-line Centrifugal Pumps B133.2 Basic Gas Turbine B133.4 Gas Turbine Control and Protection Systems LOS4C1 Flushing and Cleaning Gas Turbine Gen. Lube Systems 58 Standard for the Storage and Hauling of Liquefied Petroleum Gas MC96.1 Temperature Measurement Thermocouples 2.2 API Publ. 941 Steel for Hydrogen Service at Elevated Temperature and Pressures in Petroleum Refineries and Petrochemical Plants Publ. 2009 Safe Welding and Cutting Practices in Refineries Publ. 2015 Safe Entry and Cleaning of Petroleum Storage Tanks Publ. 2021 Fighting Fires In and Around Flammable and Combustible Liquid Atmosphere Storage Tanks Publ. 2030 Guidelines for Applications of Water Spray Systems for Fire Protection in the Petroleum Industry Publ. 2517 Evaporation Loss from External Floating-Roof Tanks Publ. 2557 Vapour Collection and Control Options for Storage and Transfer Operations in the Petroleum Industry RP 14C Analysis, Design, Installation and Testing of Basic Surface Safety Systems on Offshore Platforms RP 14F Design and Installation of Offshore Platforms RP 14G Fire Prevention and Control on Open Type Offshore Production Platforms RP 30 Calculation for Heater Tube Thickness in Petroleum Refineries RP 500 Recommended Practice for Classification of Locations for Electrical Installations at Petroleum Facilities RP 520 Sizing, Selection, and Installation of Pressure Delivery Devices in Refineries. Parts 1 and 2 RP 521 Guide for Pressure Delivery and Depressuring Systems RP 526 Flanged Steel Safety Relief Valves RP 551 Process Measurement Instrumentation RP 560 Fired Heater for General Refinery Services RP 651 Cathodic Protection of Aboveground Petroleum Storage Tanks RP 652 Lining of Aboveground Storage Tank Bottoms RP 682 Shaft Sealing System for Centrifugal and Rotary Pumps RP 1110 Pressure Testing of Liquid Petroleum Pipelines RP 2001 Fire Protection in Refineries RP 2003 Protection Against Ignitions Arising out of Static, Lighting and Stray Currents Spec. 5L Line Pipe Spec. 6D Pipeline Valves Spec. 6FA Fire Test for Valves Spec. 12D Field Welded Tanks for Storage of Production Liquids Spec. 12F Shop Welded Tanks for Storage of Production Liquids Spec. 12J Oil and Gas Separators Spec. 12K Indirect Type Oil Field Heaters Spec. 12L Specification for Vertical and Horizontal Emulsion Treaters Spec. 12P Specification for Fibreglass Reinforced Plastic Tanks Std. 510 Pressure Vessel Inspection Code Std. 526 Flanged Steel Safety - Relief Valves Std. 527 Seat Tightness of Pressure Relief Valves Std. 594 Wafer and Wafer-Lug Check Valves Std. 598 Valve Inspection and Testing Std. 599 Metal Plug Valves - Flanged and Butt-Welding Ends Std. 600 Steel Gate Valves - Flanged and Butt-Welding Ends Std. 602 Compact Steel Gate Valves - Flanged Threaded, Welding, and Extended-Body Ends Std. 603 Class 150, Cast, Corrosion-Resistant, Flanged-End Gate Valves Std. 607 Fire Test for Soft-Seated Quarter-Turn Valves Std. 608 Metal Ball Valves - Flanged and Butt-Welding Ends Std. 609 Lug - and Wafer - Type Butterfly Valves Std. 610 Centrifugal Pumps For Petroleum, Heavy Duty Chemical and Gas Industry Services Std. 611 General Purpose Steam Turbines for Refinery Services Std. 612 Special Purpose Steam Turbines for Refinery Services Std. 613 Special Purpose Gear Units for Refinery Services Std. 614 Lubrication, Shaft-Sealing and Control Oil Systems for Special Purpose Application Std. 615 Sound Control of Mechanical Equipment for Refinery Services Std. 616 Gas Turbines for Refinery Services Std. 617 Centrifugal Compressors for General Refinery Services Std. 618 Reciprocating Compressors for General Refinery Services Std. 619 Rotary-Type Positive Displacement Compressors for General Refinery Services Std. 620 Design and Construction of Large, Welded, Low Pressure Storage Tanks Std. 630 Tube and Header Dimensions for Fired Heaters for Refinery Service Std. 650 Welded Steel Tanks for Oil Storage Std. 660 Heat Exchangers for General Refinery Service Std. 661 Air-Cooled Heat Exchangers for General Refinery Service Std. 670 Vibrations, Axial Position, and Bearing-Temperature Monitoring System Std. 671 Special Purpose Coupling for Refinery Service Std. 674 Positive Displacement Pumps - Reciprocating Std. 675 Positive Displacement Pumps - Controlled Volume Std. 676 Positive Displacement Pumps - Rotary Std. 677 General Purpose Gear Units for Refineries Services Std. 678 Accelerometer-Base Vibration Monitoring System Std. 1104 Welding Pipelines and Related Facilities Std. 2000 Venting Atmospheric and Low-Pressure Storage Tanks - Non-Refrigerated and Refrigerated Std. 2530 Measurement Standard Chapter 14, Natural Gas 2.3 ASME Boiler and Pressure Vessel Code Section I Power Boilers Section II Materials Specifications Part A Ferrous Materials Part B Non-Ferrous Materials Part C Welding Rods, Electrodes and Filler Metal Part D Properties Section IV Heating Boilers Section V Non-Destructive Examination Section VIII Pressure Vessels - Division 1 Division 2 Section IX Welding and Brazing Qualifications Section X Fibreglass-Reinforced Plastic Pressure Vessels Standards Std. 120 Gas Turbine Generator