Titan Flow Control is a manufacturer of valves, strainers, and other pipeline products located in Lumberton, North Carolina. They produce check valves, butterfly valves, pipeline strainers, pump protection products, fabricated designs, and other accessories for industrial and commercial applications. Founded in 2000 by industry veterans, Titan Flow Control occupies over 70,000 square feet of manufacturing space. Their product lines include Y-strainers, basket strainers, duplex strainers, fabricated products, specialty products, pump protection, check valves, butterfly valves, and ball valves.
This document provides an introduction to ASME Section IX, which establishes general guidelines for welding procedure and welder performance qualifications. It discusses the requirements for qualifying welding procedures using procedure qualification records (PQRs) and welding procedure specifications (WPSs). The key points covered include:
- ASME Section IX covers the qualification of welding and brazing procedures.
- Welding procedure qualifications demonstrate that a set of welding variables can reliably produce sound welds.
- WPSs and PQRs are used to document and qualify welding procedures. A WPS must be supported by a qualified PQR to be used for production.
It also summarizes the classification of base metals using 'P' numbers,
The document provides information about the fabrication of a storage buffer vessel at Bharat Heavy Plate and Vessels Limited (BHPV). It discusses the goals of learning fabrication processes and quality inspection methods. It then provides details about the production sectors, introduction to pressure vessels, design considerations, ordering fabrication, non-destructive testing methods, and bill of materials. The key points are that the document outlines the goals, production process, design, fabrication steps, quality testing methods, and materials listing for a storage buffer vessel being manufactured at BHPV.
This document discusses the selection of metallic pipes and fittings for process piping systems according to ASME B31.3. It covers establishing design conditions and material selection criteria such as pressure class, reliability, corrosion resistance and cost. Key factors in pipe and fitting selection include material of construction, pressure-temperature ratings, joint types, fluid compatibility and standards compliance. The document provides guidance on pipe manufacturing methods and examples of pipe and fitting standards.
This document provides an agenda and overview of a training program on the ASME Boiler and Pressure Vessel Codes. It discusses the objectives of codes and standards, highlights of the ASME Code system including sections I through XI, and introduces Section VIII Division 1 which governs pressure vessels. Key points covered include material requirements, design thickness calculation, weld joint categories, non-destructive testing requirements, and post-weld heat treatment stipulations. The training aims to help participants understand the application and requirements of the ASME pressure vessel codes.
Piping Training course-How to be an Expert in Pipe & Fittings for Oil & Gas c...Varun Patel
Course Description
Piping a must know skill to work in Oil & Gas and similar Process Industries.
Oil and Gas industry is become a very competitive in the current time. Getting right mentor and right exposer within industry is difficult. With limited training budget spent by company on employee training, it is difficult to acquire the knowledge to success.
Knowing cross-functional skill give you an edge over others in your career success.
This course design based on years of field experience to ensure student will comprehend technical details easily and enjoy overall journey.
Learn in detail every aspect of Pipe & Pipe Fittings used in process industry
•Different types of Pipe, Pipe fittings (Elbow, Tee, reducers, Caps etc.), Flanges, Gaskets, Branch Connection, Bolting materials
•Materials (Metal-Carbon Steel, Stainless Steel, Alloy Steel etc. Non-Metal- PVC/VCM, HDPE, GRE-GRP etc.)
•Manufacturing methods
•Heat treatment requirements
•Inspection and Testing requirements (Non Destructive Testing, Mechanical & Chemical testing)
•Dimensions & Markings requirements
•Code & Standard used in piping
Content and Overview
With 2 hours of content including 30 lectures & 8 Quizzes, this course cover every aspect of Pipe, Pipe fittings, flanges, gaskets, branch connections and bolting material used in Process Piping.
This Course is divided in three parts.
1st part of the course covers fundamental of process industries. In this Part, you will learn about fundamental process piping. You will also learn about Code, Standard & Specification used in process industries.
2nd part cover various types of material used in process industries. In this part, you will learn about Metallic and Non-Metallic material used to manufacture pipe and other piping components.
3rd parts covers in detail about pipe and piping components used in Process piping. In this part we will learn about Industry terminology of Piping components, types of industrial material grade used in manufacturing and entire manufacturing process of these components. You will learn about different manufacturing methods, Heat treatment requirements, Destructive and Non-destructive testing, Visual & Dimensional inspection and Product marking requirements.
Upon completion, you will be able to use this knowledge direct on your Job and you can easily answer any interview question on pipe & fittings.
The document discusses design requirements for a vessel according to ASME VIII Div. 1. It provides information on the applicable sections of the code for design. The main design topics covered include requirements for internal pressure design of shells and heads, external pressure on shells, nozzle compensation, and nozzle weld sizing. The document then gives an example calculation for minimum shell thickness according to the code's internal pressure equations in section UG-27.
This document provides an overview and introduction to ASME Section VIII Division 1, which establishes rules for the construction of pressure vessels. It discusses the historical context that led to the development of pressure vessel codes, an overview of ASME's codes and standards, key definitions, and the design requirements and considerations specified in Section VIII Division 1. The document covers topics such as material selection, corrosion allowances, minimum thickness requirements, design pressure, and loadings that must be considered in pressure vessel design.
This is in continuation to my previous post (walk through-piping).
Generally, when we talk about Pipe stress analysis basics, we tend to quickly jump to Failure theories, B31.3, Caesar II, Static & Dynamic, offshore /onshore, jacketed piping etc.
Walk through Pipe stress is to ease into piping stress world with its polite introduction to curious techies, without having hold on Forces/moments/displacement equations.
Pipe Stress Analysis Basics will be taken next.
regards
Ashish
This document provides an introduction to ASME Section IX, which establishes general guidelines for welding procedure and welder performance qualifications. It discusses the requirements for qualifying welding procedures using procedure qualification records (PQRs) and welding procedure specifications (WPSs). The key points covered include:
- ASME Section IX covers the qualification of welding and brazing procedures.
- Welding procedure qualifications demonstrate that a set of welding variables can reliably produce sound welds.
- WPSs and PQRs are used to document and qualify welding procedures. A WPS must be supported by a qualified PQR to be used for production.
It also summarizes the classification of base metals using 'P' numbers,
The document provides information about the fabrication of a storage buffer vessel at Bharat Heavy Plate and Vessels Limited (BHPV). It discusses the goals of learning fabrication processes and quality inspection methods. It then provides details about the production sectors, introduction to pressure vessels, design considerations, ordering fabrication, non-destructive testing methods, and bill of materials. The key points are that the document outlines the goals, production process, design, fabrication steps, quality testing methods, and materials listing for a storage buffer vessel being manufactured at BHPV.
This document discusses the selection of metallic pipes and fittings for process piping systems according to ASME B31.3. It covers establishing design conditions and material selection criteria such as pressure class, reliability, corrosion resistance and cost. Key factors in pipe and fitting selection include material of construction, pressure-temperature ratings, joint types, fluid compatibility and standards compliance. The document provides guidance on pipe manufacturing methods and examples of pipe and fitting standards.
This document provides an agenda and overview of a training program on the ASME Boiler and Pressure Vessel Codes. It discusses the objectives of codes and standards, highlights of the ASME Code system including sections I through XI, and introduces Section VIII Division 1 which governs pressure vessels. Key points covered include material requirements, design thickness calculation, weld joint categories, non-destructive testing requirements, and post-weld heat treatment stipulations. The training aims to help participants understand the application and requirements of the ASME pressure vessel codes.
Piping Training course-How to be an Expert in Pipe & Fittings for Oil & Gas c...Varun Patel
Course Description
Piping a must know skill to work in Oil & Gas and similar Process Industries.
Oil and Gas industry is become a very competitive in the current time. Getting right mentor and right exposer within industry is difficult. With limited training budget spent by company on employee training, it is difficult to acquire the knowledge to success.
Knowing cross-functional skill give you an edge over others in your career success.
This course design based on years of field experience to ensure student will comprehend technical details easily and enjoy overall journey.
Learn in detail every aspect of Pipe & Pipe Fittings used in process industry
•Different types of Pipe, Pipe fittings (Elbow, Tee, reducers, Caps etc.), Flanges, Gaskets, Branch Connection, Bolting materials
•Materials (Metal-Carbon Steel, Stainless Steel, Alloy Steel etc. Non-Metal- PVC/VCM, HDPE, GRE-GRP etc.)
•Manufacturing methods
•Heat treatment requirements
•Inspection and Testing requirements (Non Destructive Testing, Mechanical & Chemical testing)
•Dimensions & Markings requirements
•Code & Standard used in piping
Content and Overview
With 2 hours of content including 30 lectures & 8 Quizzes, this course cover every aspect of Pipe, Pipe fittings, flanges, gaskets, branch connections and bolting material used in Process Piping.
This Course is divided in three parts.
1st part of the course covers fundamental of process industries. In this Part, you will learn about fundamental process piping. You will also learn about Code, Standard & Specification used in process industries.
2nd part cover various types of material used in process industries. In this part, you will learn about Metallic and Non-Metallic material used to manufacture pipe and other piping components.
3rd parts covers in detail about pipe and piping components used in Process piping. In this part we will learn about Industry terminology of Piping components, types of industrial material grade used in manufacturing and entire manufacturing process of these components. You will learn about different manufacturing methods, Heat treatment requirements, Destructive and Non-destructive testing, Visual & Dimensional inspection and Product marking requirements.
Upon completion, you will be able to use this knowledge direct on your Job and you can easily answer any interview question on pipe & fittings.
The document discusses design requirements for a vessel according to ASME VIII Div. 1. It provides information on the applicable sections of the code for design. The main design topics covered include requirements for internal pressure design of shells and heads, external pressure on shells, nozzle compensation, and nozzle weld sizing. The document then gives an example calculation for minimum shell thickness according to the code's internal pressure equations in section UG-27.
This document provides an overview and introduction to ASME Section VIII Division 1, which establishes rules for the construction of pressure vessels. It discusses the historical context that led to the development of pressure vessel codes, an overview of ASME's codes and standards, key definitions, and the design requirements and considerations specified in Section VIII Division 1. The document covers topics such as material selection, corrosion allowances, minimum thickness requirements, design pressure, and loadings that must be considered in pressure vessel design.
This is in continuation to my previous post (walk through-piping).
Generally, when we talk about Pipe stress analysis basics, we tend to quickly jump to Failure theories, B31.3, Caesar II, Static & Dynamic, offshore /onshore, jacketed piping etc.
Walk through Pipe stress is to ease into piping stress world with its polite introduction to curious techies, without having hold on Forces/moments/displacement equations.
Pipe Stress Analysis Basics will be taken next.
regards
Ashish
This document discusses stresses in pressure vessels. It describes how cylindrical pressure vessels experience circumferential, axial, and radial stresses. Thick cylinders have non-uniform stress distributions while thin cylinders have uniform stresses. Materials like carbon steel, stainless steel, and alloys are used in pressure vessels depending on factors like strength, corrosion resistance, cost and fabrication ease. Welded joints must meet ASME BPV Code standards. Failure analysis theories include maximum principal stress, maximum shear stress, and maximum strain energy.
This document does not provide any clear information that can be summarized in 3 sentences or less. The document contains only blank lines without any words, sentences, or meaningful content that could be abstracted and summarized.
This document provides standards and specifications for piping components used in process piping systems. It lists dimensional standards for piping components in Table 326.1 and specifies that components must meet pressure design and mechanical strength requirements. It also states that pressure-temperature ratings of listed components are accepted for design, while unlisted components must meet provisions for rating. Dimensional requirements in appendices must also be considered.
The document provides an introduction to Piping Material Specifications (PMS). It discusses that PMS gives details about all piping components, including material details, dimensions, connection types, applicable codes and standards. It is generated by the piping engineering team. PMS is used to define and specify piping components on piping and instrumentation diagrams. Each pipe class listed in the PMS includes material specifications, dimensions, ratings and other details for items like pipes, flanges, fittings and valves. New piping classes are developed in job-specific PMS documents based on project requirements.
The document provides an overview of process plant piping system design. It discusses key components of piping systems including pipe, fittings, flanges, gaskets, bolting, valves and supports. It describes design requirements according to the ASME B31.3 code and considerations for material selection such as strength, corrosion resistance, toughness and cost. Examples of stress analysis, flange rating determination and valve selection are also provided.
The document summarizes the key aspects of ASME Section IX (Ed. 2019), which contains requirements for welding procedure and performance qualifications. It discusses the history and timeline of ASME standards development. It also provides an overview of the various articles within ASME Section IX, including Article I on general welding requirements, Article II on welding procedure qualification, Article III on welding performance qualification, and Article IV on welding data. Key terms like essential variables, P-numbers, F-numbers, and A-numbers used for material grouping are also defined in the document.
This document provides an overview of piping systems and components. It discusses that piping is used to convey liquids, gases, or materials through a tubular system. Key piping components include pipes, fittings, flanges, valves, and strainers. Common piping materials include carbon steel, alloy steels, and stainless steels. The document also discusses piping design considerations like material selection, insulation, supports, flexibility analysis, and piping and instrumentation diagrams (P&IDs). Piping stress analysis is conducted to ensure stresses from pressures, temperatures, and other loads do not exceed design limits.
This document provides information about heat treatment of pressure vessels and various heat treatment processes. It discusses the effect of heat treatment on mechanical properties of metals and alloys. Various heat treatment processes like normalizing, annealing, stress relieving, solution annealing, hardening, tempering and aging are described. Parameters for heat treatment of different steel grades are listed. The document also covers thermocouples, recorders, furnace layout and calibration procedures for heat treatment furnaces.
This document provides an overview of piping fundamentals for fresher engineers. It discusses what a piping system is, components like pipes, fittings, valves, supports and insulation. It also covers piping layout, modeling software, stress analysis, sizing calculations considering flow rates, pressures and material selection based on fluid properties. Critical high pressure and temperature piping in power plants requires special design considerations for material selection and allowing for expansion.
Design & analysis of thick pressure vessels 1Sumit Dharmarao
The document discusses the design and analysis of thick pressure vessels using finite element analysis (FEA). It analyzes a thick-walled pressure vessel used in a nuclear plant using both analytical equations like Lame's equation and Clavarino's equation as well as FEA software ABAQUS. The FEA model uses an axisymmetric approach and finds stresses along the vessel wall. Results show good agreement between FEA and analytical solutions, demonstrating that FEA is an effective tool for optimizing thick pressure vessel design.
A gasket fills the space between mating surfaces to prevent leakage when under compression. Gasket material allows for less precise fits between machine parts by filling irregularities. Gaskets are commonly cut from sheet materials and can be non-metallic, semi-metallic, or metallic depending on the application and standards.
This document provides standards for piping design, layout, and stress analysis. It covers topics such as design and layout considerations including numbering systems, safety, clearance, pipe routing, valves, equipment piping, and stress analysis criteria. The standards are intended to replace individual company specifications and be used in existing and future offshore oil and gas developments. It references other NORSOK and international standards and does not cover all instrument control piping, risers, sanitary piping, or GRP piping.
This document provides an overview of key concepts in piping system design including:
1. It describes the basic components of a piping system including pipes, fittings, valves, instruments, supports, and discusses terminal connections and insulation.
2. It outlines the process of developing a piping system layout from defining flow requirements to creating piping and instrumentation diagrams (P&IDs) and 3D models.
3. It highlights important design considerations like accessibility, orientation, straight pipe lengths, drainage and ventilation.
The document provides an overview of the ASME B31.3 Process Piping Code. It discusses the code's philosophy, organization, history, scope, fluid service categories, and application. Key points include that B31.3 applies to process piping systems in chemical, petroleum, and other plants. It covers piping for various fluids and has specific requirements for Category M and high pressure fluid services. The code is organized into chapters that address design, materials, components, fabrication, inspection, and other topics.
This presentation will cover pipe support design, 3D modeling, Finite Element Analysis, special stress and thermal cases, along with the unique cases that brought on new pipe support designs. Increase your understanding of the value-added services that are offered by PT&P, and rest assured that your Engineering and Design needs can be covered by our 24x7 web-based emergency services, providing field service, and quick-turn around time when you need it most. We look forward to having you join us for this complimentary presentation on Engineering and Design of Pipe Supports.
Valves are mechanical devices that regulate fluid flow by stopping, starting, throttling, and directing fluid movement. The main components of a valve include the body, bonnet, stem, disc, seat, and actuator. Valves are classified by their function as on/off, regulating, or protective. Common industrial valves include ball, gate, globe, butterfly, check, and diaphragm valves. Selection depends on the fluid, pressure, temperature, flow characteristics, and other criteria. Valve standards are set by organizations like API, ASME, and ANSI.
This document discusses the selection of filler wires. It begins with an objective to learn about filler wires, ASME Section IX Table QW-422 for material grades and chemical compositions, and SFA numbers. It then introduces the differences between filler wires and electrodes, and the nomenclature used for filler wires. Examples are provided for selecting the correct filler wire based on the base metal, welding process, and referring to ASME standards. The conclusion emphasizes that filler wire selection depends on the welding process, base metal, joint type, and referencing ASME codes.
This document outlines the 8 steps to produce a Procedure Qualification Record (PQR) according to the ASME Section IX code. The steps are: 1) identify essential variables for the welding process, 2) add remaining essential variables from construction codes, 3) fill out the PQR format, 4) choose a qualified welder, 5) record welding parameters, 6) perform visual and mechanical tests, 7) record test results on the PQR, and 8) sign and date the completed PQR.
This document discusses different types of storage tanks used in refineries and chemical plants. It describes atmospheric storage tanks, which operate at approximately atmospheric pressure, including fixed-roof tanks, floating-roof tanks, and fixed-roof tanks with an internal floating roof. Low-temperature and low-pressure storage tanks are also discussed. Standards for storage tank design include API-650 for atmospheric tanks and API-620 for low-pressure tanks. Floating roof tanks are described as minimizing vapor losses by maintaining a small vapor space or eliminating it completely.
Presentacion asme seccion viii division 2 2013leo040490
This document outlines steps for developing a quality control system manual (QCSM) to meet ASME Section VIII Division 2 regulations for pressure vessel certification. The key steps include:
1. Applying to ASME and the National Board for certification.
2. Developing detailed design calculations, drawings, materials specifications, and fabrication and inspection procedures meeting code requirements.
3. Implementing the QCSM in the shop and warehouses, and distributing it to all relevant personnel, to ensure all code requirements are met during construction.
4. Scheduling audits by the Authorized Inspector to confirm readiness for joint review and certification.
Chemical process diagrams are used at three levels of detail - block flow diagrams (BFD), process flow diagrams (PFD), and piping and instrumentation diagrams (P&ID). The BFD provides a high-level overview, while the PFD includes all process details. The P&ID is the most detailed and is used for construction. It specifies piping, instrumentation, and control loops. Modern chemical engineers typically use virtual 3D models instead of physical scale models to design plants.
This document provides an overview of piping fundamentals, including definitions of pipes and piping systems. It discusses pipe and piping components like fittings, flanges, valves and how they are used. The document also covers piping design considerations such as material selection, sizing calculations, support structures and instrumentation. Key points include how to lay out a basic piping system connecting three tanks, the importance of piping drawings called P&IDs, and using 3D modeling software for physical piping design.
This document discusses stresses in pressure vessels. It describes how cylindrical pressure vessels experience circumferential, axial, and radial stresses. Thick cylinders have non-uniform stress distributions while thin cylinders have uniform stresses. Materials like carbon steel, stainless steel, and alloys are used in pressure vessels depending on factors like strength, corrosion resistance, cost and fabrication ease. Welded joints must meet ASME BPV Code standards. Failure analysis theories include maximum principal stress, maximum shear stress, and maximum strain energy.
This document does not provide any clear information that can be summarized in 3 sentences or less. The document contains only blank lines without any words, sentences, or meaningful content that could be abstracted and summarized.
This document provides standards and specifications for piping components used in process piping systems. It lists dimensional standards for piping components in Table 326.1 and specifies that components must meet pressure design and mechanical strength requirements. It also states that pressure-temperature ratings of listed components are accepted for design, while unlisted components must meet provisions for rating. Dimensional requirements in appendices must also be considered.
The document provides an introduction to Piping Material Specifications (PMS). It discusses that PMS gives details about all piping components, including material details, dimensions, connection types, applicable codes and standards. It is generated by the piping engineering team. PMS is used to define and specify piping components on piping and instrumentation diagrams. Each pipe class listed in the PMS includes material specifications, dimensions, ratings and other details for items like pipes, flanges, fittings and valves. New piping classes are developed in job-specific PMS documents based on project requirements.
The document provides an overview of process plant piping system design. It discusses key components of piping systems including pipe, fittings, flanges, gaskets, bolting, valves and supports. It describes design requirements according to the ASME B31.3 code and considerations for material selection such as strength, corrosion resistance, toughness and cost. Examples of stress analysis, flange rating determination and valve selection are also provided.
The document summarizes the key aspects of ASME Section IX (Ed. 2019), which contains requirements for welding procedure and performance qualifications. It discusses the history and timeline of ASME standards development. It also provides an overview of the various articles within ASME Section IX, including Article I on general welding requirements, Article II on welding procedure qualification, Article III on welding performance qualification, and Article IV on welding data. Key terms like essential variables, P-numbers, F-numbers, and A-numbers used for material grouping are also defined in the document.
This document provides an overview of piping systems and components. It discusses that piping is used to convey liquids, gases, or materials through a tubular system. Key piping components include pipes, fittings, flanges, valves, and strainers. Common piping materials include carbon steel, alloy steels, and stainless steels. The document also discusses piping design considerations like material selection, insulation, supports, flexibility analysis, and piping and instrumentation diagrams (P&IDs). Piping stress analysis is conducted to ensure stresses from pressures, temperatures, and other loads do not exceed design limits.
This document provides information about heat treatment of pressure vessels and various heat treatment processes. It discusses the effect of heat treatment on mechanical properties of metals and alloys. Various heat treatment processes like normalizing, annealing, stress relieving, solution annealing, hardening, tempering and aging are described. Parameters for heat treatment of different steel grades are listed. The document also covers thermocouples, recorders, furnace layout and calibration procedures for heat treatment furnaces.
This document provides an overview of piping fundamentals for fresher engineers. It discusses what a piping system is, components like pipes, fittings, valves, supports and insulation. It also covers piping layout, modeling software, stress analysis, sizing calculations considering flow rates, pressures and material selection based on fluid properties. Critical high pressure and temperature piping in power plants requires special design considerations for material selection and allowing for expansion.
Design & analysis of thick pressure vessels 1Sumit Dharmarao
The document discusses the design and analysis of thick pressure vessels using finite element analysis (FEA). It analyzes a thick-walled pressure vessel used in a nuclear plant using both analytical equations like Lame's equation and Clavarino's equation as well as FEA software ABAQUS. The FEA model uses an axisymmetric approach and finds stresses along the vessel wall. Results show good agreement between FEA and analytical solutions, demonstrating that FEA is an effective tool for optimizing thick pressure vessel design.
A gasket fills the space between mating surfaces to prevent leakage when under compression. Gasket material allows for less precise fits between machine parts by filling irregularities. Gaskets are commonly cut from sheet materials and can be non-metallic, semi-metallic, or metallic depending on the application and standards.
This document provides standards for piping design, layout, and stress analysis. It covers topics such as design and layout considerations including numbering systems, safety, clearance, pipe routing, valves, equipment piping, and stress analysis criteria. The standards are intended to replace individual company specifications and be used in existing and future offshore oil and gas developments. It references other NORSOK and international standards and does not cover all instrument control piping, risers, sanitary piping, or GRP piping.
This document provides an overview of key concepts in piping system design including:
1. It describes the basic components of a piping system including pipes, fittings, valves, instruments, supports, and discusses terminal connections and insulation.
2. It outlines the process of developing a piping system layout from defining flow requirements to creating piping and instrumentation diagrams (P&IDs) and 3D models.
3. It highlights important design considerations like accessibility, orientation, straight pipe lengths, drainage and ventilation.
The document provides an overview of the ASME B31.3 Process Piping Code. It discusses the code's philosophy, organization, history, scope, fluid service categories, and application. Key points include that B31.3 applies to process piping systems in chemical, petroleum, and other plants. It covers piping for various fluids and has specific requirements for Category M and high pressure fluid services. The code is organized into chapters that address design, materials, components, fabrication, inspection, and other topics.
This presentation will cover pipe support design, 3D modeling, Finite Element Analysis, special stress and thermal cases, along with the unique cases that brought on new pipe support designs. Increase your understanding of the value-added services that are offered by PT&P, and rest assured that your Engineering and Design needs can be covered by our 24x7 web-based emergency services, providing field service, and quick-turn around time when you need it most. We look forward to having you join us for this complimentary presentation on Engineering and Design of Pipe Supports.
Valves are mechanical devices that regulate fluid flow by stopping, starting, throttling, and directing fluid movement. The main components of a valve include the body, bonnet, stem, disc, seat, and actuator. Valves are classified by their function as on/off, regulating, or protective. Common industrial valves include ball, gate, globe, butterfly, check, and diaphragm valves. Selection depends on the fluid, pressure, temperature, flow characteristics, and other criteria. Valve standards are set by organizations like API, ASME, and ANSI.
This document discusses the selection of filler wires. It begins with an objective to learn about filler wires, ASME Section IX Table QW-422 for material grades and chemical compositions, and SFA numbers. It then introduces the differences between filler wires and electrodes, and the nomenclature used for filler wires. Examples are provided for selecting the correct filler wire based on the base metal, welding process, and referring to ASME standards. The conclusion emphasizes that filler wire selection depends on the welding process, base metal, joint type, and referencing ASME codes.
This document outlines the 8 steps to produce a Procedure Qualification Record (PQR) according to the ASME Section IX code. The steps are: 1) identify essential variables for the welding process, 2) add remaining essential variables from construction codes, 3) fill out the PQR format, 4) choose a qualified welder, 5) record welding parameters, 6) perform visual and mechanical tests, 7) record test results on the PQR, and 8) sign and date the completed PQR.
This document discusses different types of storage tanks used in refineries and chemical plants. It describes atmospheric storage tanks, which operate at approximately atmospheric pressure, including fixed-roof tanks, floating-roof tanks, and fixed-roof tanks with an internal floating roof. Low-temperature and low-pressure storage tanks are also discussed. Standards for storage tank design include API-650 for atmospheric tanks and API-620 for low-pressure tanks. Floating roof tanks are described as minimizing vapor losses by maintaining a small vapor space or eliminating it completely.
Presentacion asme seccion viii division 2 2013leo040490
This document outlines steps for developing a quality control system manual (QCSM) to meet ASME Section VIII Division 2 regulations for pressure vessel certification. The key steps include:
1. Applying to ASME and the National Board for certification.
2. Developing detailed design calculations, drawings, materials specifications, and fabrication and inspection procedures meeting code requirements.
3. Implementing the QCSM in the shop and warehouses, and distributing it to all relevant personnel, to ensure all code requirements are met during construction.
4. Scheduling audits by the Authorized Inspector to confirm readiness for joint review and certification.
Chemical process diagrams are used at three levels of detail - block flow diagrams (BFD), process flow diagrams (PFD), and piping and instrumentation diagrams (P&ID). The BFD provides a high-level overview, while the PFD includes all process details. The P&ID is the most detailed and is used for construction. It specifies piping, instrumentation, and control loops. Modern chemical engineers typically use virtual 3D models instead of physical scale models to design plants.
This document provides an overview of piping fundamentals, including definitions of pipes and piping systems. It discusses pipe and piping components like fittings, flanges, valves and how they are used. The document also covers piping design considerations such as material selection, sizing calculations, support structures and instrumentation. Key points include how to lay out a basic piping system connecting three tanks, the importance of piping drawings called P&IDs, and using 3D modeling software for physical piping design.
This document contains questions and answers related to piping instrumentation. It discusses topics like instrument categories, functions of instruments, uses of different valves like block valves and bleed valves, applications of control valves like ball valves and butterfly valves, installation of instruments like orifice plates and control stations, and measurement devices for levels, pressures, temperatures and flows. It also addresses pipe rack design considerations involving rack width, pipe spans, routing of lines, and insulation materials.
Basics of two phase flow (gas-liquid) line sizingVikram Sharma
This document discusses two-phase flow line sizing for liquid-gas flows in piping systems. It describes the different flow regimes that can occur using Baker's flow regime map. The key steps outlined are: 1) determining the flow regime based on fluid properties and flow rates, 2) calculating pressure drops for the liquid and gas phases separately using correlations, 3) using a multiplier to determine the two-phase pressure drop based on the flow regime, and 4) summing pressure drops from friction, elevation changes, and fittings to obtain the total pressure drop. Care must be taken to size each pipe segment separately as properties and regimes can change along the line.
The document discusses various topics related to hydronic system design including:
- Common hydronic system types like primary-secondary and variable flow systems
- Key considerations for piping design like pump sizing, pressure drops, and expansion tank placement
- Examples of specific system designs for chilled water, boiler water, and complex multi-building systems
- Benefits of variable speed pumps for energy efficiency and system controllability
The document provides an overview of fundamentals of process plant design including goals, plant design workflow, process departments and their roles, process flow diagrams, piping and instrumentation diagrams, and common diagram symbols. It discusses key stages in plant design from concept selection through detailed engineering design. It also covers topics like plot plan development, piping studies, piping fundamentals, standards, specifications, fittings, flanges and more. The document serves as an introduction to process plant design concepts and terminology.
Titan Flow Controls Series CV-50 Check ValvePatrick Bryant
Titan Flow Control, Inc. is a full line manufacturer of high quality check valves, butterfly valves, pipeline strainer, pump products and fabricated designs.
In-line check valves
Silent check valves
Wafer type check valves
Globe type check valves
Single disc check valves
Reslient seated butterfly valves
Ball valves
Y and T strainers
Basket strainers
Suction diffusers
Foot valves
Fabricated products
This document provides an overview of various butterfly and rotary process valves from Tyco Flow Control. It describes several valve designs including resilient seated butterfly valves, general purpose valves, commercial construction valves, large diameter valves, high performance butterfly valves, and triple offset metal seated bi-directional zero leakage valves. It also summarizes pneumatic actuators from Morin and Keystone including their materials, output torques, and pressure ratings.
Worcester Controls Industrial Valve and Actuator Catalog 2018Ives Equipment
Catalog for Flowserve Worcester Control industrial ball valves, pneumatic actuators and electric actuators, courtesy of Ives Equipment. Threaded, flanged, socket weld, cryogenic, Navy Approved,
Jordan MK75PTP Sliding Gate Control ValveSwanson Flo
The Jordan Mark 75PTP is a Mark 75 wafer style control valve with an 80mm (1" - 2") Stainless Steel Piston Actuator. The Gemu cPOS Smart Positioner is standard and required for control applications. For on/off service, the valve may supplied without a positioner. JVCV Should be used for sizing selection.
Capital rubber-flexible-metal-hose-catalogAndiFikri13
Capital Rubber has been helping customers solve their metal hose requirements since 1975. They are committed to working with customers to fabricate the right product for their applications and meet quality expectations. Capital Rubber prides itself on its flexibility and ability to create innovative programs to help customers succeed. The document provides information on Capital Rubber's metal hose solutions and fittings options, as well as pressure ratings for various hose types.
Exporters of Temper Proof Air Release Valve, Kinetic Air Release Valve m, Three Piece Ball Valve, Two Piece Ball Valve, Double Flange Butterfly Valve, Water Type Butterfly Valve, Duel Plate Check Valve, Water Type Duel Plate Check Valve, a wide range of Industrial Valves. Our products are widely appreciated by the clients for their durability, resistance to corrosion and dimensional accuracy.
The document provides information on various piping components including elbows, return bends, tees, reducers, end caps, crosses, nipples, manifolds, headers and lap joint stub ends. It includes dimensional specifications and example weights based on ASME B16.9 and B16.28 standards for various pipe sizes ranging from 1/2" to 12" nominal bore. Chemical and tensile requirements are also listed for materials including duplex, super duplex, nickel alloys and titanium.
Best Quality kitz valves distributors In Mumbaiconcordevalves
This document is a catalog from Kitz Valves listing their various valve products. Kitz Valves is a leading manufacturer of valves and other fluid control devices, producing products for applications ranging from homes to industrial processes. The catalog provides an overview of Kitz's extensive product lineup and materials including ball valves, actuated valves, butterfly valves, and more made from carbon steel, stainless steel, ductile iron, cast iron, bronze, and brass. It also lists their major production locations around the world.
International Standard Valve, Inc. manufactures forged construction trunnion mounted ball valves in sizes 2" through 56" for ASME Class 150-2500 pressure ratings. The document provides details on ISV's quality systems, pressure testing procedures, material specifications, design standards, and production capabilities for their Series BT3EU, BT3E, and BT3G ball valve models.
The document provides information on products manufactured by Keddco including swage nipples, bull plugs, and other oil country tubular goods. It lists available sizes and materials for each product, as well as specifications for threading, coatings, weld bevels, and markings. Standard, extra heavy, schedule 160, and double extra heavy weights are shown for swage nipples from 1/8" to 300" in size.
Atomac valves provide bubble-tight shutoff, low maintenance, no-leak stem seals and the safety assurance of a blowout-proof stem assembly. LIned ball valves deliver high levels of corrosion resistance.
The document is a price list from Flomatic Corporation that highlights several new products, including:
1) Model 80E-VFD check valves designed for use with variable frequency drive pumps to minimize flow losses and hydraulic shocks.
2) Model 888S6/888S6R stainless steel wafer style check valves available in 2"-8" sizes.
3) Model 82DI-VFD check valves with male x male threads for connecting pumps to pipes in 2 1/2", 4", and 5" sizes.
The document provides specifications for various pipe fittings and flanges including malleable fittings, black and galvanized steel fittings, unions, and stainless steel fittings. It includes information on materials, dimensions, threading, finishes, pressure ratings and stock ranges for items like elbows, tees, caps and flanges. Standard carbon steel flanges are covered along with temperature and pressure ratings for carbon and alloy steel flanges per Australian standards.
Lined Ball Valves Provide Corrosion ProtectionCTi Controltech
The document provides information on various lined ball valves and related products from Atomac/Flowserve including:
- AKH3 standard port and AKH2A full port lined ball valves that provide bubble-tight shutoff and low maintenance stem seals.
- V-port control valves and actuation options for precise throttling of corrosive media.
- Three-way AMP3 lined ball valves for corrosive diverter applications.
- Ceramic lined AKH5 valves for abrasive slurries and high temperature corrosives.