Lube Oil Systems Performance Test Codes PTC 1 General Instructions PTC 2 Definitions and Values PTC 4.1 Steam Generating Units PTC 8.2 Centrifugal Pumps PTC 9 Displacement Compressors, Vacuum Pumps and Blowers PTC 10 Compressors and Exhausters PTC 22 Gas Turbine Power Plants 2.4 ASHRAE ASHRAE Handbooks 2.5 AWWA C110 Gray-Iron and Ductile Iron Fittings, 3 in. through 48 in. for Water and Other Liquids C151 Ductile Iron Pipe, Centrifugally Cast in Metal Molds or Sand-Lined Molds for Water and Other Liquids E101-88 Vertical Turbine Pumps - Live Shaft and Submersible Types C502 Dry Barrel Hydrants Fire Hydrants 2.6 CEMA Belt Conveyors for Bulk Materials Handbook 2.7 CGSB 41-GP-22 Standard for Process Equipment Reinforced Polyester, Chemical Resistance, Custom-Contact Molded 2.8 CSA B-51 Boilers and Pressure Vessels B-53 Identification of Piping Systems B-52-M Mechanical Refrigeration Code B-63 Welded and Seamless Steel Pipe B-137.3 Rigid Poly (Vinyl Chloride) (PVC) Pipe B-137.4-M Polyethylene Piping Systems for Gas Service W-48.1 Mild Steel Covered Arc-Welding Electrodes W-48.3 Low-Alloy Steel Arc-Welding Electrodes Z-183 Oil Pipeline Transportation Systems Z-184-M Gas Pipeline Systems Z-245.1 Pipeline Systems and Materials Z-245.10 Wrought Steel Buttwelding Fittings and Flanges Z-276-M LNG - Production, Storage and Handling 2.9 CTI STD-103 Standard Specifications for the Design of Cooling Tower Structures with Redwood Lumber STD-111 Gear Speed Reducers STD-114 Standard Specifications for the Design of Cooling Tower Structures with Douglas Fir Lumber NCL-109 Nomenclature for Industrial Water - Cooling Towers WMS-112 Pressure Preservative Treatment of Lumber for Industrial Water - Cooling Towers ATC-105 Acceptable Test Code for Water-Cooling Towers 2.10 Hydraulics Institute Standards for Centrifugal, Vertical, Rotary and Reciprocating Pumps 2.11 MSS Standard Practices SP-6 Standard Finishes for Contact Faces Pipe Flanges and Connecting End Flanges of Valves and Fittings SP-25 Standard Marking System for Valves, Fittings, Flanges and Union SP-44 Steel Pipeline Flanges SP-53 Quality Standards for Steel Castings and Forgings for Valves, Flanges and Fittings and Other Piping Components - Mag. Particle SP-54 Quality Standards for Steel Castings and for Valves, Flanges and Fittings and Other Piping Components - Radiographic SP-55 Quality Standards for Steel Castings and for Valves, Flanges and Fittings and Other Piping Components - Visual SP-58 Pipe Hangers and Supports - Material, Design and Manufacture SP-61 Pressure Testing of Steel Valves SP-69 Pipe Hangers and Supports - Selection and Application SP-75 High Test Wrought Butt Welding Fittings SP-82 Valve Pressure Testing Methods SP-89 Pipe Hangers and Supports - Fabrication and Installation Practices 2.12 NACE MR-01-90 Sulfide Stress Cracking Resistant Metallic Material for Oil Field Equipment RP-01-78 Design, Fabrication and Surface Finish of Metal Tanks and Vessels to be Lined for Chemical Immersion Service RP-0188-88 Discontinuity (Holiday) Testing of Protective Coatings 2.13 NEMA SM23-1979 Steam Turbines for Mechanical Drive Service 2.14 NFPA 11 Low Expansion Foam Systems 11A Medium and High Expansion Foam Systems 12 Carbon Dioxide Extinguishing Systems 12A Halon 1301 Fire Extinguishing Systems 12B Halon 1211 Fire Extinguishing Systems 13 Installation of Sprinkler Systems 14 Stand Pipe and Hose Systems 15 Water Spray Fixed Systems 16 Deluge Foam-Water Sprinkler and Spray Systems 17 Dry Chemical Extinguishing Systems 20 Centrifugal Fire Pumps 22 Water Tanks for Private Fire Protection 24 Installation of Private Fire Service Mains and Their Appurtenances 25 Water Based Fire Protection Systems 37 Stationary Combustion Engines and Gas Turbines 51 Oxygen-Fuel Gas Systems for Welding 54 National Fuel Gas Code CUA 58 LP Gas Storage, Use 59 LP Gases at Utility Gas Plants 59A Storage and Handling of Liquefied Natural Gas 82 Incinerators, Waste and Linen Handling Systems and Equipment 214 Water Cooling Towers 291 Fire Flow Testing and Marking of Hydrants 655 Prevention of Sulphur Fires and Explosions 2.15 PFI ES 4 Hydrostatic Testing of Fabricated Piping ES 5 Cleaning of Fabricated Piping ES 7 Minimum Length and Spacing for Welded Nozzles ES 18 Ultrasonic Examination of Tubular Products ES 22 Recommended Practice for Color Coding of Piping Materials 2.16 RMA Conveyor and Elevator Belt Handbook 2.17 SSPC PA1 Shop, Field and Maintenance Painting SP1 Solvent Cleaning SP5 White Metal Blast Cleaning SP6 Commercial Blast Cleaning SP7 Brush-Off Blast Cleaning SP8 Pickling SP10 Near-White Blast Cleaning Guide to Vis1 Guide to Pictorial Surface Preparation Standards for Painting Steel 2.18 TEMA TEMA Standard 2.19 ULC S603M Standard for Shop Fabricated Steel Underground Tanks for Flammable and Combustible Liquids S630M Standard for Shop Fabricated Steel Aboveground Tanks for Flammable and Combustible Liquids 2.20 ISA 85.1 Instrument Symbols and Identification 2.21 ISO 5167 Sizing of Metering Orifice 2.22 Offshore Pipeline DNV Rules for Submarine Pipeline Systems 2.23 Units of Measurement ISO 1000 SI Units