- Sampling valves, sight glasses, and check valves with corrosion resistant fluoropolymer linings for visual inspection and flow control of toxic chemicals
This document provides an overview of various valve and instrumentation products available from Apache Pressure Products including:
- Ball valves in carbon steel, stainless steel, and brass in various pressure classes from 1,000-6,000 WOG
- Check valves, gate valves, needle valves, tube fittings, unions, plug valves and other pipe fittings
- Instrumentations such as pressure gauges, thermometers, and thermowells
- Terms for pricing, payment, quotations, delivery, warranties, and cancellations/changes are also outlined.
Similar to Piping and Pipeline Accessories - Titan Flow Control, Inc. (20)
Controls and regula- tors for ideal temperature, pressure and flow control; steam traps for efficient drainage of condensate for maximum heat transfer; flowmeters for precise mea- surement of liquids; liquid drain traps for automatic and continuous drain trap operation to boost system efficiency; rotary filters for increased productivity through proper filtering of fluids; condensate recovery pumps for effective condensate management to save water and sewage costs; stainless steel specialty products for maintaining quality and purity of steam; and a full range of pipeline auxiliaries, all work together to produce a productive steam system. Spirax Sarco’s new line of engineered equipment reduces installation costs with prefabricated assemblies and fabricated modules for system integrity and turnkey advantages.
Mining applications can be hard on the equipment. Abrasive, corrosive, erosive — all those conditions apply in varying proportions. So it can come as a relief to know that FluoroSeal® Non-Lubricated Plug Valves, both Sleeved and Lined, can handle even the hardest of condition combinations, in a variety of mining operations.
Roth regenerative turbine chemical duty pumps provide continuous, high pressure pumping of non-lubricating and corrosive liquids. These regenerative turbine pumps are provided with one piece, machined self-centering impellers for operation with a wide variety of chemicals .
Custom Control Sensors, Inc. (CCS) is a global leader in the design,
testing, manufacturing and supply of pressure, temperature and liquid
flow switches for the Industrial, Energy, Aerospace and Defense markets.
Founded in 1958, CCS revolutionized the industrial pressure switch
market by utilizing its patented Dual-Snap® disc spring technology.
Spirax Sarco, leader in products and services for steam system management, released the PV4 and PV6 piston valves for isolation purposes. The valves are available in NPT and SW versions, from ½” to 2”. Bodies are available in forged carbon steel or forged stainless steel.
These valves are designed to Class 800 and provide tight shutoff, suitable for steam, condensate and other liquid systems.
The TeleSensor is an external liquid level transmitter that uses a force balance principle to measure liquid levels in tanks. It has a flange that mounts to the outside of tanks and a diaphragm that senses the hydrostatic pressure from the liquid height. This pressure is converted to a proportional 4-20 mA electrical or pneumatic output signal. It can interface with indicators or controllers to monitor levels remotely. The system is largely unaffected by temperature and immune to drift, making it suitable for applications requiring accurate and reliable level measurement.
Roth Pump standard steam condensate pump stations are the most popular and meet most water applications. These units will deliver hot water at temperatures up to 200˚F (93˚C) and will not vapor bind at 210˚F (98˚C). Receiver capacities from 8 (30 liters) to 50 gallons (189 liters) can be supplied on these standard condensate pump units.
Eliminate cavitation at high temperatures. Manage a higher load during cold starts. Dependable pumps to handle hotter water. Higher pressure at lower motor speeds. No mechanical seals below water line.
Pneumatic Products BAP desiccant dryer purifiers are designed to provide a continuous supply of clean, safe breathing air from your existing compressed air system.
The ISV product line includes valve sizes ranging form 1/4" to 56" in pressure classes through 2500 and up to 10,000 psig working pressures with a large selection of body materials and trims.
Pipeline, Oil & Gas Service Ball Valves
API 6D and API 608, API 607 Firesafe with NACE compliance
2 & 3 piece trunion mounted ball valves
2 & 3 piece floating ball valves
Industrial Floating Ball Valves
API 608 / ASME B16.34, API 607 Firesafe with NACE compliance
2 & 3 piece flanged, SW, BW and NPT
Uni-body NPT
2 & 3 piece NPT industrial valves
Spirax Sarco provides knowledge, service, products and turnkey solutions for the control and efficient use of steam, air and other industrial fluids for industrial and commercial users.
Steam Traps - All types and sizes including repair kits
Regulators - Pressure, temperature, back pressure and relief
Condensate - Pumps Electric and steam driven
Control Systems - Valves and actuators
Steam thermocompressors utilize a flow of high pressure steam to boost the pressure of a stream of low pressure steam. The purpose can be to either recycle the low pressure steam with the added heat, or to create a usable steam supply from a low pressure steam source.
Monitrol is a turn-key fluid control system including a globe style control valve, a variety of built in sensors for Flow, Pressure and Temperature, a High Precision Electric Actuator, along with controller and an easy to use Touch Screen interface. Monitrol can manage up to three variables (sensors), simultaneously with its control logic. Flexibility allows the control logic in Monitrol to be bypassed if that is desired. A Building Management System can still maintain all control and just make use of the sensor information if that is desired. A full range of I/O signals, feedback and modbus TCP communications are standard.
Hytork® develops and manufacturers actuators for the automation of industrial valves. Product range includes pneumatic actuators and a wide range of control accessories. Product development is based on modular construction that allows for fast delivery from stock components and easy upgrade to control units as well as quick and efficient modification and repair.
SPX Flow, under the Pneumatic Products brand, manufactures single and twin tower desiccant dryers designed to remove water vapor from natural gas. The skid mounted units also include particulate and coalescing filters that capture solid contaminants to a submicron level.
The Spirax Sarco Direct Operated Temperature Regulators are for use on steam and liquid applications. The regulators give stable, modulating control within close tolerances. On storage and constant load applications they will control at set value. On variable load applications they will normally operate within
a very narrow temperature band.
This document contains technical data sheets for Emerson's Hytork XL Series pneumatic rack and pinion actuators. It provides torque data for various actuator models in the XL26 to XL4581 range, specifying the torque generated from springs or at different air pressures from 40 to 120 PSI. Contact information is given for Emerson's Actuation Technologies Centers in Americas, Europe and Asia Pacific.
The document discusses closed-loop cooling systems and recommends a cooling tower plus plate heat exchanger system. This system provides a closed cooling circuit while using less energy than traditional closed-circuit cooling towers. It costs less to purchase and operate due to using less total HP. The heat exchanger plates are stainless steel and more accessible than the coil in traditional towers, making maintenance and cleaning easier. The system prevents downtime from corrosion and has a longer warranty.
Three piece body valves area multi-purpose ball valves. They tend to be used in more demanding applications where maintenance will be required on a more frequent basis than 2 piece valves. The 3 piece body's center section can be removed to allow the valve end caps to be welded without the possibility of damaging the valve seats. Any combination of end connections can be supplied to meet your custom requirements.
This document summarizes the Warren Controls ILEA series of industrial linear electric actuators. It describes the small, medium, and large frame sizes available, with thrust forces ranging from 450 to 5,600 pounds. The actuators can withstand temperatures up to 158 degrees Fahrenheit and have IP65 and IP67 enclosure ratings. The document provides specifications for the ILEA-F small frame and ILEA-A/B medium frame actuators.
Because of their structural design, trunnion mount ball valves are suitable for all pressure ranges and sizes.They are used by many manufacturers as a basis of design for their severe service ball valve offerings. A trunnion mount ball valve can also be advantageous for applications employing valve automation. Since the ball is not held in place by a tight fitting seal arrangement, operating torque tends to be lower for comparably sized trunnion valves, when compared to floating ball valves.
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Piping and Pipeline Accessories - Titan Flow Control, Inc.
1. TITAN
TITAN FLOW CONTROL
TITAN FLOW CONTROL, INC.
contact
information
Titan Flow Control, Inc.
290 Corporate Drive
Lumberton, NC 28358
T: 910.735.0000
F: 910.738.3848
titan@titanfci.com
Your Pipeline
to the Future!
Visit us online at: www.titanfci.com
product
lines
• Y Strainers
• Basket Strainers
• Duplex Strainers
• Fabricated Products
• Specialty Products
• Pump Protection
• CheckValves
• ButterflyValves
• BallValves
2.
3. TITAN
TITAN FLOW CONTROL
290 CORPORATE DRIVE
LUMBERTON, NC 28358
WWW.TITANFCI.COM
TITAN@TITANFCI.COM
910.735.0000 TEL
910.738.3848 FAX
Titan Flow Control is a high quality manufacturer of Check
Valves, Butterfly Valves, Pipeline Strainers, Pump Products,
Fabricated Designs, and Pipeline accessories applicable to most
industrial and commercial requirements. Titan Flow Control
was established in the year 2000 by industry veterans with
over 300 years of combined experience. We are located in the
southeastern part of North Carolina and currently occupy over
70,000 ft2
of office, warehouse, and manufacturing space.
• “Y” STRAINERS
• BASKET STRAINERS
• DUPLEX STRAINERS
• STRAINING ELEMENTS
• FRP STRAINERS
• TEMPORARY STRAINERS
• FABRICATED STRAINERS
• “T” STRAINERS
• IN-LINE CHECK VALVES
• SILENT CHECK VALVES
• WAFER TYPE CHECK VALVES
• GLOBE TYPE CHECK VALVES
• SINGLE DISC CHECK VALVES
• DUAL DISC CHECK VALVES
• BALL VALVES
• BUTTERFLY VALVES
• SUCTION DIFFUSERS
• TRI-FLOW VALVES
• FOOT VALVES
• AUTOMATIC STRAINERS
• AND MUCH MORE...
TELEPHONE: 910.735.0000
GO
WITH
THE
FLOW!
TITAN FLOW CONTROL, INC.
YOUR PIPELINE TO THE FUTURE!
PRODUCT GUIDE
PG-0713 / Page 1
4. TITAN FLOW CONTROL, INC.
“Y” Type Strainers
910.735.0000 TEL 910.738.3848 FAX TITAN@TITANFCI.COM WWW.TITANFCI.COM
Cast Iron
YS 12-CI
Class 250
Threaded
Sizes: 1
/
4
~ 3"
YS 58-CI
Class 125
Flanged
Sizes: 2 ~ 24"
Bronze & Brass
Carbon & Stainless Steel
YS 52-AB
Class 250
Threaded
Sizes: 1
/
4
~ 3"
YS 54-AB
Class 150
Flanged
Sizes: 2 ~ 12"
Need a strainer?
...It's a no-brainer!
We routinely stock:
• Sizes 1/4” through 24”
• Pressure Classes 125 ~ 2500
• Standard materials
• Exotic materials
• All end connections
If we don’t have it - we’ll help you find it!
YS 81-CS
YS 81-SS
Class 600
Threaded
Sizes: 1
/
4
~ 3"
YS 82-CS
YS 82-SS
Class 600
Socket Weld
Sizes: 1
/
4
~ 3"
YS 63-CS
YS 63-SS
Class 300
Butt Weld
Sizes: 1
/
2
~ 12"
YS 65-CS
YS 65-SS
Class 600
Butt Weld
Sizes: 1
/
2
~ 12"
YS 83-CS
YS 83-SS
Class 1500
Threaded
Sizes: 1
/
2
~ 3"
YS 84-CS
YS 84-SS
Class 1500
Socket Weld
Sizes: 1
/
2
~ 3"
YS 61-CS
YS 61-SS
Class 150
Flanged
Sizes: 1
/
2
~ 24"
YS 62-CS
YS 62-SS
Class 300
Flanged
Sizes: 1
/
2
~ 12"
YS 64-CS
YS 64-SS
Class 600
Flanged
Sizes: 1
/
2
~ 12"
YS 68-CS
YS 68-SS
Class 1500
Flanged
Sizes: 2 ~ 8"
YS 69-CS
YS 69-SS
Class 1500
Butt Weld
Sizes: 2 ~ 8"
YS 70-CS
YS 70-SS
Class 2500
Flanged
Sizes: 2 ~ 8"
YS 71-CS
YS 71-SS
Class 2500
Butt Weld
Sizes: 1 1
/
2
~ 10"
H
igh
P
ressure
M
o
dels
A
vailable
Page2/PG-0715
YS 59-CI
Class 250
Flanged
Sizes: 2 ~ 12"
A
vailable
in
A
dditional
M
aterials
YS 56-BR
YS 56-BZ
Class 125
Solder
Sizes: 1
/
4
~ 3"
YS 55-BR
YS 55-BZ
Class 125
Threaded
Sizes: 1
/
4
~ 3"
* Bolted Cover is standard on sizes 2 1
/2
"
and 3" and is optional on size 2".
A
vailable
in
W
C
6
A
lloy
20
316L
Lead Free!*
(See note on the
following page)
5. Page3/PG-0715
910.735.0000 TEL 910.738.3848 FAX TITAN@TITANFCI.COM WWW.TITANFCI.COM
TITAN FLOW CONTROL, INC.
Basket Strainers (Simplex)
BS 25-CI
Class 125
Threaded
Quick-Open Cover
Sizes: 3
/
8
~ 3"
BS 35-CS
BS 35-SS
Class 150/300
Threaded
Sizes: 3
/
8
~ 3"
BS 55-CI
Class 125
Flanged
Clamp Cover
Sizes: 2 ~ 12"
BS 85-CS
BS 85-SS
Class 150
Flanged
Sizes: 2 ~ 12"
Cast Iron
BS 25F-CI
Class 125
Flanged
Quick-Open Cover
Sizes: 1 ~ 8"
BS 65-CI
Class 125
Flanged
Bolted Cover
Sizes: 2 ~ 12"
Carbon & Stainless Steel
A
vailable
w
ith
bolted
and
clam
ped
cover
Optional Cover Designs
Most Basket Strainer models can be
constructed with various cover designs
including bolted, clamped, and hinged.
BS 86-CS
BS 86-SS
Class 300
Flanged
Sizes: 2 ~ 12"
BS 85-CS
Full Rated -
Clamped Cover
Sizes: 2 ~ 12"
BS 55-FRP
Class 150
Flanged
Sizes: 4 ~ 20"
Fiberglass & Aluminum Bronze
A
vailable
w
ith
bolted
and
clam
ped
cover
BS 25-CI
Quick-Opening -
Knob Type Cover
Sizes: 3
/
8
~ 3"
BS 95-AB
Class 150
Flanged
Sizes: 2 ~ 12"
BS 35F-CS
BS 35F-SS
Class 150
Flanged
Sizes: 1 ~ 8"
The YS52-AB, YS54-AB, BS55-
FRP, & BS95-AB, meet the
requirements for Lead Free
use in potable water systems.
The lead content in the wetted
surfaces of these products is
0.25% or less as determined
by a weighted average. For
more information on lead free
requirements, contact Titan
Flow Control, Inc.
*
Lead Free!*
6. TITAN FLOW CONTROL, INC.
Duplex Strainers
Tri-Flow Valve
TF 21-CI
Class 125
Flanged
Cast Iron
Sizes: 2 ~ 20"
Suction Diffuser
SD 22-CI
Class 125
Flanged
Cast Iron
Sizes: 2 x 1 1
/
4
~ 18 x 18"
Foot Valves
Check Valve Models
CV 80-SS and CV 20-BZ can also
be designed as Foot Valves
BV 25-SS
Male x Female
3000 WOG
Full Port Sizes: 1
/
4 ~ 1 1
/
2"
Reduced Port Size: 2”
BV 60-BZ
600 WOG
Male x Female
Full Port Design
Sizes: 1
/
4
~ 2"
910.735.0000 TEL 910.738.3848 FAX TITAN@TITANFCI.COM WWW.TITANFCI.COM
Page4/PG-0715
Blow-off Valves
BallValves can be professionally
installed as Blow-off Valves
at our factory before shipping.
Foot Valve
FV 50-DI
Class 150
Flanged
Ductile Iron
Sizes: 2 ~ 12"
Pump Products Ball Valves
Cast Iron
DS 595-CI
Class 125
Threaded
Cast Iron
Sizes: 3/4 ~ 2 1
/
2
"
DS 695-CI
Class 125
Flanged
Cast Iron
Sizes: 1 ~ 4"
Stainless & Carbon Steel
DS 596-CS
DS 596-SS
Class 150
Threaded
Carbon Steel
Stainless Steel
Sizes: 3/4 ~ 2 1
/
2
"
DS 696-CS
DS 696-CS
Class 150
Flanged
Carbon Steel
Stainless Steel
Sizes: 1 ~ 4"
Aluminum Bronze
DS 596-AB
Class 150
Threaded
Aluminum
Bronze
Sizes: 3/4 ~ 2 1
/
2
"
DS 696-AB
Class 150
Flanged
Aluminum
Bronze
Sizes: 1 ~ 4"
7. TITAN FLOW CONTROL, INC.
Check Valves
Center Guided
Single & Dual Disc
CV 31-DI
Class 150
Wafer - Swing Type
Ductile Iron
Sizes: 2 ~ 12"
CV 50-DI
Class 150
Flanged - Globe Style
Ductile Iron
Sizes: 2 ~ 36"
CV 20-BR
400 WOG
Threaded / In-Line
Brass
Sizes: 1
/
4
~ 2"
CV 80-SS
Class 300
Threaded / In-Line
Stainless Steel
Sizes: 3
/
8
~ 3"
CV 12-CS / CV 12-SS
Class 150
Short Pattern - Wafer Type
Carbon & Stainless Steel
Sizes: 2 ~ 24"
CV 42-CS / CV 42-SS
Class 150/300
Wafer - Dual Disc
Carbon & Stainless Steel
Sizes: 2 ~ 48"
CV 44-CS / CV 44-SS
Class 300
Wafer - Dual Disc
Carbon & Stainless Steel
Sizes: 2 ~ 48"
910.735.0000 TEL 910.738.3848 FAX TITAN@TITANFCI.COM WWW.TITANFCI.COM
Page5/PG-0715
CV 90-DI
Class 150/300
Wafer Type - Silent
Ductile Iron
Sizes: 2 ~ 12"
A
vailable
w
ith
soft
and
m
etal
seats
CV 32-CS / CV 32-SS
Class 150
Wafer - Swing Type
Carbon & Stainless Steel
Sizes: 2 ~ 12"
CV 41-DI
Class 150
Wafer - Dual Disc
Ductile Iron
Sizes: 2 ~ 48"
CV 46-CS / CV 46-SS
CV 47-CS / CV 47-SS
Class 600 & 900
Wafer - Dual Disc
Carbon & Stainless Steel
Sizes: 2 ~ 48"
CV 51-CS / CV 51-SS
Class 150
Flanged - Globe Style
Carbon & Stainless Steel
Sizes: 2 ~ 36"
A
vailable
w
ith
soft
and
m
etal
seats
A
vailable
w
ith
soft
and
m
etal
seats
CV 52-DI
CV 52-CS / CV 52-SS
Class 300
Flanged - Globe Style
Ductile Iron, Carbon & Stainless
Sizes: 2 ~ 36"
A
vailable
w
ith
soft
and
m
etal
seats
CV 91-SS
Class 150/300
Wafer Type - Silent
Stainless Steel
Sizes: 2 ~ 12"
A
vailable
w
ith
soft
and
m
etal
seats
Titan's Check Valves have either
Stainless Steel or Aluminum Bronze
trim to meet the requirements for
Lead Free use in potable water
systems. The lead content of the
wetted surfaces of Titan's iron and
steel check valve models is 0.25%
or less as determined by a weighted
average. For more information on
lead free requirements, contact
Titan Flow Control, Inc.
*
Lead Free*
Trim on Titan
Check Valves
8. Cast & Ductile Iron
BF 75-CI
200 PSI
Wafer Type
Cast Iron
Sizes: 2 ~ 48"
BF 76-DI
200 PSI
Lug Type
Ductile Iron
Sizes: 2 ~ 48"
TITAN FLOW CONTROL, INC.
Butterfly Valves & Actuation
Page6/PG-0715
Universal Mounting Flange
The cast-in actuator flange is universally designed in
accordance with ISO 5211 standard dimensions. The
mounting flange can accommodate all types of operators
such as: 10-position handle kits, gear operators, electric
actuators, and pneumatic actuators.
For actuators,Titan FCI may provide both direct mount
and bracket mount designs. Please contact Titan FCI about
your specific automation requirements.
Butterfly Valve Features:
• Seat is Phenolic Backed Cartridge
• Sizes 2" through 12" in Stock
• Valve Bodies are Epoxy Painted
• Rated for 200 psi Bidirectional Service
• Extended Neck provides 2" of Piping Clearance
• Alignment Holes for easy Installation
• Designed in Accordance with ASME/ANSI Class 125/150
• When ordered with Aluminum Bronze discs,Titan ButterflyValves meet
the requirements for Lead Free use in potable water systems. The lead
content in the wetted surfaces of Titan ButterflyValves with AB discs is
0.25% or less as determined by a weighted average. For more information
on lead free requirements, contact Titan Flow Control, Inc.
Mounting Options
ButterflyValves are available with 10-position,
actuator, gear box, and chain wheel mounting.
Stem Extensions are also available.
Chain Wheel Gear Box
Electric
Actuator Mounting
Pneumatic
Actuator Mounting
ButterflyValve Actuation
Titan FCI offers a complete line of Pneumatic
Actuators and Electric Actuators.
Actuator Accessories:
• Three and Four-Way Direct Mount
SolenoidValves
• Pneumatic & Electro-Pneumatic Positioners
• Limit Switches
• Speed Controls
• Manual Override
• Lock Out Devices
• 4-20 MA and 3-15 PSI
Pneumatic Actuator
with Travel Indicator
Electric Actuator
for Sizes 3" & Smaller
Electric Actuator
for Sizes 4" & Larger
910.735.0000 TEL 910.738.3848 FAX TITAN@TITANFCI.COM WWW.TITANFCI.COM
Lead Free*
Butterfly Valve DiscsAvailable!
9. TITAN FLOW CONTROL, INC.
Fabricated Products
Fabricated Products
Fabricated “Y” Strainer
Titan FCI has the capability of designing and fabricating a variety of products
to your exact specifications. Our fabricated products include:
• “Y” Strainers • Basket Strainers • Temporary Strainers • Plate Strainers • “T” Strainers
• Duplex Strainers • Orifice Plates • Spectacle Flanges • Single Blinds • Ring Spacers
• Steam Jacketed Strainers
• Fiberglass Reinforced Plastic Strainers
• And much more ....
Fabricated Basket Strainer Fabricated Duplex Strainer
Please contact the factory directly for
any special projects or applications you
may require.
Replacement Screens & Baskets
910.735.0000 TEL 910.738.3848 FAX TITAN@TITANFCI.COM WWW.TITANFCI.COM
Page7/PG-0715
Titan FCI can manufacture straining elements for all types of strainers including:
• "Y" Strainers • "T" Strainers • Basket Strainers • Duplex Strainers
Titan FCI can manufacture straining elements in a wide variety of perforations,
meshes, and materials (Type 304,Type 316,Alloy 20, Monel).
Perforated Screen Wire Mesh with
Perforated Backing
Wire Mesh
Temporary Strainers
Titan FCI can also manufacture
Temporary / Conical Strainers.
Temporary Strainer
'Pilgrim's Hat' Type
Temporary Strainer
'Witch's Hat' Type
We can also provide replacement screens and baskets for our competitor's strainers.
Just send us your prints, samples, or simply give us your requirements and let us design
a straining element that is right for your application. In most cases, straining elements
can be ordered by referencing Titan FCI's or any other manufacturers' strainer model
number.
10. Titan Flow Control, Inc. manufactures a complete line of very high quality pipeline strainers, double disc check valves, globe type
silent check valves, and soft seated butterfly valves. Our product offerings include both a high quality import line as well as units
crafted to meet full domestic requirements whenever needed.
Our management team has been designing and manufacturing industrial strainers for over 30 years. We have the ability to custom
design units to conform to even the most complicated piping configurations imaginable. Our screen fabrication shop can quickly
provide special screens in a wide selection of both perforated and wire mesh materials in sizes ranging from 20 through 500 mesh.
We offer products fabricated from numerous alloys including bronze, ductile and cast iron, carbon steel, stainless steel, monel, alloy
20, nickel and hastelloy, as well as many others.
EveryTitan unit is fabricated with premium components from certified vendors. The components that go into making aTitan FCI
valve must conform toTitan’s rigid standards. To test for meeting conformity, on arrival, every component is subjected to and must
pass multiple, rigorous quality inspection procedures. Every casting carries a foundry heat number for immediate identification and
for subsequent traceability. All parts are precision machined on the newest and most modern numerical control machinery - all
manufactured in strict adherence to internationally recognized standards and specifications, including ANSI/ASME/API/NACE and
ISO. All products manufactured byTitan FCI are 100% hydrostatically tested in accordance with applicableANSI,API,MSS standards
and customer specifications.
Titan FCI is proud to have earned one of the highest quality/price ratios of any reputable strainer/valve company in the world.
You will find the most impressive fact about aTitan FCI product is the product itself. Titan will be more than pleased to provide you
with a sample of any product you request.
Martin Gibbons
President
Titan Flow Control, Inc.
A Letter from our President
TITAN
TITAN FLOW CONTROL
Titan FCI's new manufacturing facility - right off of Interstate 95, Exit 17.
PG-0715 / Page 8
290 CORPORATE DRIVE
LUMBERTON, NC 28358
WWW.TITANFCI.COM
TITAN@TITANFCI.COM
910.735.0000 TEL
910.738.3848 FAX
If you need help contacting a
Titan Sales Representative,
call Titan FCI at (910)735-0000.
Your Titan Flow Control
Sales Representative:
11. YourPipelineToTheFuture!
Titan Flow Control, Inc ®
TITAN
Tel: 910-735-0000 f Fax: 910-738-3848 f titan@titanfci.com f www.titanfci.com
290 Corporate Drive f PO Box 7408 f Lumberton, NC 28358
®
TITAN
TITAN FLOW CONTROL, INC.
Replacement Screens and Baskets
Titan Flow Control, Inc
Cylindrical Screen, Style 'A' Slanted Type Basket, Style 'B' Basket Type, Style 'C'
SBR-0910
Replacements for Any Major Competitor's Model Strainer
Titan FCI can manufacture replacements, for not only Titan strainers, but for other companies' strainers as well!
In many cases, all Titan needs is the model number, size, and perforation. We can also provide a blank specification
sheet, Titan Straining Element Design Specification, to help identify the exact design and dimensional data
required. These sheets are conveniently available online at www.titanfci.com or by calling (910) 735-0000. Titan
makes it easy to order the straining element you need!
For more information on screen and basket selection, see Titan's Screen and Basket Selection Guide
available at www.titanfci.com or in the Technical Data Section of the catalog.
Titan Flow Control, Inc. proudly
manufactures its baskets and
screens at its own facility in
Lumberton, NC.
From cutting the perforation to
welding on a handle, Titan's
highly experienced staff
creates each screen and basket with care and
precision. Once completed, all screens and
baskets are then inspected based on their
design requirements before being shipped to
the customer.
Because Titan manufactures replacement
baskets and screens in-house, Titan is able to
provide them to its customers at a low cost AND
at the highest quality. Additionally, Titan's in-
house manufacturing ensures that a variety of
options are available upon demand, including
a wide selection of specialty perforations and
meshes, dutchweave meshes, magnetic screen
assemblies, drilled or wedgewire screens,
pleated straining elements, and much more.
Made in Lumberton, NC
High Quality, American-Made Screens and Baskets
Titan FCI manufactures special screens and
baskets for extreme pipeline conditions.
Pictured above are screens made of
wedgewire straining material which
provides great strength and durability while
maintaining a large open-area ratio.
Titan FCI's factory is capable of fulfilling all
sizes of screen and basket orders. No order
is too large - in size or in quantity! Titan
prides itself in its ability to provide for each
customer's individual needs.
Titan for wedgewire & special materials
Titan for large quantities
Titan for large baskets and screens
12. SBR-0910
Titan Flow Control, Inc ®
TITAN
Tel: 910-735-0000 f Fax: 910-738-3848 f titan@titanfci.com f www.titanfci.com
290 Corporate Drive f PO Box 7408 f Lumberton, NC 28358
®
TITAN
TITAN FLOW CONTROL, INC.
Replacement Screens and Baskets
Titan Flow Control, Inc
Your Pipeline To The Future!
Extensive Inventory of Pre-Made Screens and Baskets
Titan FCI keeps thousands of manufactured screens and baskets in stock!
By maintaining an inventory of the most common screen and basket sizes in
standard perforations, Titan is able to meet the high demand for replacements
as they are needed. Not only does this allow Titan to ship the standard screens
and baskets right away, it also allows Titan's screen department to concentrate
on unique or large orders and to prepare them quickly as well.
Wide Variety of Perforations and Meshes in Stock
Titan stocks many standard and non-standard perforations and meshes so that
the raw sheet materials are available when a basket or strainer is ordered.
Consult a Titan sales representative to determine the opening size and material
necessary for each application. More information is included in Titan's Screen
and Basket Selection Guide in the Technical Section of the catalog and online
at www.titanfci.com.
Next Day Replacement Baskets and Screens Available
Titan can ship out many orders next day (or possibly same day!). Because
many replacement screens and baskets are pre-made, Titan can offer next
day services for most of Titan's wye, basket, and duplex strainer models with
standard screens and baskets. Titan is often capable of shipping screens
and baskets in 4 to 6 HOURS while most competitors quote replacement lead
times of 4 to 6 weeks! Call a Titan sales representative to check availability
and delivery for your next replacement screen or basket requirement!
Knowledgeable sales and engineering staff
Customer service is a priority at Titan Flow Control.
Titan FCI employs a sales and engineering staff with many years of experience
in the industry. If you have any questions about screens or baskets, Titan will
help you find the answer. Titan can help engineer screens and baskets for
unique applications and designs. Your phone call will never be answered by
an automated recording, but always by a real live person at Titan's offices
located in Lumberton, NC.
quickestquickestquickest
Titan can provide the screen and basket
replacements you need, when you need them.
Short lead times result in less downtime for you!
Your Titan Flow Control
Sales Representative:
If you need help contacting
your local representative,
call Titan Flow Control at
(910) 735-0000.
13. Tel: 910-735-0000 s Fax: 910-738-3848 s titan@titanfci.com s www.titanfci.com
290 Corporate Drive s PO Box 7408 s Lumberton, NC 28358
YOUR PIPELINE TO THE FUTURE!
TITAN FLOW CONTROL, INC.
TITAN FLOW CONTROL, INC f CROSS REFERENCE CHART
Y-Strainers f Basket Strainers f Duplex Strainers f Fabricated Products
®
TITAN
TITAN FLOW CONTROL, INC.
Y-STRAINERS
CASTIRON
End
Connection
Pressure
Class
Mueller
Number
Titan FCI
Number
Threaded ANSI 250 11M YS 12-CI
Flanged ANSI 125 758 YS 58-CI
Flanged ANSI 250 752 YS 59-CI
BRONZE
End
Connection
Pressure
Class
Mueller
Number
Titan FCI
Number
Threaded ANSI 125 351M YS 55-BZ
Threaded ANSI 250 352M YS 52-AB
Solder End ANSI 125 358SN YS 56-BZ
Flanged ANSI 150 851M YS 54-AB
CARBONSTEEL
End
Connection
Pressure
Class
Mueller
Number
Titan FCI
Number
Threaded ANSI 600 861/581 YS 81-CS
Socket Weld ANSI 600 862/582 YS 82-CS
Threaded ANSI 1500 863M YS 83-CS
Socket Weld ANSI 1500 864M YS 84-CS
Threaded ANSI 2500 865 YS 85-CS
Socket Weld ANSI 2500 866 YS 86-CS
Flanged ANSI 150 761/781 YS 61-CS
Flanged ANSI 300 762/782 YS 62-CS
Flanged ANSI 600 764 YS 64-CS
Flanged ANSI 1500 766M YS 68-CS
Flanged ANSI 2500 767 YS 70-CS
Butt Weld ANSI 300 762/782WE YS 63-CS
Butt Weld ANSI 600 764WE YS 65-CS
Butt Weld ANSI 1500 766MWE YS 69-CS
Butt Weld ANSI 2500 767WE YS 71-CS
STAINLESSSTEEL
End
Connection
Pressure
Class
Mueller
Number
Titan FCI
Number
Threaded ANSI 600 861SS/581SS YS 81-SS
Socket Weld ANSI 600 862SS/582SS YS 82-SS
Threaded ANSI 1500 863MSS YS 83-SS
Socket Weld ANSI 1500 864MSS YS 84-SS
Threaded ANSI 2500 865SS YS 85-SS
Socket Weld ANSI 2500 866SS YS 86-SS
Flanged ANSI 150 761SS/781SS YS 61-SS
Flanged ANSI 300 762SS/782SS YS 62-SS
Flanged ANSI 600 764SS YS 64-SS
Flanged ANSI 1500 766MSS YS 68-SS
Flanged ANSI 2500 767SS YS 70-SS
Butt Weld ANSI 300 762SS/782SSWE YS 63-SS
Butt Weld ANSI 600 764SSWE YS 65-SS
Butt Weld ANSI 1500 766MSSWE YS 69-SS
Butt Weld ANSI 2500 767SSWE YS 71-SS
BASKET TYPE STRAINERS
CASTIRON
End
Connection
Pressure
Class
Mueller
Number
Titan FCI
Number
Threaded ANSI 125 125 BS 25-CI
Flanged ANSI 125 125F-CI BS 25F-CI
Flanged ANSI 125 165 BS 65-CI
Flanged ANSI 125 155M BS 55-CI
CARBON
End
Connection
Pressure
Class
Mueller
Number
Titan FCI
Number
Threaded ANSI 150 125-CS BS 35-CS
Flanged ANSI 150 125F-CS BS 35F-CS
Flanged ANSI 150 185 BS 85-CS
Flanged ANSI 300 186 BS 86-CS
STAINLESS
End
Connection
Pressure
Class
Mueller
Number
Titan FCI
Number
Threaded ANSI 150 125-SS BS 35-SS
Flanged ANSI 150 125F-SS BS 35F-SS
Flanged ANSI 150 185-SS BS 85-SS
Flanged ANSI 300 186-SS BS 86-SS
FABRICATED BASKET STRAINERS
ALLMATL
End
Connection
Pressure
Class
Mueller
Number
Titan FCI
Number
Flanged ANSI 150 185FAB-B FB21
Flanged ANSI 300 186FAB-B FB31
Flanged ANSI 150 185FAB-Q FB24
Flanged ANSI 300 186FAB-Q FB34
TEMPORARY START-UP STRAINERS
ALLMATL
End
Connection
Strainer
Type
Mueller
Number
Titan FCI
Number
N/A BASKET 22 PS16
N/A CONE 23 PS15
N/A PLATE 24 PS17
DUPLEX STRAINERS
ALLMATERIALS
Pressure
Class
Hayward
Number
Mueller
Number
Titan FCI
Number
ANSI 125 50/53BTX 791SA DS595-CI
ANSI 125 50/53BTX 791FA DS695-CI
ANSI 150 50/53BTX 792SD DS596-CS
ANSI 150 50/53BTX 792FD DS696-CS
ANSI 150 50/53BTX 792SH DS596-SS
ANSI 150 50/53BTX 792FH DS696-SS
FABRICATED TEE STRAINERS
ALL
End
Connection
Pressure
Class
Mueller
Number
Titan FCI
Number
Flanged ANSI 150 41T FT21
Flanged ANSI 300 42T FT31
Note: This page is for reference only. For exact
dimensional comparisons, please consult factory. Titan's
knowledgeable staff will be happy to advise you in any
purchasing decisions.