NACE MR0175 is identical to ISO 15156. ANSI / NACE MR0175 / ISO 15156 lists the requirements for carbon steels, low alloys and corrosion resistant alloy exposed to H2S in oil and gas exploration and production environments.

This page is maintained by Oil and Gas Corrosion Ltd. and allows you to track the latest edition of NACE MR0175.

The current NACE MR0175 revision is:

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ISO 15156 2020 (not a national standard ANSI/BSI and still not ratified by NACE)

The previous revision is

The 2015 revision is supplemented by several Technical Circulars published via ISO:

The Technical Circulars are integral part of the document.

Oil and Gas Corrosion Ltd provides technical support to understand and implement the requirements of NACE MR0175

Contact our team today!

With a wealth of experience in the oil and gas industry, we provide independent materials and corrosion consultancy to help companies reduce risk, save money and apply best practice in their oil and gas businesses.

Find out more by getting in touch – you’ll get an answer from a qualified, experienced materials engineer every time.

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little-p-eng-engineering · 4 years

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Meena Development LTD., is a premier provider of Piping Design Solutions and Engineering Services. Our fields of specialty are Piping Stress Analysis, Plant Layout, Piping Design & Engineering, and Structural Engineering for Industrial Plants and Facilities across Canada, United States and worldwide.

Here is a list of Software Solutions and Engineering Services currently offered. Our Engineering Solutions offer flexibility to suit our clients needs using the following software and more:

CAESAR II for Pipe Stress Analysis

Piping Design Software for Design and Detail Engineering Services such as PDS, SmartPlant 3D, AutoCAD Plant 3D, CADWorx.

Data Translators for PDMS, PDS, SmartPlant 3D, AutoCAD Plant 3D, STAAD Pro., Risa 3D CAESAR II etc.

STAAD Pro, RISA3D, RAM Connections, for Structural Analysis

Meena Development LTD. provides the above solutions and services to EPC Contractors, Owner Operators and Engineering Consultants involved in the following fields.