TPDC-0216
14. Tel: 910-735-0000 s Fax: 910-738-3848 s titan@titanfci.com s www.titanfci.com
290 Corporate Drive s PO Box 7408 s Lumberton, NC 28358
YOUR PIPELINE TO THE FUTURE!
TITAN FLOW CONTROL, INC.
TITAN FLOW CONTROL, INC f CROSS REFERENCE CHART
Double Disc Check Valves f Center Guided Check Valves
Butterfly Valves f Tri-flow Control Check Valves f Suction Diffusers
®
TITAN
TITAN FLOW CONTROL, INC.
TRI-FLOW CONTROL CHECK VALVES
IRON
End
Connection
Pressure
Class
Mueller
Number
Titan FCI
Number
Flanged ANSI 125 721 TF 21-CI
CARBONSTEEL
Type
Pressure
Class
Mueller
Number
Titan FCI
Number
Wafer ANSI 150 72-DHH-3-X CV42-CS-S-S-1-X
Wafer ANSI 150 72-DHH-6-X CV42-CS-S-S-2-X
Wafer ANSI 150 72-DHH-4-X CV42-CS-S-S-3-X
Wafer ANSI 150 72-DHH-T-X CV42-CS-S-S-6-X
Wafer ANSI 300 74-DHH-3-X CV44-CS-S-S-1-X
Wafer ANSI 300 74-DHH-6-X CV44-CS-S-S-2-X
Wafer ANSI 300 74-DHH-4-X CV44-CS-S-S-3-X
Wafer ANSI 300 74-DHH-T-X CV44-CS-S-S-6-X
Wafer ANSI 600 76-DHH-3-X CV46-CS-S-S-1-X
Wafer ANSI 600 76-DHH-T-X CV46-CS-S-S-6-X
Wafer ANSI 900 77-DHH-3-X CV47-CS-S-S-1-X
Wafer ANSI 900 77-DHH-T-X CV47-CS-S-S-6-X
CARBON
Type
Pressure
Class
Mueller
Number
Titan FCI
Number
Globe ANSI 150 105MDT CV 51-CS-S
Globe ANSI 300 109MDT CV 52-CS-S
SUCTION DIFFUSERS
IRON
End
Connection
Pressure
Class
Mueller
Number
Titan FCI
Number
Flanged ANSI 125 1011 SD 22-CI
BUTTERFLY VALVES
IRON
Type
Pressure
Class
Mueller
Number
Titan FCI
Number
Wafer ANSI 125 65M BF 75-CI
Lug ANSI 150 88 BF 76-DI
DOUBLE DISC CHECK VALVES
DUCTILEIRON
Type
Pressure
Class
Mueller
Number
Titan FCI
Number
Wafer ANSI 150 72-IHB-3-H CV41-DI-B-S-1-S
Wafer ANSI 150 72-IHB-6-H CV41-DI-B-S-2-S
Wafer ANSI 150 72-IHH-3-H CV41-DI-S-S-1-S
Wafer ANSI 150 72-IHH-6-H CV41-DI-S-S-2-S
f Titan FCI provides ductile iron at cast iron prices.
STAINLESSSTEEL
Type
Pressure
Class
Mueller
Number
Titan FCI
Number
Wafer ANSI 150 72-HHH-3-X CV42-SS-S-S-1-X
Wafer ANSI 150 72-HHH-4-X CV42-SS-S-S-3-X
Wafer ANSI 150 72-HHH-H-X CV42-SS-S-S-6-X
Wafer ANSI 300 74-HHH-3-X CV44-SS-S-S-1-X
Wafer ANSI 300 74-HHH-4-X CV44-SS-S-S-3-X
Wafer ANSI 300 74-HHH-H-X CV44-SS-S-S-6-X
Wafer ANSI 600 76-HHH-4-X CV46-SS-S-S-3-X
Wafer ANSI 600 76-HHH-H-X CV46-SS-S-S-6-X
Wafer ANSI 900 77-HHH-4-X CV47-SS-S-S-3-X
Wafer ANSI 900 77-HHH-H-X CV47-SS-S-S-6-X
CENTER GUIDED SILENT CHECK VALVES
DUCTILEIRON
Type
Pressure
Class
Mueller
Number
Titan FCI
Number
Globe ANSI 125 105MAP CV 50-DI-B
Globe ANSI 125 105MAT CV 50-DI-S
Globe ANSI 250 107MAP CV 52-DI-B
Globe ANSI 250 107MAT CV 52-DI-S
Wafer ANSI 125 91AP CV 90-DI-B
Wafer ANSI 125 91AT CV 90-DI-S
f Model CV 52 is dual rated for ANSI 250/300.
f Model CV 90 is dual rated for ANSI 125/250.
STAINLESSSTEEL
Type
Pressure
Class
Mueller
Number
Titan FCI
Number
Globe ANSI 150 105MHT CV 51-SS-S
Globe ANSI 300 109MHT CV 52-SS-S
Wafer ANSI 150 92MHT CV 91-SS-S
Wafer ANSI 300 94MHT CV 91-SS-S
Threaded ANSI 300 303-HT CV 80-SS
f Model CV 91 is dual rated for ANSI 150/300.
Note: This page is for reference only. For exact
dimensional comparisons, please consult factory. Titan's
knowledgeable staff will be happy to advise you in any
purchasing decisions.
SPECIFY WITH
CONFIDENCE
AND
MAXIMIZE
YOUR PURCHASING
DOLLARS!
TITAN'S PRODUCTS ARE EASY TO IDENTIFY
Y-STRAINERS YS FABRICATED TEE STRAINERS FT
BASKET STRAINERS BS FABRICATED BASKET STRAINERS FB
DUPLEX STRAINERS DS BALL VALVE BLOW-OFF VALVES BV
CHECK VALVES CV TEMPORARY STRAINERS PS
SUCTION DIFFUSERS SD TRI-FLOW CHECK VALVES TF
TPDC-0216
15. Telephone: 910.735.0000 ◊ Fax: 910.738.3848 ◊ Email: titan@titanfci.com ◊ Website: www.titanfci.com
TitanFCIStrainerIntroduction◊SI-0716
TITAN QUALITY STRAINERS
Clean and Protect your pipelines with
Pipeline
Strainers
TITAN
PipelineStrainerOptions
Strainers are an efficient way to remove debris from
industrial and commercial pipelines. By mechanically
removing potentially harmful debris before it reaches
expensive pumps, compressors, valves, etc., strainers are
essential in preventing damage to downstream equipment.
Titan Flow Control, Inc. offers a huge variety of strainer
designs and options:
TYPES: Y-Strainer, Basket Strainer,
Duplex Strainer, Temporary
Strainer, Fabricated Strainer
SIZES: 1/4" through 72"
ANSI CLASSES: 125, 150, 300, 600, 900, 1500,
2500
MATERIALS: Stainless Steel, Carbon Steel,
Cast Iron, Bronze, Brass, and
other special alloys
END CONNECTIONS: Threaded, Flanged, Butt Weld,
Socket Weld, Solder ®
TITAN
TITAN FLOW CONTROL, INC.
16. Duplex Strainers are ideal for non-interruptible applications. Two
basket chambers and a flow diverter system allow the pipeline flow to be
switched from one chamber to the other. Because the flow is completely
isolated to a single chamber, the inactive chamber can be cleaned without
shutdown.
Titan's Duplex Strainers are high quality, compact units. They are easy to
operate and maintain with no special tools required to remove the straining
element from the chamber. All cast iron and carbon steel units are epoxy
painted to resist rust. Titan's Duplex Strainers are available with threaded
and flanged ends in a variety of materials.
Fabricated Strainers provide additional flexibility and design options for unique
applications. Titan offers fabricated basket strainers, tee strainers, duplex strainers,
and temporary strainers (as pictured on the left). Titan even manufacturers fabricated
strainers with special cleaning options, hand-operated and motorized, to facilitate
debris removal. A variety of options are available for flow variations and cover designs,
including Davit cover assemblies.
Titan has a highly experienced engineering team and fabrication department that is
customer-focused and detail-oriented, ensuring that a Titan fabricated product will not
only meet the needs of the application, but also will be of the highest quality.
Wye ("Y") Strainers can be used in horizontal or vertical (downward) pipelines. A
cylindrical perforated or mesh-lined screen within the strainer collects debris as the
flow travels through the strainer. Cleaning Y-strainers normally requires the removal
of the screen from the strainer, but a blow-off drain valve can be used to increase the
time between cleanings.
Features of Titan's Y-strainers include large straining capacities, precision machined
seats, a standard blow-off drain connection furnished with a plug on low pressure
models, and many screen options. All cast iron and carbon steel units are epoxy painted
to resist rust; all threaded and socket weld end connections have hex ends for easy
installation. Many models have gauge taps as a standard feature. Titan's Y-strainers are
available in ANSI classes up to 2500.
Telephone: 910.735.0000 ◊ Fax: 910.738.3848 ◊ Email: titan@titanfci.com ◊ Website: www.titanfci.com
Y-Strainers,BasketStrainers,DuplexStrainers,andFabricatedStrainers◊SI-0716
Types of Pipeline Strainers
TITAN FLOW CONTROL, INC
Basket Strainers are used commonly in horizontal applications where cleaning
will be less frequent. Because of their larger bodies, they typically provide more
open area for debris collection than Y-strainers. The straining element (a.k.a the
"basket") for a basket strainer has a handle for easy removal and secure placement
within the strainer's body. The basket can have a slanted top design (as shown to the
left) or a straight top design.
Titan's Basket Strainers feature large straining capacities, precision machined seats,
standard blow-off drain connections and cover vents furnished with plugs, and many
screen options. All cast iron and carbon steel units are epoxy painted to resist rust;
all threaded end connections have hex ends for easy installation. Many models
have gauge taps as a standard feature. Titan also offers a variety of cover designs,
including a quick-open cover for easy access to the straining element.
®
TITAN
17. SCREEN AND BASKET SELECTION GUIDE
Choosing the right straining element
TITAN
290 Corporate Drive
PO Box 7408
Lumberton, NC 28358
Titan Flow Control, Inc.
www.titanfci.com
Tel: 910-735-0000
Fax: 910-738-3848
titan@titanfci.com
Introduction:
One of the most important design considerations when
purchasing a strainer is specifying the perforation or mesh size
of the straining element. The straining element (commonly
referred to as a screen for WYE strainers and a basket for
basket strainers) is a mechanical filter which removes and retains
particles too large to pass through yet allows the flowing media
(liquid or gas) to pass unobstructed. This process is illustrated
in Figure 1. By cleaning the flowing media, the straining element
helps to protect expensive downstream equipment such as
pumps, meters, spray nozzles, compressors, and turbines.
Determining Opening Size:
In general,screen openings should be approximately one-half the
diameter of the largest allowable particle. The largest allowable
particle is defined as the size of particle that can pass through
downstream equipment without causing damage. For example,
if the maximum allowable particle is 1/16 inch than the screen
opening would be specified at 1/32 inch. In addition to the size
of particles,the quantity of debris in the flowing media must also
be considered when determining the appropriate opening size.
Straining elements can only be used to remove insoluble floating
impurities. The most common range of particle retention is
1 inch down to 40 microns (.0015 inch). See Figure 2 for a
comparison of sizes for a variety of common particles.
ATitan FCI stainer should always be installed ahead of pumps
and other expensive, downstream equipment to help ensure
proper protection and trouble-free operation. This even holds
true for "clean lines" to protect against scale and accidentally
introduced items such as: tools, gaskets, nuts, or bolts. Determining Opening Size: continued...
A common mistake is to specify a screen opening that is to small
for the application. This can lead to overstraining and should be
avoided for the following reasons:
• Maintenance costs are significantly increased due to
excessive cleaning requirements.
• Pressure drop is increased dramatically.
• The straining element may become damaged and fail.
In some applications requiring finer filtrations,it may be advisable
to strain in gradual steps. This is accomplished by placing
progressively smaller straining elements in series. As always,
a Titan FCI engineer is available to assist you in developing a
solution for any special straining requirements you may have.
Construction Material:
Regardless of the strainer housing material being used, the most
common construction material used for straining elements
is stainless steel. This is due to the inherent resistance to
corrosion stainless steel provides. As such,Titan FCI's standard
construction material for all straining elements is Type 304
stainless steel. Other materials (316 SS, 316L, and Monel) are
available upon application. Please consult a Titan FCI engineer
for determining the best material for your application.
Straining elements are not designed to withstand the same
pressure as the strainer housing. If the straining element
becomes fully clogged,it will be exposed to the same pressure
as the housing. In most cases, this will cause the straining
element to fail. For these types of applications,Titan FCI offers
special drilled or wedge wire screens that can withstand full
line pressure when clogged. A convenient way to monitor the
differential pressure is to install pressure gauges on both the
inlet and outlet sides of the strainer. It is not recommended
to allow the differential pressure to exceed 20 psi.Figure 1: Straining Illustration
0.001
0.1
10
1K
10K
∞
Microns(µm)
1” Perf (25,400 µm)
1/4” Perf (6350 µm)
20 Mesh (914 µm)
1/8” Perf (3175 µm)
1/16” Perf (1587 µm)
½” Perf (12,700 µm)
1/32”Perf (838 µm)
40 Mesh (381 µm)
100 Mesh (139 µm)
LargeAquaticLife
LargeDebris/Branches
SmallAquaticLifeandDebris
Gravel/Crustacea/Twigs
Sand/Silt/Flocs
Clay/PollenAlgae
MicroOrganisms/Bacteria
OilEmulsion/ClayAlgae
ColloidalSolids/Virus/Proteins
SomeCorrosionProducts
Figure 2: Particle Size Comparison Chart
SST-0607
18. Titan Flow Control - Screen and Basket Types
ScreenTypes:
In general, strainer elements are available in three types: perforated, wire mesh, and reinforced wire mesh lined.
Perforated:
Titan FCI offers a wide range of perforation sizes.To make the selection process easier,Titan FCI recommends
a standard perforation size suitable for general service for each type of strainer. The standard perforation
size has been determined to provide the best balance of open area ratio (OAR),hole arrangement,and gauge
thickness that results in the least amount of pressure drop. Please refer to each strainer's specification
sheet for standard perforation size recommendations. Additionally, Table 1 presents a general guide for
selecting straining element sizes for water, steam, oil, gasoline and air.
Where permissible,Titan FCI uses a 60° staggered round hole arrangement because of its superior strength
and large open area ratio (OAR). On smaller perforation sizes,Titan FCI uses a straight line, round hole
pattern that allows for a large OAR yet does not compromise gauge thickness. In general, as the hole
diameter becomes smaller and the OAR increases, the gauge thickness inherently becomes thinner.
Wire Mesh:
For finer straining applications, down to 40 micron, wire mesh straining elements are available. Titan
FCI utilizes a mono-filament,plain square weave that exhibits large OAR and very low flow resistance.
Other types of weaves, such as plain Dutch andTwilled Dutch weave, are also available upon request.
As with perforated straining elements, Titan FCI has developed standard mesh sizes suitable for
general service for each type of strainer. Unsupported wire mesh straining elements are only suitable
for strainers under 2 inches in size, constructed of 20 or 30 mesh, and operating within low pressure
applications (under 200 psi). For larger strainers, finer mesh sizes, and higher pressure applications
reinforced mesh lined screens must be used.
Wire Mesh Lined:
In most cases, wire mesh straining elements are reinforced with a heavier
gauge, perforated metal backing to provide additional support. Titan FCI's
standard perforated metal backing is 5/32 inch which provides excellent
support without significantly diminishing the OAR.
Table 1: Straining Element Selection Guidelines: (1)
Pipeline Media Strainer Size Coarse Straining Fine Straining
Air or Gas
1/2" ~ 2" 1/32" perf. 60 mesh 100 mesh
2 1/2" ~ 4" 1/16" perf. 3/64" perf. 60 mesh
5" and up 1/8" perf. 1/10" perf. 40 mesh
Gasoline
1/2" ~ 2" 1/32" perf. 30 mesh 100 mesh
2 1/2" ~ 6" 1/16" perf. 1/32" perf. 60 mesh
8" and up 1/10" perf. 1/32" perf. 40 mesh
Oil - LowViscosity
1/2" ~ 2" 1/16" perf. 1/32" perf. 30 mesh
2 1/2" ~ 6" 3/16" perf. 1/8" perf. 1/16" perf.
8" and up 3/8" perf. 1/4" perf. 1/8" perf.
Oil - MediumViscosity
1/2" ~ 2" 1/10" perf. 1/16" perf. 20 mesh
2 1/2" ~ 6" 1/4" perf. 3/16" perf. 1/8" perf.