Power (fossil & nuclear)

Refinery

Fertilizers

Sugar & Food Processing

Steel / Metal Process

Aircraft and Aerospace

Defense Industries

Oil & Gas production (onshore & offshore)

Chemical & Petrochemical

Pharmaceutical

Paper & Pulp

Water & Waste Treatment

Ship Building

Building Services

Technical Capabilities in Design & Detail

Engineering Services

Layout,

Piping Design & Engineering,

Pipe Stress Analysis Services

Design of complete Plant / Facility Layout including generation of:

+ Piping & Instrumentation Diagrams (P&IDs)

+ Composite Equipment and Piping / Tubing Layout Drawings (GAs)

+ Layout Drawings for Structures, Cable Trays and Ducts

+ Piping / Tubing Isometrics and Spools

+ Reports including Line List, Valve List, Instrument List, Bill of Materials etc.

Design and Detail Engineering of Equipment, Piping / Tubing and Supports to Piping / Tubing

+ Equipment design using ASME Section VIII, API, NEMA, TEMA etc.

+ Piping / Tubing design and stress analysis using ANSI, ASME Section III, European & other codes for weight, thermal, wind and other static loads

+ Piping / Tubing Support design and analyses (including ASME Section III)

+ Evaluation of existing piping installations and modifications

+ Design and stress analysis of fiberglass reinforced piping (FRP)

Design and analysis of piping / tubing systems, structures and equipment (mechanical and electrical) for all types of dynamic loads, as applicable, including:

+ Pump excitation

+ Fluid hammer

+ Safety valve release

+ Seismic (earthquake)

+ Slug flow and Pulsating flow

+ Other impact and shock loads

Analysis of Nozzle connections

+ Nozzles on vessels, exchangers and tanks

+ Nozzles for pumps, compressors and turbines

Computational Fluid Dynamics (CFD) for determination of flow characteristics in Piping & Ducting systems and Mechanical equipment

Preparation of Intelligent P&IDs and 3D Plant Model

Customization of 2D and 3D plant design software to suit project requirements

Intelligent P&ID database development and drafting using P&ID software and generation of reports such as line list, valve list, equipment list, instrument list etc.

Creation of 3D plant model comprising of civil / structures, equipment, piping / tubing, ducting, cable trays, supports etc.

Generation of plot plans, GA drawings, layout drawings, isometrics, spools, detail drawings for supports and reports such as Bill of Materials from 3D model

Conversion of 2D drawings to 3D model

Attachment of information to intelligent P&IDs and 3D models

Integration of P&IDs and 3D models with client's in-house and third party software

Walk-through, animation of construction sequences and progress monitoring

Animation of dismantling and assembly sequences for equipment

Civil & Structural Design & Analysis

Layout of Concrete & Steel Structures in 3D

Structural Design & Analysis

Design and Qualification of Supports to Equipment, Ducting and Cable Trays

Design and Qualification of Embedded Parts

Generation of GA drawings, joint detailing, fabrication drawings, BOM etc.

Electrical Design

Layout of Electrical Cable Trays and Supports

Layout of Electrical Buildings in 3D for High Tension / Low Tension Switchgear, Panels etc.

Cable Routing and Scheduling

Outdoor Switchyard / Substation Design

3D Layout and Extraction of Drawings & Bill of Quantities

Control & Instrumentation (C&I) Design

Identify relevant information from P&IDs

Layout of Instruments, Junction Boxes & Control Panels

Instrument and Control Valve Lists

Instrumentation Data Sheets

Layout of C&I Cable Trays and Supports

Cable Routing and Scheduling

3D Layout and Extraction of Drawings & Bill of Quantities

Piping Design Services / Piping Engineering Services Little P.Eng. Engineering specializes in Piping Engineering and Stress Analysis serving every industry including Power (Nuclear, Fossil, Biomass, Gas), Co-generation, Oil and Gas, Petrochemical, Chemical, Pulp & Paper, Process Industry. The team members of Little P.Eng. Engineering team have been part of the industry for decades and have the capability to work on every software related to piping engineering, stress analysis and finite elements including PDMS, CADWorx, CAESAR II, AutoCAD following any CODE requirements including ASME Sec III NB, NC, ND (for Nuclear applications), B31.1, B31.3, B31.4, B31.8, etc.

All the services you need, all in one place. We cover all the aspects of piping engineering, detailed design, stress Analysis, structural and support design and code calculations to meet every type of need.

Pre - Bid Engineering Documents

Conceptual Plot Plans and Layouts

Preliminary Equipment Layouts

Pipe Stress Analysis and Support Selection

Pipe Support Details including Bill of Material

Equipment Layouts as per Design Basis

3D Modeling

Piping General Arrangement Drawings

Line List and Valve List

Piping Material Specification

Preparation of Bill of Materials

Piping Isometrics

Pipe Support Index/Schedule

Valve Datasheets

Insulation Schedule

Tie - In Schedules

Pipe Stress Analysis Services Stress Analysis is our specialty. We have industry experts who can resolve any complex problem related to any piping and structural analysis. Our teams have a long and wide range of project experience to carry out the full spectrum of analysis for piping systems and piping flexibility analysis. We conduct detailed piping stress analysis, evaluation, and confirmation of the structural & operational integrity of process piping systems Little P.Eng. Engineering team is proficient in analyzing the impact of external focus on static structures, such as construction components, machine components, and more. Our highly skilled engineers offer structural analysis services to ensure that these modules meet fatigue safety requirements. Our structural and stress analysis specialists help simulate the movement of non-stationary objects in vibration analyses, lifting analyses, and other services. With our technology and experience in structural stress analysis, we quantify and further rectify failures in the structure of components that do not meet the proposed design plan, which could result from improper use of materials or even flaws in the manufacturing process.

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Static Pipe Flexibility Analysis

Dynamic Analysis

Seismic Analysis

Water Hammer Analysis

Vibration & Shock Analysis

Support Selection and design

Spring Hanger Design

Generation of Pipe Isometric Drawings

Structural Analysis : In-service, lifting & transportation

Analysis and Design of steel structures .

Structural design calculations report

Basic Pipe Stress Concepts and Piping Loading Categories;

Piping systems experience different loadings, categorized into three basic loading types, namely Sustained, Thermal and Occasional loads. Sustained Load: It mainly consists of internal pressure and dead-weight. Dead-weight is from weight of pipes, fittings, components such as valves, operating fluid, test fluid, insulation, cladding, lining etc. Internal design/operating pressure develops uniform circumferential stresses in the pipe wall, based on which pipe wall thickness is determined during the process/P&ID stage of plant design such that "failure by rupture" is avoided. In addition, internal pressure develops axial stresses in the pipe wall. These axial pressure stresses vary only with pressure, pipe diameter and wall thickness, all three of which are pre-set at the P&ID stage and hence these axial pressure stresses cannot be reduced by changing the piping layout or the support scheme. On the other hand, dead-weight causes the pipe to bend (generally downward) between supports and nozzles, producing axial stresses in the pipe wall (also called "bending stresses"); these bending stresses linearly vary across the pipe cross-section, being tensile at either the top or bottom surface and compressive at the other surface. If the piping system is not supported in the vertical direction (i.e., in the gravity direction) excepting at equipment nozzles, bending of the pipe due to dead-weight may develop excessive stresses in the pipe and impose large loads on equipment nozzles, thereby increasing the susceptibility to "failure by collapse". Various international piping codes impose limits, also called "allowable stresses for sustained loads", on these axial stresses generated by dead-weight and pressure in order to avoid "failure by collapse". For the calculated axial stresses to be below such allowable stresses for sustained loads, it may be necessary to support the piping system vertically. Typical vertical supports to carry dead-weight are:

Resting steel supports,

Rod hangers,

Variable spring hangers, and

Constant support hangers.

Both rod hangers and resting steel supports fully restrain downward pipe movement but permit pipe to lift up at such supports. If pipe lifts up at any of the rod hangers / resting supports during operating condition, then that support does not carry any pipe weight and hence will not serve its purpose. Two examples are presented to illustrate how piping can be supported by spring hangers and resting steel supports to comply with the code requirements for sustained loads. Thermal Load (also referred as Expansion Load): It refers to the "cyclic" thermal expansion/contraction of piping as the system goes from one thermal state to another thermal state (for example, from "shut-down" to "normal operations" and then back to "shut-down"). If the piping system is not restrained in the thermal growth/contraction directions (for example, in the axial direction of a straight pipe), then for such cyclic thermal load, the pipe expands/contracts freely; in this case, no internal forces, moments and resulting stresses and strains are generated in the piping. On the other hand, if the pipe is "restrained" in the directions it wants to thermally deform (such as at equipment nozzles and pipe supports), such constraint on free thermal deformation generates cyclic thermal stresses and strains throughout the system as the system goes from one thermal state to another. When such calculated thermal stress ranges exceed the "allowable thermal stress range" specified by various international piping codes, then the system is susceptible to "failure by fatigue". So, in order to avoid "fatigue failure" due to cyclic thermal loads, the piping system should be made flexible (and not stiff). This is normally accomplished as follows:

Introduce bends/elbows in the layout, as bends/ elbows "ovalize" when bent by end-moments, which increases piping flexibility.

Introduce as much "offsets" as possible between equipment nozzles (which are normally modeled as anchors in pipe stress analysis). For example, if two equipment nozzles (which are to be connected by a pipeline) are in line, then the straight pipe connecting these nozzles is "very stiff". On the other hand, if the two equipment are located with an "offset", then their nozzles will have to be connected by an "L-shaped" pipeline which includes a bend/elbow; such "L-shaped" pipeline is much more flexible than the straight pipeline mentioned above.