8" and up 3/8" perf. 1/4" perf. 3/16" perf.
Oil - HighViscosity
1/2" ~ 2" 1/8" perf. 1/10 perf. 1/16" perf.
2 1/2" ~ 6" 3/8" perf. 1/4" perf. 3/16" perf.
8" and up 1/2" perf. 3/8" perf. 1/4" perf.
Steam
1/2" ~ 2" 1/32" perf. 30 mesh 60 mesh
2 1/2" ~ 4" 3/64" perf. 1/32" perf. 30 mesh
5" and up 1/16" perf. 3/64" perf. 1/32" perf.
Water
1/2" ~ 2" 1/32" perf. 20 mesh 30 mesh
2 1/2" ~ 4" 1/8" perf. 1/16" perf. 3/64" perf.
5" and up 1/4" perf. 1/8" perf. 3/64" perf.
1. Represents a general guide for the selection of strainer element sizes. Should not be taken as an absolute guide as each particular application introduces its own
set of unique requirements. When in doubt, please contact a Titan FCI engineer.
60° Staggered Round
Hole Arrangement
Wire Mesh with
Perforated Backing
Wire Size Diameters and
Washburn & Moen
Gauge Equivalents
Inch Gauge
.120
.105
.092
.080
.072
.063
.054
.047
.041
.035
.032
11 Ga.
12 Ga.
13 Ga.
14 Ga.
15 Ga.
16 Ga.
17 Ga.
18 Ga.
19 Ga.
20 Ga.
21 Ga.
2
19. Titan Flow Control - Perforation and Mesh Configurations
Table 2: Standard Mesh and Perforated Configurations (1)(2)
20 Mesh
51.8% Open Area
.036 Openings
(.914 mm / 914 µm)
.014 Wire Diameter
1/32" Diameter
(.033 in / 0.83 mm)
.055 Centers
28% Open Area
330 holes/sq. in.
Straight Line
30 Mesh
44.8% Open Area
.0223 Openings
(.566 mm / 566 µm)
.011 Wire Diameter
3/64" Diameter
(.045 in / 1.14 mm)
.066 Centers
36% Open Area
225 holes/sq. in.
Straight Line
40 Mesh
36% Open Area
.015 Openings
(.381 mm / 381 µm)
.010 Wire Diameter
1/16" Diameter
(.0625 in / 1.58 mm)
3/32" Centers
41% Open Area
132 holes/sq. in.
Staggered Line
60 Mesh
33.9% Open Area
.0097 Openings
(.246 mm / 246 µm)
.007 Wire Diameter
1/8" Diameter
(.125 in / 3.17 mm)
3/16" Centers
40% Open Area
33 holes/sq. in.
Staggered Line
80 Mesh
36% Open Area
.0075 Openings
(.190 mm / 190 µm)
.005 Wire Diameter
5/32" Diameter
(.1563 in / 3.96 mm)
3/16" Centers
63% Open Area
33 holes/sq. in.
Staggered Line
100 Mesh
30.3% Open Area
.0055 Openings
(.139 mm / 139 µm)
.0045Wire Diameter
1/4" Diameter
(.25 in / 6.35 mm)
5/16" Centers
58% Open Area
12 holes/sq. in.
Staggered Line
Notes:
1. Titan FCI's standard construction material for all screens and baskets is Type 304 Stainless Steel.
Other materials (i.e.Type 316 and Monel) are available upon request. Please consult factory for
pricing and availability for non-stock materials.
2. Table 2 represents Titan FCI's most commonly stocked mesh and perforation arrangements. A large variety of special mesh and perforation options are available.
Please consult the factory or your local sales representative regarding the specific requirements of your application.
3. Table 3 & 4 represent optional mesh and perf configurations which are not routinely stocked but can be furnished upon request. Please consult factory for pricing
and availability.
4. For mesh lined screens or baskets, 5/32" perf is most commonly used for outer support (backing). If other backing is required, please specify at time of order.
Table 3: Optional Mesh Configurations (3)
Mesh
(Linear inch)
Wire
Dia.
(in)
Hole Openings Open
Area
(%)(in) (µm)
20 .016 .034 863 46.2
20 .023 .027 685 29.2
30 .010 .0233 591 48.9
30 .014 .0193 490 33.5
40 .009 .016 406 41.0
40 .011 .014 355 31.4
50 .009 .011 279 30.3
60 .0065 .0102 259 37.5
60 .0080 .0087 221 27.2
80 .0055 .0070 177 31.4
80 .0060 .0065 165 27.0
100 .0040 .0060 152 36.0
100 .0045 .0055 139 30.3
120 .0037 .0046 116 30.7
130 .0034 .0043 109 31.1
140 .0029 .0042 106 34.9
150 .0026 .0041 104 37.4
160 .0025 .0038 96 36.4
170 .0024 .0035 88 35.1
180 .0023 .0033 83 34.7
200 .0021 .0029 73 33.6
325 .0011 .0020 50 42.0
400 .0010 .0015 38 36.0
500 .0010 .0010 25 25.0
Table 4: Optional Perf. Configurations (3)
Hole
Diameter (in)
Centers (in)
Open Area
(%)
.027 .05 Straight 23.0
.045 .066 Straight 36.0
.045 .088 Staggered 24.0
1/16 7/64 Staggered 30.0
1/16 1/8 Staggered 22.5
5/64 7/64 Staggered 46
5/64 1/8 Staggered 36
3/32 5/32 Staggered 33.0
3/32 3/16 Staggered 25.0
3/32 1/4 Straight 12.7
.100 5/32 Staggered 36.0
.117 5/32 Staggered 51.0
1/8 7/32 Staggered 30.0
1/8 1/4 Staggered 23.0
9/64 3/16 Staggered 51.0
5/32 1/4 Staggered 34.0
3/16 1/4 Staggered 50.0
3/16 5/16 Staggered 33.0
3/16 1/2 Straight 10.0
7/32 5/16 Staggered 45.0
1/4 3/8 Staggered 40.0
1/4 1/2 Staggered 23.0
1/4 1/2 Straight 20.0
5/16 7/16 Staggered 46.0
3/8 1/2 Staggered 52.0
3/8 9/16 Staggered 40.0
7/16 5/8 Staggered 45.0
1/2 11/16 Staggered 48.0
1/2 3/4 Staggered 40.0
3
20. Titan Flow Control - Standard Screen and Basket Designs
Titan Flow Control - Special Screen and Basket Designs
Magnetic Screen Assembly:
Magnetic screen assemblies are recommended for applications that require the removal and retention of microscopic ferrous
particles. Virtually any Titan FCI strainer can be fitted with powerful ALNICO magnetic inserts to provide protection against both
magnetic and non-magnetic particles. These magnetic inserts create a continuous magnetic field within the interior of the straining
element trapping ferrous particles even the finest mesh would typical not remove. Magnetic screen assemblies can effectively be
employed in lubrication systems, hydraulic systems, and machine coolant systems.
Special Drilled or Wedge Wire Screens:
Titan FCI can also fabricate straining elements that will withstand full line pressure when clogged. These straining elements have
individually drilled holes in heavy gauge metal (up to 3/8" thick) or utilize wedge wire.
Pleated (Convoluted) Straining Elements:
Particle retention is directly related to the amount of surface area available on the straining element. As straining occurs, the gradual
retention of particles can cause a layered build-up on the surface of the straining element. With cylindrical straining elements, this
accumulation pattern can quickly clog the outlet side of the strainer causing a significant increase in pressure drop. This is illustrated
in Figure 8. To solve this problem,Titan FCI can fabricate pleated straining elements which expand the straining surface area and
disperse the particles in a uniform manner. This alleviates the layered build-up and typical loss in pressure. This is illustrated in
Figure 9.
Figure 8: TopView - Basket Strainer - Cylindrical Straining Element Figure 9: TopView - Basket Strainer - Pleated Straining Element
Titan FCI can manufacture straining
elements for all types of strainers
including "Y", "T", and basket in a
wide variety of materials. We can
also manufacture conical/temporary
strainers.
Please send us your prints,samples,or
simply give us your requirements and
let us design a straining element for
you. In most cases,straining elements
can be ordered by referencing Titan
FCI's or any other manufacturers'
strainer model number.
Figure 3:
STYLE 'A'
Cylindrical Screen
Generally used for "Y"
Type Strainers.
Figure 4:
STYLE 'B'
Slanted Type Basket
Typically used for larger
sized Simplex and Duplex
Basket Strainers. Slanted
inlet side reduces pressure
drop across the strainer.
Strainer cover presses
down on handle to ensure
straining element remains
securely seated.
Figure 5:
STYLE 'C'
Basket Type
Typically used for smaller
sized Simplex and
Duplex Basket Strainers.
Strainer cover presses
down on handle to
ensure straining element
remains securely seated.
Figure 6:
STYLE 'D'
Temporary Conical
Often referred to as
a cone or witch's hat
strainer. Used during
start-up operations.
Figure 7:
STYLE 'E'
Temporary Basket
Often referred to as a
basket or pilgrim's hat
strainer. Used during
start-up operations.
When ordering, please specify:
1. Pipe Size
2. Straining Element Type
3. Perforation or Mesh
4. Construction Material
5. Design Type (cone, basket etc.)
6. Flow Direction
7. Open Area % and Length
8. Pressure Ratio
4
LENGTH
DIAMETER
DIAMETER
PERF
LENGTH
LENGTH
PERF
LENGTH
DIAMETER
LENGTH
DIAMETER
DIAMETER
PERF
LENGTH
DIAMETER
DIAMETER
LENGTH
DIAMETER
DIAMETER
LENGTH
DIAMETER
Screen Specification Sheets are available online at http://www.titanfci.com/technical-data/screen-selection/screen-and-basket-specifications
21. STRPDC-0912
TECHNICAL AND PERFORMANCE DATA
PRESSURE DROP CHARTS f WYE & BASKET STRAINERS
TITAN
TITAN FLOW CONTROL, INC.
WYE Strainers - Small Models WYE Strainers - Large Models
Models: YS12 -YS52 -YS55 -YS56 -YS81 -YS82 Models: YS58 -YS59 - YS54 -YS61 -YS62 -YS63 -YS64 -YS65
Legend: Pressure Drop - PSI (y - axis) versus Flow Rate - GPM (x -axis) Legend: Pressure Drop - PSI (y - axis) versus Flow Rate - GPM (x -axis)
20 30 40 50 70 100 200 300 500 700 1000 2000 3000 5000 10000 20000 50000
0.1
0.2
0.3
0.4
0.5
0.6
0.7
1
2
3
4
5
6
7
10
2
21/2
3
4
5
6
8
10
12
14
16
18
20
24
110
160
260
400
570
950
1600
2200
3300
4900
6100
8000
11000
70
Cv
Sizes (in):
Cv
0.2 0.3 0.5 0.7 1 2 3 4 5 6 7 8 10 20 30 40 50 70 100 200 300 500 700 1000
0.1
0.2
0.3
0.4
0.5
0.7
1
2
3
4
5
6
7
10
1/4
3/8
1/2
3/4
1
11/4
11/2
2
21/2
3
2
8
15
22
38
42
70
110
160
0.7
Cv
Sizes (in):
Cv
1
2
8
15
22
38
42
70
110
160
0.7
Cv Cv
WYE Strainers - High Pressure - Class 900 &1500 WYE Strainers - High Pressure - Class 2500
Models: YS66 -YS67 -YS68 -YS69 -YS83 -YS84 Models: YS70 -YS71 -YS85 -YS86
Legend: Pressure Drop - PSI (y - axis) versus Flow Rate - GPM (x -axis) Legend: Pressure Drop - PSI (y - axis) versus Flow Rate - GPM (x -axis)
1 2 3 4 5 6 7 8 10 20 30 4050 70 100 200 300 500 700 1000 2000 3000 5000
0.1
0.2
0.3
0.4
0.5
0.6
0.7
1
2
3
4
5
6
7
10
3/4
1
11/411/2
21/2-3
4
6
8
10
6
16
32
34
60
140
180
450
650
930
11
1/2
Cv Cv
2
Sizes (in):
5 6 7 8 10 20 30 40 50 60 70 100 200 300 400 500 700 1000 2000
0.1
0.2
0.3
0.4
0.5
0.7
1
2
3
4
5
6
7
10
11/2
2
3
4
6
8
Sizes (in):
42
100
160
375
600
30
Cv CvCv
• These curves are theoretical; actual results may vary depending on installation conditions and other variables. Use these values for reference only.
• The above pressure drop charts are based upon 1/8" perforated screens and baskets handling clean water at 60 °F during ideal inlet and outlet conditions. Therefore, they
should only be used for estimation purposes.
• For fluids other than water, multiply the pressure drop (Δ P) obtained from the charts by the specific gravity of the fluid in question.
• For mesh lined screens, multiply the pressure drop (Δ P) obtained from the charts by the corresponding correction factor shown in the Cv correction table.
Tel: 910-735-0000 s Fax: 910-738-3848 s titan@titanfci.com s www.titanfci.com
290 Corporate Drive s PO Box 7408 s Lumberton, NC 28358
TITAN FLOW CONTROL, INC.
Pressure Drop Equation for Liquids:
Δ P = G × (Q / Cv)2
× Cr
Δ P = Pressure drop (psi) G = Specific gravity of liquid Q = Flow rate (GPM)
Cv = Flow coefficient factor Cr = Correction factor for mesh and viscosity
25. A
APPLICATIONS
FFEATURES
Tel: 910-735-0000 s Fax: 910-738-3848 s titan@titanfci.com s www.titanfci.com
290 Corporate Drive s PO Box 7408 s Lumberton, NC 28358
YOUR PIPELINE TO THE FUTURE!
TITAN FLOW CONTROL, INC.
"Y" (WYE) STRAINER f ANSI CLASS 250
CAST IRON f THREADED ENDS
PRESSURE/ TEMPERATURE RATING
CI- ASTM A126 GR. B - CLASS 250
YS 12-CI (THREADED)
WOG (Non-shock): 400 PSI @ 150 °F
• The above listed temperatures are theoretical and
may vary during actual operating conditions.
s large straining capacity
with its large body and sizable straining element, the ys12 provides excellent
open area ratios that are typically two-and-a-half times larger than the
corresponding pipeline.
s precision machined seats
precision machined screen seats in both the body and cap help to ensure
accurate positioning of the screen during reassembly after cleaning. also,
the machined body seats enable finer filtration by preventing debris bypass.
s self-cleaning capability
with a tapped npt blow-off connection, this unit can be fitted with a blow-
down valve which facilitates cleaning of the straining element. please
contact factory for more information.
s epoxy painted
all units are epoxy painted to help resist rust and corrosion. titan fci also
offers epoxy coating as an option for the ys12.
s potable water/fda approved coatings available
in addition to its lead free, cast iron body, titan can provide
nsf/ansi and fda approved epoxy coatings which make this
product suitable for potable water and food contact
applications. numerous options are available. please contact
us for more details.
s threaded cap
titan's ys12 has straight threads to permit easy cap removal for cleaning and
proper alignment when reassembling strainer.
s natural gas and other special applications
titan has extensively tested the ys12 in gas applications and determined that
buna-n gaskets provide superb sealing capabilities for the service. always
specify if a special gasket or screen is required for a specific application.
general application: y-strainers are installed in a piping system to remove unwanted debris from the
pipeline, protecting expensive equipment downstream such as pumps, meters, spray nozzles, compressors, and
turbines. they can be placed in a horizontal or vertical pipeline as long as the screen is in a downward
position. straining is accomplished via an internal perforated or mesh lined straining element, the size of
which should be determined based on the size of the smallest particle to be removed.
servicing: the straining element needs regular cleaning to prevent debris build up. it is not advisable to
allow the differential pressure to increase by 20 psi. although cleaning normally requires the removal of the
straining element, installing and using a titan blow-off drain valve can increase the time between cleanings.
The above data represents common market and service applications. No representation or guarantee, expressed or implied, is given due to the numerous
variations of concentrations, temperatures and flow conditions that may occur during actual service.
TTECHNICAL
MODEL: YS 12-CI
(cast iron)
YS12-0615
3" YS 12-CI
SIZE RANGE : 1/4" ~ 3"
®
TITAN
TITAN FLOW CONTROL, INC.
26. TITAN FLOW CONTROL, Inc.
290 Corporate Drive E-mail: titan@titanfci.com
Lumberton, NC 28358 Web: www.titanfci.com
Tel: 910.735.0000 Fax: 910.738.3848
YS12-0615
®
TITAN
BILL OF MATERIALS (1)
No. PART YS 12-CI
1 Body (2) Cast Iron
A126 Gr. B
2 Cap
Cast Iron
A126 Gr. B
3 Straining Element (3)
Stainless Steel (6)
4 Gasket (3) (4)
Grafoil
5 NPT Plug (Blow-off) (5)
Steel
1. Bill of Materials represents standard materials. Equivalent or better
materials may be substituted at the manufacturer's discretion.
2. All units are epoxy painted.
3. Denotes recommended spare parts.
4. Contact Titan for special gaskets materials, including Buna-N orViton,
for natural gas, hot air, or other applications.
5. TheYS12 can be furnished with bronze blow-off plug to meet
Military Specification WW-S-2739. Contact factory.
6. Stainless Steel Straining Element is available in Type 304 and Type 316
Stainless Steel. A wide range of wire mesh and perforated screens
are available. See "Standard Screen Selections" chart below for
standard perforations and meshes. Please specify if a non-standard
screen is required.