Introduce expansion loops (with each loop consisting of four bends/elbows) to absorb thermal growth/contraction.

Lastly, introduce expansion joints such as bellows, slip joints etc., if warranted. In addition to generating thermal stress ranges in the piping system, cyclic thermal loads impose loads on static and rotating equipment nozzles. By following one or more of the steps from (a) to (d) above and steps (e) and (f) listed below, such nozzle loads can be reduced.

Introduce "axial restraints" (which restrain pipe in its axial direction) at appropriate locations such that thermal growth/contraction is directed away from equipment nozzles, especially critical ones.

Introduce "intermediate anchors" (which restrain pipe movement in the three translational and three rotational directions) at appropriate locations such that thermal deformation is absorbed by regions (such as expansion loops) away from equipment nozzles.

A few example layouts are presented to illustrate how loops/offsets, axial restraints and intermediate anchors are used to reduce thermal stresses in piping (and resulting nozzle loads). Occasional Load: This type of load is imposed on piping by occasional events such as earthquake, wind etc. To protect piping from wind (which normally blows in horizontal plane), it is normal practice to attach "lateral supports" to piping systems. During an earthquake, the earth may also move vertically. To protect piping against both horizontal and vertical movement during earthquake, some of the resting supports may be made as "integral 2-way vertical and lateral restraints". Fortunately, to carry sustained loads, normally vertical supports (as those listed under the Section titled "Sustained Load" above) are required. To withstand static seismic 'g' loads, "integral 2-way vertical and lateral restraints" are required. Generally, some of the vertical weight supports can be modified as "integral 2-way vertical and lateral restraints". On the other hand, for thermal loads, zero supports give zero stresses. So, thermal stresses and equipment nozzle loads will normally decrease as the number of supports goes down. Axial restraints and intermediate anchors are recommended only to direct thermal growth away from equipment nozzles.

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little-p-eng-engineering · 4 years

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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.

littlepeng.com/single-post/2020/04/19/professional-piping-engineering-and-stress-analysis-services-canada

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little-p-eng-engineering · 4 years

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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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little-p-eng-engineering · 4 years

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Professional Piping Engineering and Stress Analysis Services Canada

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.

Tags:

· Professional Piping Engineering Consulting Service

· Engineering Company

· Piping Engineering Company

· Structural Engineering Company

· Engineering Firm

· Piping Engineering Firm

· Structural Engineering Firm

· Canada

· Alberta

· Ontario

· Saskatchewan

· British Columbia

· Piping Engineer

· Piping Stress Engineer

· Structural Engineer

· Meena Rezkallah

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· Pipeline Engineering Company

· Pipeline Engineering Firm

· Saudi Arabia

· United Arab Emirates

· Oman

· CAESAR II

· TEXAS

· Calgary

· Vancouver

· Toronto

· Pipe Stress Analysis Services

Edmonton

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little-p-eng-engineering · 4 years

Video

Pipe Flexibility Analysis / Pipe Stress Analysis Services is a critical component in any piping design. It is mandatory that the critical piping which are operating under high pressure or high temperature services need to be analyzed for flexibility , expansion and load sustaining capabilities. Apart from process and power piping, District cooling systems which employ pre-insulated pipes and piping inside the energy transfer stations need to be analyzed for flexibility and expansion as per API, ASME B31.3, B31.1, B31.8, B31.4, CSA Z662. Meena Development LTD. offers comprehensive service which covers all aspects of Pipe Stress analysis in both industries.

Due to the extensive calculations required, the stress analysis will be carried out with the assistance of computer simulation and modeling software such as CARSAE II.

The stress analysis provides useful design information including the location of any high stress concentrations and bends within the network it also highlights areas requiring attention by way of redesign and or adding additional anchors or hangers to eliminate high stresses in the piping system.

Pipe Stress Analysis for Onshore and off shore Process and Power Piping :

1. Advising on pipeline routing and elevation profile

2. Static load and stress calculations of above ground and underground piping systems

3. Wind load calculation

4. FRP & GRP pipe stress analysis

5. Offshore piping stress analysis

6. Fatigue analysis and cumulative usage report

7. Dynamic analysis and harmonic forces and displacements of piping systems

8. Mode shapes and natural frequency calculations

9. Shock spectrum analysis and independent support motion (earthquake)

10. Force spectrum analysis (liquid hammer, slug flow & relief valve discharge)

11. Model time history analysis

12. Calculation of Spring Stiffness

13. Thrust force of Expansion Bellows

14. Effects of Thermal Loads, Occasional loads such as Hydrostatic Test, Safety Valve's Reaction Force, Seismic Loads, Wind Loads

15. Vibration Analysis Steam Hammer & Water Hammer Sea Wave load spectrum

16. Safety Valve Reaction Force

17. Calculation of Displacement of Terminal point movement due to Thermal, Equipment Foundation Settlement ,Pipe Support Movement, Pipe Support Foundation Settlement

The purpose of the stress analysis in piping systems is to identify the behavior of the pipes, piping components under the potential static loading experienced from the start up to operation. In particular, the stress analysis is undertaken to confirm that stresses produced in the piping system as a result of the temperature difference, pressure and dead weight will comply with the governing codes for such static loads. Moreover, the calculated displacements and restraint (anchors and hangers) loads under these static conditions should comply as well with these governing codes.