PRESSURE -TEMPERATURE RATING
ANSI Class 250 A126 Gr. B
WOG (Non-shock): 400 PSI @ 150 °F
Titan FCI makes every effort to ensure the information presented on our literature accurately reflects exact product specifications. However, as product changes occur, there may be short-term differences between actual product
specifications and the information contained within our literature. Titan FCI reserves the right to make design and specification changes to improve our products without prior notification. When required, request certified drawings.
"Y" (WYE) STRAINER
YS 12-CI - (Cast Iron)
Threaded Ends • Cast Iron • ANSI Class 250
1. Dimensions and weights are for reference only. When required, request certified drawings.
2. Face to face values have a tolerance of ±0.06 in (±2.0 mm).
DIMENSIONS AND PERFORMANCE DATA (1)
SIZE
in 1/4 3/8 1/2 3/4 1 1 1/4 1 1/2 2 2 1/2 3
mm 8 10 15 20 25 32 40 50 65 80
A DIMENSION
FACE TO FACE (2)
in 3.188 3.188 3.188 3.75 4.2 5.0 5.75 7.0 9.25 10.0
mm 81 81 81 95 107 127 146 178 235 254
B DIMENSION
CENTER LINE TO BOTTOM
in 2.063 2.063 2.063 2.438 2.625 3.375 3.875 4.75 5.875 6.0
mm 52 52 52 62 67 86 98 121 149 152
C DIMENSION
SCREEN REMOVAL
in 2.375 2.375 2.375 3.0 3.25 4.25 5.0 6.125 7.875 8.0
mm 60 60 60 76 83 108 127 156 200 203
D NPT Plug
BLOW-OFF
in 1/4 1/4 1/4 3/8 3/8 3/4 3/4 1 1 1/2 1 1/2
mm 8 8 8 10 10 20 20 25 40 40
APPROXIMATE
ASSEMBLED WEIGHT
lb 1.5 1.5 1.5 2.5 3.5 6.0 9.0 14.0 25.5 32.0
kg 0.7 0.7 0.7 1.1 1.6 2.7 4.1 6.3 11.6 14.5
Flow Coefficient Cv 0.7 2 8 15 22 38 42 70 110 160
REFERENCED STANDARDS & CODES
CODE DESCRIPTION
ASME/ANSI B16.4 Cast Iron Threaded Fittings
ANSI Class
250
3
4
2
1
5
Please specify
for gas service
A
B
C
D
STANDARD SCREEN SELECTIONS
Size Liquid Open Area Steam Open Area
1/4" ~ 2" 20 Mesh 51.8% 30 Mesh 44.8%
2 1/2" ~ 3" 1/16 (.0625) 41% 3/64 (.045) 36%
PRESSURE -TEMPERATURE RATINGS
-50 0 50 100 150 200 250 300 350 400 450
200
250
300
350
400
450
Pressure(PSI)
Temperature (°F)
Source: ASME/ANSI B16.4
Cast Iron
ASTM A126 Gr. B
ANSI Class 250
Illustrations are representative of a 2"YS12-CI.
Please ask for certified drawings when required.
ExplodedView
FrontView
27. A
APPLICATIONS
FFEATURES
Tel: 910-735-0000 s Fax: 910-738-3848 s titan@titanfci.com s www.titanfci.com
290 Corporate Drive s PO Box 7408 s Lumberton, NC 28358
YOUR PIPELINE TO THE FUTURE!
TITAN FLOW CONTROL, INC.
SIZE RANGE : 2" ~ 24"
"Y" (WYE) STRAINER f ANSI CLASS 125
CAST IRON f FLANGED ENDS, FLAT FACE
PRESSURE/ TEMPERATURE RATING
CI- ASTM A126 GR. B - CLASS 125
SIZES 2" ~ 12"
WOG (Non-shock): 200 PSI @ 150 °F
PRESSURE/ TEMPERATURE RATING
CI- ASTM A126 GR. B - CLASS 125
SIZES 14" ~ 24"
WOG (Non-shock): 150 PSI @ 150 °F
• The above listed temperatures are theoretical and
may vary during actual operating conditions.
s new design with gauge taps
titan's ys58 has convenient gauge taps furnished with a plug on both the inlet
and outlet sides of sizes 2" through 20". these taps allow for easy installation of
pressure gauges to monitor differential pressure and determine when screen
cleaning is necessary. additionally, sizes 2" through 6" have an extra boss for
custom gauge tapping.
s large straining capacity
with its large body and sizable straining element, the ys58 provides excellent
open area ratios that are typically two-and-a-half times larger than the
corresponding pipeline.
s precision machined seats
precision machined screen seats in both the body and cap help to ensure
accurate positioning of the screen during reassembly after cleaning. also,
the machined body seats enable finer filtration by preventing debris bypass.
s self-cleaning capability
with a tapped npt blow-off connection, this unit can be fitted with a blow-
down valve which facilitates cleaning of the straining element. please
contact factory for more information.
s epoxy painted
all units are epoxy painted to help resist rust and corrosion. titan fci also
offers epoxy coating as an option for the ys58.
s potable water/fda approved coatings available
in addition to its lead free, cast iron body, titan can provide
nsf/ansi and fda approved epoxy coatings which make this
product suitable for potable water and food contact
applications. numerous options are available. please contact
us for more details.
s optional cover designs
titan's ys58 is available with different cover options including swing, clamp, and
hinge type covers. please consult factory for more information on these options.
general application: y-strainers are installed in a piping system to remove unwanted debris from the
pipeline, protecting expensive equipment downstream such as pumps, meters, spray nozzles, compressors, and
turbines. they can be placed in a horizontal or vertical pipeline as long as the screen is in a downward
position. straining is accomplished via an internal perforated or mesh lined straining element, the size of
which should be determined based on the size of the smallest particle to be removed.
servicing: the straining element needs regular cleaning to prevent debris build up. it is not advisable to
allow the differential pressure to increase by 20 psi. although cleaning normally requires the removal of the
straining element, installing and using a titan blow-off drain valve can increase the time between cleanings.
The above data represents common market and service applications. No representation or guarantee, expressed or implied, is given due to the numerous
variations of concentrations, temperatures and flow conditions that may occur during actual service.
TTECHNICAL
MODELS: YS 58-CI
(cast iron)
YS58-0414
®
TITAN
TITAN FLOW CONTROL, INC.
GaugeTaps
NEWLY DESIGNED...
STANDARD ON ALL
YS 58-CI MODELS IN
SIZES 2" ~ 20"
28. TITAN FLOW CONTROL, Inc.
290 Corporate Drive E-mail: titan@titanfci.com
Lumberton, NC 28358 Web: www.titanfci.com
Tel: 910.735.0000 Fax: 910.738.3848
YS58-0414
®
TITAN
BILL OF MATERIALS (1)
No. PART YS 58-CI
1 Body
Cast Iron
A126 Gr. B
2 Cover
Cast Iron
A126 Gr. B
3 Straining Element (2)
Stainless Steel
4 Gasket (2) Non-Asbestos Gasket,
Garlock 3000 or Equal
5 Cap Screws Steel
6
NPT Plug
(Blow-off)
Carbon Steel
7
NPT Plugs
(Gauge Taps) (3) Carbon Steel
1. Bill of Materials represents standard materials. Equivalent or better
materials may be substituted at the manufacturer's discretion.
2. Denotes recommended spare parts.
3. Gauge taps and NPT Plugs (Part #7) are standard only on sizes 2"
through 20". See Dimensions and Performance Data for the standard
NPT sizes.
PRESSURE -TEMPERATURE RATING
A126 Gr. B 2" ~ 12" 14" ~ 24"
WOG (Non-shock): 200 PSI @ 150 °F 150 PSI @ 150 °F
Saturated Steam: 125 PSI @ 353°F 100 PSI @ 353°F
Max Liquid: 125 PSI @ 450 °F 100 PSI @ 353 °F
Titan FCI makes every effort to ensure the information presented on our literature accurately reflects exact product specifications. However, as product changes occur, there may be short-term differences between actual product
specifications and the information contained within our literature. Titan FCI reserves the right to make design and specification changes to improve our products without prior notification. When required, request certified drawings.
"Y" (WYE) STRAINER
YS 58-CI - (Cast Iron)
Flanged Ends • Flat Face • Cast Iron
1. Dimensions and weights are for reference only. When required, request certified drawings.
2. Face to face values have a tolerance of ±0.06 in (±2.0 mm) for sizes 10" and lower and a tolerance
of ±0.12 in (±3.0 mm) for sizes 12" and larger.
DIMENSIONS AND PERFORMANCE DATA (1)
SIZE
in 2 2 1
/2
3 4 5 6 8 10 12 14 16 18 20 24
mm 50 65 80 100 125 150 200 250 300 350 400 450 500 600
A DIMENSION
FACE TO FACE (FLAT FACE) (2)
in 7.875 10.0 10.125 12.12 15.62 18.5 21.625 25.75 29.87 33.25 38.75 43.125 49.5 58.375
mm 200 254 256 308 397 470 550 655 759 845 984 1095 1257 1483
B DIMENSION
CENTER LINE TO BOTTOM
in 5.25 6.50 7.0 8.25 11.25 13.5 15.5 18.5 21.75 25.0 26.5 31.0 39.0 45.0
mm 133 166 178 210 286 343 394 470 553 625 673 787 991 1143
C DIMENSION
SCREEN REMOVAL
in 7.0 9.75 10.0 12.0 20.0 20.0 22.75 28.0 30.0 36.5 42.0 45.5 56.0 68.0
mm 178 248 254 305 508 508 578 712 762 927 1067 1156 1422 1727
D NPT Plug
BLOW-OFF
in 1/2 1 1 1 1
/2
2 2 2 2 2 2 2 2 2 2
mm 15 25 25 40 50 50 50 50 50 50 50 50 50 50
E NPT Plug
GAUGE TAPS
in 1/4 1/4 1/4 1/4 1/4 1/4 1/4 1/4 1/4 1/4 1/4 1/4 1/4 n/a
mm 8 8 8 8 8 8 8 8 8 8 8 8 8 n/a
APPROXIMATE
ASSEMBLED WEIGHT
lb 20.0 33.0 34.0 60.0 105.0 130.0 236.0 358.0 560.0 818.0 1145.0 1740.0 1888.0 3000.0
kg 9.1 15.0 15.4 27.2 47.6 59.0 107.1 162.4 254.0 371.0 519.4 789.3 856.4 1360.8
Flow Coefficient Cv 70 110 160 260 400 570 950 1600 2200 3300 4900 6100 8000 11000
REFERENCED STANDARDS & CODES
CODE DESCRIPTION
ASME/ANSI B16.1 Cast Iron Pipe Flanges and Flanged Fittings
ANSI Class
125
1
3
4
2
5
7
6
A
B
C
E
D
STANDARD SCREEN SELECTIONS
Size Liquid Open Area Steam Open Area
2" ~ 4" 1/16 (.0625) 41% 3/64 (.045) 36%
5" ~ 8" 1/8 (.125) 40% 3/64 (.045) 36%
10" ~ 16" (1)
1/8 (.125) 40% 30 Mesh Lined 44.8%
1. Please consult factory for screen selections on 18" and largerYS 58-CI models.
PRESSURE -TEMPERATURE RATINGS (1)
Temperature ( F)°
Pressure(PSI)
-50 0 50 100 150 200 250 300 350 400 450 500
80
100
120
140
160
180
200
220
SOURCE: ASME/ANSI B16.1-1998
2” ~ 12”
A126 Gr. B ANSI Class 125
14” ~ 24”
A126 Gr. B ANSI Class 125
1. This chart displays the pressure-temperature ratings for the valve's body per ASME B16.1-1998.
Additional Design and
Technical Notes:
• On sizes 2" through 6",
the bodies are cast with
an additional boss that can
be tapped for various sizes.
Contact factory for more
information on this option.
• If furnished with a bronze
blow off valve, the
YS58 meets the military
specification WW-S-2739
for Type 2 strainers, sizes 2"
through 8". See factory.
Illustrations are
representative of sizes
2" through 4". Please
ask for certified
drawings when required.
29. A
APPLICATIONS
FFEATURES
Tel: 910-735-0000 s Fax: 910-738-3848 s titan@titanfci.com s www.titanfci.com
290 Corporate Drive s PO Box 7408 s Lumberton, NC 28358
YOUR PIPELINE TO THE FUTURE!
TITAN FLOW CONTROL, INC.
"Y" (WYE) STRAINER f ANSI CLASS 250
CAST IRON f FLANGED ENDS, RAISED FACE
general application: y-strainers are installed in a piping system to remove unwanted debris from the
pipeline, protecting expensive equipment downstream such as pumps, meters, spray nozzles, compressors, and
turbines. they c an be placed in a horizontal or vertic al pipeline as long as the screen is in a downward
position. straining is accomplished via an internal perforated or mesh lined straining element, the size of
which should be determined b ased on the size of the smallest particle to be removed.
servicing: the straining element needs regular cleaning to prevent debris build up. it is not advisable to
allow the differential pressure to increase by 20 psi. although cleaning normally requires the removal of the
straining element, installing and using a titan blow-off drain valve c an increase the time between cleanings.
The above data represents common market and service applications. No representation or guarantee, expressed or implied, is given due to the numerous
variations of concentrations, temperatures and flow conditions that may occur during actual service.
MODELS: YS 59-CI
(c ast iron)
®
TITAN
TITAN FLOW CONTROL, INC.
SIZE RANGE: 2" ~ 12"
larger sizes available
• The above listed temperatures are theoretical and
may vary during actual operating conditions.
TTECHNICAL
YS59-0416
PRESSURE/ TEMPERATURE RATING
CI- ASTM A126 GR. B - CLASS 250
SIZES 2" ~ 12"
WOG (Non-shock): 500 PSI @ 150 °F
PRESSURE/ TEMPERATURE RATING
CI- ASTM A126 GR. B - CLASS 250
SIZES 14" ~ 24"
WOG (Non-shock): 300 PSI @ 150 °F
s large straining capacity
with its large body and sizable straining element, the ys59 provides
excellent open area ratios that are typic ally two-and-a-half times
larger than the corresponding pipeline.
s precision machined seats
precision machined screen seats in both the body and c ap help to ensure
accurate positioning of the screen during reassembly after cleaning. also,
the machined body seats enable finer filtration by preventing debris bypass.
s self-cleaning capability
with a tapped npt blow-off connection, this unit c an be fitted with a
blow-down valve which facilitates cleaning of the straining element.
please contact factory for more information.
s epoxy painted
all units are epoxy painted to help resist rust and corrosion. titan fci
also offers epoxy coating as an option for the ys59.
s potable water/fda approved coatings available
in addition to its lead free, c ast iron body, titan c an provide
nsf/ansi and fda approved epoxy coatings which make this
product suitable for potable water and food contact
applic ations. numerous options are available. please contact
us for more details.
s optional cover designs
titan's ys59 is available with different cover options including swing,
clamp, and hinge type covers. please consult factory for more information
on these options.
30. TITAN FLOW CONTROL, Inc.
290 Corporate Drive E-mail: titan@titanfci.com
Lumberton, NC 28358 Web: www.titanfci.com
Tel: 910.735.0000 Fax: 910.738.3848
YS59-0416
®
TITAN
BILL OF MATERIALS (1)
No. PART YS 59-CI
1 Body (2) Cast Iron
A126 Gr. B
2 Cover
Cast Iron
A126 Gr. B
3 Straining Element (3)
Stainless Steel
4 Gasket (3) (4) Non-Asbestos Gasket,
Garlock 3000 or Equal
5 Cap Screws Steel
6
NPT Plug
(Blow-off)
Carbon Steel
7
NPT Plugs
(Gauge Taps) (3) Carbon Steel
1. Bill of Materials represents standard materials. Equivalent or better
materials may be substituted at the manufacturer's discretion.
2. Cast Iron bodies are epoxy painted.
3. Denotes recommended spare parts.
4. A wide range of gasket materials are available. Contact factory for
more information.
Titan FCI makes every effort to ensure the information presented on our literature accurately reflects exact product specifications. However, as product changes occur, there may be short-term differences between actual product
specifications and the information contained within our literature. Titan FCI reserves the right to make design and specification changes to improve our products without prior notification. When required, request certified drawings.
"Y" (WYE) STRAINER
YS 59-CI - (Cast Iron)
Flanged Ends • Raised Face • Cast Iron
1. Dimensions and weights are for reference only. When required, request certified drawings.
2. Larger sizes are available. Please consult factory for these sizes and dimensions.
3. Face to face values have a tolerance of ±0.06 in (±2.0 mm) for sizes 10" and lower and a tolerance of ±0.12 in (±3.0 mm) for sizes 12" and larger.