Pipe Support Engineering Design:

1. Selection of Pipe Supports

2. Load calculation for Pipe Support

3. Structural design of Pipe Supports

4. Spring Hanger Data Sheets

5. Thrust Block Sizing

6. Plates, Inserts & Loading Drawing (input to Civil)

Because Meena Development LTD. offers an array of multidisciplinary services (Pipe Stress Analysis and Structural Engineering), we can provide pipe stress analysis solutions across a multitude of industries. The listing below indicates a few of Meena Development’s most commonly served industries.

1. Steel and Metals Industry

2. Energy and Power Generation Industry

3. Water and Wastewater Industry

4. Oil & Gas Industry

5. Chemicals and Plastics Industry

6. Pulp & Paper Industry

7. Facility Services

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little-p-eng-engineering · 4 years

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Meena Development LTD. provides full-services and specialized pipe stress analysis using CAESAR II for piping and pipelines across Canada & globally as per per API, ASME B31.3, B31.1, B31.8, B31.4, CSA Z662 codes for all industries. Our Canadian professional Engineers are ready to authenticate, validate piping packages.

Pipe Stress Analysis Services Using CAESAR II

· Linear and non-liner static analysis

· Dynamic analysis including earthquake and hydraulic shock, and oscillation analysis

· Analysis of underground piping systems

We provide stress analysis for process piping, power piping and pipelines on the ground and underground.

For pipe stress analysis and calculation, we use CAESAR II or according to the client´s individual needs. It offers opportunity of a multitude of analysis types – static, dynamic (first-order, second-order theory for linear or non-linear boundary conditions).

Complex analysis consists of:

· strength analysis of pipelines

· calculation of allowable stress of piping systems and associated structures

· nozzle load of associated devices and apparatuses

· pipeline dilatation and piping movements

· optimization for safe operation and cost minimization

· concept of flexible and uniform bearings, compensators, dynamic brakes and silencers if necessary for systems

· fatigue analysis

· flange joints analysis

· optimization of piping systems

· preparation of isometrics and program outputs

· calculation report (also as provable documentation)

We provide analysis for following operational states:

· dead load and overpressure including pressure test and assembly state

· restricted dilatation loads

· wind loads

· earthquake loads

· force excitation loads

· settlement loads

· impact loads

· unsteady flow of fluid

· emergency states – piping system whip etc.

· water hammer and relief Valve force

The documentation is also provable for authorization by CAESAR II report capabilities

We are aware of our responsibility thus we strive to find the most suitable solution for our clients which will not only guarantee safe system operation, but also significantly lower costs for supply of piping systems greatly exceeding costs for the analysis itself.

Pipe Stress Analysis services of piping systems – codes and standards:

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

· ASME Class 1, ASME Class 2, ASME Class 3

· EN 13480 - 3

· EN 1591

· AGFW

· KTA 3211.2, KTA 3201.2

· BS 7159

· KRV

· WRC 537 (107)

· WRC 297

· CSA Z662

· CSA Z245.1

· API RP 1102

Design and Construction of Piping Supports System

· Design and optimization of the concept of piping supports system

· Dimensioning of piping supports system

· Design of piping supports system

· Detailed design in the CAD programs

Tags:

· Engineering Company

· Piping Engineering Company

· Engineering Firm

· Piping Engineering Firm

· Canada

· Alberta

· Ontario

· Saskatchewan

· British Columbia

· Piping Engineer

· Piping Stress Engineer

· Meena Rezkallah

· Pipe Stress Analysis Company

· Pipe Stress Analysis Firm

· Engineering Consultant

· Pipeline Engineering Company

· Pipeline Engineering Firm

· Vancouver

· Toronto

· Calgary

· Edmonton

· Fort McMurray

· Saskatoon

· CAESAR II

· Pipe Stress Analysis

· Pipe Stress Analysis Services

· Pipe Stress Analysis Using Caesar II

· Pipe Stress Analysis Caesar II

· Piping Stress Analysis Outsourcing

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little-p-eng-engineering · 4 years

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In every process industry, there is a significant part of the piping system which runs underground. Oil and gas pipelines are buried in the ground for 360-degree protection and support. However, buried or underground piping is generally used to carry fluids for long miles.

These buried pipelines experience a significant load because of relative ground displacements along their length. Piping stress analysis offers a helping hand for underground piping to address the static as well as dynamic loading, which results from the temperature changes, effects of gravity, internal and external pressures. This pipe stress analysis ensures the safety of piping, piping components, connected equipment and supporting structure.

The analysis of a buried pipeline is entirely different from plant piping stress analysis. The unique characteristics of this kind of pipeline require some unique problems involvement like code requirements and techniques in the underground pipeline stress analysis. However, the analysis elements include anchorage force, pipe movements, lateral soil force, soil friction, and soil pipe interaction. Piping flexibility analysis, as well as the stress analysis for the underground piping system, is carried out using CAESAR II software. It provides adequate flexibility to absorb thermal expansion, displacement incurred in the buried piping system, and code compliance for stresses.

It is essential to distinguish the pipeline from plant piping to acknowledge the pipe code requirements and envision the problems involved in the buried pipe stress analysis.

Here we are listing some of the unique characteristics a pipeline possesses:

High Allowable Stress: A pipe has a circular shape and often runs several miles before turning. Hence, the calculation of stress is through simple static equilibrium formulas, considered as the most reliable ones. As the produced stresses are predictable, the permissible stress for the plant piping is considerably higher.

High Yield Strength Pipe: The first obstacle is to raise the allowable yield strength. Although the pipeline that operates above the yield strength does not create the problems of structural integrity, it can cause undesirable deformation and chances of strain follow up. Therefore, for the construction of pipelines, a high-test line with the very high ratio of yield to ultimate strength is used. All the allowable stresses have yield strength as the only basis.

High-pressure Elongation: The movement of a pipeline is generally because a very long line’s expansion has a low-temperature difference. The pressure elongation is negligible in a plant piping, contributing much to the total movement and hence should comprise the pipe stress analysis.

Soil-pipe Interaction: As a huge part of a pipeline is buried underground, any movement in the pipe has to overcome the soil force, generally divided into two categories: (i) Friction Force Created by Sliding, and (ii) Pressure Force Resulting from Pushing. The most crucial task of underground pipe stress analysis is to investigate the soil-pipe interaction, which does not matter in the plant piping analysis.

The analytical study of a buried piping system is mostly done using ASME 31.1, ASME B31.3, ASME B31.4, ASME B31.8, CSA Z662, the piping and pipelines codes whereas the CAESAR II platform helps in modeling and analyzing the piping system. Modified layouts can be then checked through CAESAR II for the same operating and environmental conditions to select the most optimized piping system layout.

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little-p-eng-engineering · 4 years

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We provide premium piping engineering & full-service pipe design and pipeline / pipe stress analysis services, from initial concept through final construction. We serve all types of industries across Canada & globally. Using CAESAR II and pipe stress calculations as per API, ASME B31.3, B31.1, B31.8, B31.4, CSA Z662.

Piping Systems work under different temperature and pressure conditions which place lot of stress on its various components. Systems must be thoroughly analyzed using latest Pipe Stress Analysis Software and supported in such a manner that no detrimental stresses occurs in the system, which can cause system failure. Various software used for pipe stress analysis are CAESAR II and AutoPipe.

Pipe Stress Analysis Services in a typical engineering project is carried out using software like CAESAR II. The procedure adopted normally is as follows :

1. Based on stress design criteria, piping stress engineer prepares stress critical lines list.

2. Piping Stress Engineer gives it to layout engineer.

3. Layout engineer makes sure that lines are routed in 3D Model assuring enough supporting structure is available for the line.

4. Layout engineer marks logical supports on line in 3d Model at all locations where it is possible to provide a support.

5. Layout engineer then extracts isometrics, check it routing point of view with all components placed as per P&IDs.

6. He then issues isometrics to piping stress engineer.

7. Layout engineer keeps track of isometrics issued to stress in a copy of stress critical lines list by adding extra columns to track stress progress.

8. Piping stress engineer marks node numbers on stress isometrics.

9. Piping stress Engineer then inputs the line data in CAESAR using classic piping input spreadsheet of CAESAR II.

10. Piping Stress Engineer adds preliminary supports based on judgement and experience.

11. Piping Stress Engineer then runs the static analysis.

12. Piping Stress Engineer then checks the stress reports for :

13. Excessive displacements.

14. Nodes exceeding allowable stresses.

15. Excessive loads in equipment nozzles.

16. Excessive loads on dynamic equipment like pumps, compressors, turbines etc.

17. If Piping stress engineer finds everything ok, he finalizes supports and give back a copy of stress isometrics with support markup to layout engineer to incorporate those supports in 3d Model.

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.

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