DIMENSIONS AND PERFORMANCE DATA (1)
SIZE (2)
in 2 2 1
/2
3 4 5 6 8 10 12
mm 50 65 80 100 125 150 200 250 300
A DIMENSION
FACE TO FACE (RAISED FACE) (3)
in 9.62 10.62 12.00 14.50 16.62 19.25 23.37 27.37 32.00
mm 244 270 305 369 423 489 594 696 813
B DIMENSION
CENTER LINE TO BOTTOM
in 5.5 6.5 7.5 8.75 11.5 14.0 16.75 19.00 22.00
mm 140 165 191 222 292 356 425 483 559
C DIMENSION
SCREEN REMOVAL
in 9.00 11.00 12.50 15.00 17.00 20.00 24.12 28.50 33.00
mm 229 280 318 381 432 508 613 724 839
D NPT Plug
BLOW-OFF
in 1/2 1 1 1 1/2 2 2 2 2 2
mm 15 25 25 40 50 50 50 50 50
E NPT Plug
GAUGE TAPS
in 1/4 1/4 1/4 1/4 1/4 1/4 1/4 1/4 1/4
mm 8 8 8 8 8 8 8 8 8
APPROXIMATE
ASSEMBLED WEIGHT
lb 25.5 45.0 60.0 94.0 150.0 206.0 338.0 528.0 768.0
kg 11.6 20.4 27.2 42.6 68.0 93.3 153.3 239.5 348.4
Flow Coefficient Cv 70 110 160 260 400 570 950 1600 2200
ANSI Class
250
PRESSURE -TEMPERATURE RATING
A126 Gr. B 2" ~ 12" 14" ~ 24"
WOG (Non-shock): 500 PSI @ 150 °F 300 PSI @ 150 °F
REFERENCED STANDARDS & CODES
CODE DESCRIPTION
ASME/ANSI B16.1 Cast Iron Pipe Flanges and Flanged Fittings
STANDARD SCREEN SELECTIONS
Size Liquid Open Area Steam Open Area
2" ~ 4" 1/16 (.0625) 41% 3/64 (.045) 36%
5" ~ 8" 1/8 (.125) 40% 3/64 (.045) 36%
10" ~ 14" (1)
1/8 (.125) 40% 30 Mesh Lined 44.8%
1. Please consult factory for screen selections on 16" and largerYS 59-CI models.
Illustrations are
representative of sizes
2" through 4". Please
ask for certified
drawings when required.
ExplodedView
PRESSURE -TEMPERATURE RATINGS (1)
-50 0 50 100 150 200 250 300 350 400 450 500
150
200
250
300
350
400
450
500
550
Temperature ( F)°
Pressure(PSI)
SOURCE: ASME/ANSI B16.1-1998 2” ~ 12”
A126 Gr. B ANSI Class 250
14” ~ 24”
A126 Gr. B ANSI Class 250
1. This chart displays the pressure-temperature ratings for the valve's body per ASME B16.1-1998.
1
3
4
2
5
7
6
A
B
C
E
D
31. Meets LEAD-FREE
(1)
requirements!
A
APPLICATIONS
FFEATURES
Tel: 910-735-0000 s Fax: 910-738-3848 s titan@titanfci.com s www.titanfci.com
YOUR PIPELINE TO THE FUTURE!
TITAN FLOW CONTROL, INC.
SIZE RANGE : 1/4" ~ 3"
"Y" (WYE) STRAINER f THREADED ENDS
ALUMINUM BRONZE f ANSI CLASS 250 f LEAD FREE (1)
PRESSURE/ TEMPERATURE RATING (2)
AB - ASTM B148 GR. 9D - CLASS 250
YS 52-AB (THREADED)
WOG (Non-shock): 400 PSI @ 150 °F
s astm b148 body material
aluminum bronze is stronger and less likely to corrode than other
bronze alloys, making them a preferred choice for sea water and other
applications where corrosion is a concern. because of its copper
content, marine organisms cannot colonize on the material.
additionally, titan's ys52-ab is used for potable water applications as it
meets lead free statutes requiring that the lead content in the wetted
surfaces is 0.25% or less as determined by a weighted average.
s large straining capacity
with its large body and sizable straining element, the ys52 provides
excellent open area ratios that are typically two-and-a-half times
larger than the corresponding pipeline, minimizing pressure drop
across the valve.
s precision machined seats
precision machined screen seats in both the body and cap help to
ensure accurate positioning of the screen during reassembly after
cleaning. also, the machined body seats enable finer filtration by
preventing debris bypass.
s self-cleaning capability
with a tapped npt blow-off connection, this unit can be fitted with a
blow-down valve which facilitates cleaning of the straining element.
please contact factory for more information.
general application: y-strainers are installed in a piping system to remove unwanted debris from the
pipeline, protecting expensive equipment downstream such as pumps, meters, spray nozzles, compressors, and
turbines. they can be placed in a horizontal or vertical pipeline as long as the screen is in a downward
position. straining is accomplished via an internal perforated or mesh lined straining element, the size of
which should be determined based on the size of the smallest particle to be removed.
servicing: the straining element needs regular cleaning to prevent debris build up. it is not advisable to
allow the differential pressure to increase by 20 psi. although cleaning normally requires the removal of the
straining element, installing and using a titan blow-off drain valve can increase the time between cleanings.
The above data represents common market and service applications. No representation or guarantee, expressed or implied, is given due to the numerous
variations of concentrations, temperatures and flow conditions that may occur during actual service.
TTECHNICAL
MODELS: YS 52-AB
(aluminum bronze)
YS52-0615
®
TITAN
TITAN FLOW CONTROL, INC.
2½" YS 52-AB
1. TheYS 52-AB meets requirements for lead free use in
potable water systems. The lead content in
the wetted surfaces is 0.25% or less as determined by
a weighted average. For more information on lead
free requirements, contact Titan Flow Control, Inc.
2. The above listed temperatures are theoretical and
may vary during actual operating conditions.
32. TITAN FLOW CONTROL, Inc.
290 Corporate Drive E-mail: titan@titanfci.com
Lumberton, NC 28358 Web: www.titanfci.com
Tel: 910.735.0000 Fax: 910.738.3848
YS52-0615
®
TITAN
BILL OF MATERIALS (1)
No. PART YS 52 - AB
1 Body
Aluminum Bronze
ASTM B148 Gr. 9D
2 Cap
Aluminum Bronze
ASTM B148 Gr. 9D
3 Straining Element (2)
Stainless Steel
4 Gasket (2)
Teflon
5 NPT Plug (Blow-off) Stainless Steel(3)
1. Bill of Materials represents standard materials. Equivalent
or better materials may be substituted at the manufacturer's
discretion.
2. Denotes recommended spare parts.
3. NPT Plug also available in other materials.
PRESSURE -TEMPERATURE RATING
ANSI Class 250 ASTM B148 Gr. 9D
WOG (Non-shock): 400 PSI @ 150 °F
Titan FCI makes every effort to ensure the information presented on our literature accurately reflects exact product specifications. However, as product changes occur, there may be short-term differences between actual product
specifications and the information contained within our literature. Titan FCI reserves the right to make design and specification changes to improve our products without prior notification. When required, request certified drawings.
"Y" (WYE) STRAINER
YS 52-AB - (Threaded)
Threaded Ends • ANSI Class 250 • Aluminum Bronze
ANSI Class
250
STANDARD SCREEN SELECTIONS
Size Liquid Open Area Steam Open Area
1/4" ~ 2" 20 mesh 51.8% 30 mesh 44.8%
2 1/2" ~ 3" 1/16 (.0625) 41% 3/64 (.045) 36%
1
3
4
2
5
1. Dimensions and weights are for reference only. When required, request certified drawings.
2. Face to face values have a tolerance of ±0.06 in (±2.0 mm).
DIMENSIONS AND PERFORMANCE DATA (1)
SIZE
in 1/4 3/8 1/2 3/4 1 1 1/4 1 1/2 2 2 1/2 3
mm 8 10 15 20 25 32 40 50 65 80
A DIMENSION
FACE TO FACE (2)
in 2.75 2.75 2.75 3.00 3.75 4.43 5.00 5.68 9.00 9.00
mm 70 70 70 76 95 113 127 144 229 229
B DIMENSION
CENTER LINE TO BOTTOM
in 2.18 2.18 2.18 2.34 2.91 3.5 3.78 4.39 6.44 6.44
mm 55 55 55 59 74 89 96 112 164 164
C DIMENSION
SCREEN REMOVAL
in 4.00 4.00 4.00 4.25 4.75 5.25 6.00 7.00 10.00 10.00
mm 102 102 102 108 121 133 152 178 254 254
D NPT Plug
BLOW-OFF
in 1/4 1/4 1/4 1/4 3/8 3/4 3/4 1 1 1/4 1 1/4
mm 8 8 8 8 10 20 20 25 32 32
APPROXIMATE
ASSEMBLEDWEIGHT
lb 0.5 0.5 0.5 1.0 1.8 2.5 4.0 5.6 15.9 15.9
kg 0.2 0.2 0.2 0.5 0.8 1.1 1.8 2.5 7.2 7.2
Flow Coefficient Cv 0.7 2 8 15 22 38 42 70 110 160
PRESSURE -TEMPERATURE RATINGS
-50 0 50 100 150 200 250 300 350 400 450
200
250
300
350
400
450
Pressure(PSI)
Temperature (°F)
SOURCE:ASME/ANSI B16.24
Aluminum Bronze
ASTM B148 Gr. 9D
ANSI 250
Illustrations are representative of YS 52-AB (Threaded-end
connections). Please ask for certified drawings when required.
REFERENCED STANDARDS & CODES
CODE DESCRIPTION
ASME/ANSI B16.15 Cast Bronze Threaded Fittings
ASME/ANSI B16.24 Cast Copper Alloy Pipe Flanges and Flanged Fittings
Body Material Application Notes:
• Aluminum Bronze (ASTM B148) is a preferred material for
lead-free wye strainers, meeting requirements for potable
water systems by containing 0.25% lead or less by average
weight on all wetted parts.
• Aluminum Bronze is strong and corrosion resistant, meeting
the needs of many various applications, such as seawater and
marine.
A
B
C
D
ExplodedView
FrontView
33. A
APPLICATIONS
FFEATURES
Tel: 910-735-0000 s Fax: 910-738-3848 s titan@titanfci.com s www.titanfci.com
290 Corporate Drive s PO Box 7408 s Lumberton, NC 28358
YOUR PIPELINE TO THE FUTURE!
TITAN FLOW CONTROL, INC.
"Y" (WYE) STRAINER f FLANGED ENDS, FLAT FACED
ALUMINUM BRONZE f ANSI CLASS 150 f LEAD FREE (1)
PRESSURE/ TEMPERATURE RATING (2)
AB - ASTM B148 GR. 9D - CLASS 150
YS 54-AB (FLANGED)
WOG (Non-shock): 225 PSI @ 150 °F
s astm b148 body material
aluminum bronze is stronger and less likely to corrode than other bronze
alloys, making them a preferred choice for sea water and other
applications where corrosion is a concern. because of its copper content,
marine organisms cannot colonize on the material. additionally, titan's
ys54-ab is used for potable water applications as it meets lead free statutes
requiring that the lead content in the wetted surfaces is 0.25% or less as
determined by a weighted average.
s new design with gauge taps
titan's ys54 has convenient gauge taps furnished with a plug on both the
inlet and outlet sides of sizes 2" through 12". these taps allow for easy
installation of pressure gauges to monitor differential pressure and
determine when screen cleaning is necessary.
s large straining capacity
with its large body and sizable straining element, the ys54 provides
excellent open area ratios that are typically two-and-a-half times larger
than the corresponding pipeline, minimizing pressure drop across the valve.
s precision machined seats
precision machined screen seats in both the body and cover help to ensure
accurate positioning of the screen during reassembly after cleaning. also,
the machined body seats enable finer filtration by preventing debris bypass.
s self-cleaning capability
with a tapped npt blow-off connection, this unit can be fitted with a
blow-down valve which facilitates cleaning of the straining element. please
contact factory for more information.
general application: y-strainers are installed in a piping system to remove unwanted debris from the
pipeline, protecting expensive equipment downstream such as pumps, meters, spray nozzles, compressors, and
turbines. they can be placed in a horizontal or vertical pipeline as long as the screen is in a downward
position. straining is accomplished via an internal perforated or mesh lined straining element, the size of
which should be determined based on the size of the smallest particle to be removed.
servicing: the straining element needs regular cleaning to prevent debris build up. it is not advisable to
allow the differential pressure to increase by 20 psi. although cleaning normally requires the removal of the
straining element, installing and using a titan blow-off drain valve can increase the time between cleanings.
The above data represents common market and service applications. No representation or guarantee, expressed or implied, is given due to the numerous
variations of concentrations, temperatures and flow conditions that may occur during actual service.
TTECHNICAL
MODELS: YS 54-AB
(aluminum bronze)
YS54-0615
®
TITAN
TITAN FLOW CONTROL, INC.
1. TheYS 54-AB meets requirements for lead free use in
potable water systems. The lead content in
the wetted surfaces is 0.25% or less as determined by
a weighted average. For more information on lead
free requirements, contact Titan Flow Control, Inc.
2. The above listed temperatures are theoretical and
may vary during actual operating conditions.
Meets LEAD-FREE
(1)
requirements!
New design includes
gauge taps as standard
on YS54-AB models
SIZE RANGE : 2" ~ 12"
34. TITAN FLOW CONTROL, Inc.
290 Corporate Drive E-mail: titan@titanfci.com
Lumberton, NC 28358 Web: www.titanfci.com
Tel: 910.735.0000 Fax: 910.738.3848
YS54-0615
®
TITAN
BILL OF MATERIALS (1)
No. PART YS 54-AB
1 Body
Aluminum Bronze
ASTM B148 Gr. 9D
2 Cover
Aluminum Bronze
ASTM B148 Gr. 9D
3 Straining Element (2)
Stainless Steel
4 Gasket (2)
Teflon
5 Cap Screw
Stainless Steel or
Silicon Bronze
6 NPT Plug (Blow-off)
Aluminum Bronze
ASTM B148 Gr. 9D
7 NPT Plug (Gauge Taps) Stainless Steel(3)
1. Bill of Materials represents standard materials. Equivalent or better
materials may be substituted at the manufacturer's discretion.
2. Denotes recommended spare parts.
3. NPT Plug also available in other materials.
Titan FCI makes every effort to ensure the information presented on our literature accurately reflects exact product specifications. However, as product changes occur, there may be short-term differences between actual product
specifications and the information contained within our literature. Titan FCI reserves the right to make design and specification changes to improve our products without prior notification. When required, request certified drawings.
"Y" (WYE) STRAINER
YS 54-AB - (Flanged)
Flanged (Flat Faced) • ANSI Class 150 • Aluminum Bronze
ANSI Class
150
1. Dimensions and weights are for reference only. When required, request certified drawings.
2. Face to face dimension includes raised face. These values have a tolerance of ±0.06 in (±2.0 mm) for sizes 10" and lower and a tolerance of ±0.12 in (±3.0 mm) for sizes 12" and larger.
DIMENSIONS AND PERFORMANCE DATA (1)
SIZE
in 2 2 1/2 3 4 5 6 8 10 12
mm 50 65 80 100 125 150 200 250 300
A DIMENSION
FACE TO FACE (2)
in 7.75 9.75 10.06 12.12 C/F 18.30 21.37 26.00 C/F
mm 197 248 256 308 C/F 465 543 660 C/F
B DIMENSION
CENTER LINE TO BOTTOM
in 5.25 6.50 7.00 8.25 C/F 13.50 15.50 18.50 C/F
mm 133 165 178 210 C/F 343 394 470 C/F
C DIMENSION
SCREEN REMOVAL
in 7.00 9.75 10.00 12.00 C/F 20.00 22.75 28.00 C/F
mm 178 248 254 305 C/F 508 578 712 C/F
D NPT Plug
BLOW-OFF
in 1/2 1 1 1 1/2 C/F 2 2 2 C/F
mm 15 25 25 40 C/F 50 50 50 C/F
E NPT Plug
GAUGE TAPS
in 1/4 1/4 1/4 1/4 C/F 1/4 1/4 1/4 C/F
mm 8 8 8 8 C/F 8 8 8 C/F
APPROXIMATE
ASSEMBLEDWEIGHT
lb 22.0 34.0 38.0 64.0 C/F 132.0 240.0 C/F C/F
kg 10.0 15.4 17.2 29.0 C/F 59.9 108.9 C/F C/F
Flow Coefficient Cv 70 110 160 260 C/F 570 950 1600 C/F
PRESSURE -TEMPERATURE RATINGS
Temperature °F
Pressure(PSI)
-50 500 100 150 200 250 300 350 400 450
140
160
180
200
220
240
Aluminum Bronze
ASTM B148 Gr. 9D
ANSI 150SOURCE:ASME/ANSI B16.24
PRESSURE -TEMPERATURE RATING
ANSI Class 150 ASTM B148 Gr. 9D
WOG (Non-shock): 225 PSI @ 150 °F
STANDARD SCREEN SELECTIONS
Size Liquid Open Area Steam Open Area
2" ~ 4" 1/16 (.0625) 41% 1/32 (.033) 28%
5" ~ 8" 1/8 (.125) 40% 3/64 (.045) 36%
10" ~ 12" 1/8 (.125) 40% 30 Mesh Lined 44.8%
REFERENCED STANDARDS & CODES
CODE DESCRIPTION
ASME/ANSI B16.24 Cast Copper Alloy Pipe Flanges and Flanged Fittings
Body Material Application Notes:
• Aluminum Bronze (ASTM B148) is a preferred material for lead-free wye
strainers, meeting requirements for potable water systems by containing
0.25% lead or less by average weight on all wetted parts.
• Aluminum Bronze is strong and corrosion resistant, meeting the needs of
many various applications, such as seawater and marine.
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4
2
7
5
6
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A
B
C
E
D
FrontView
ExplodedView
Illustrations are representative of YS 54-AB (Flanged Ends,
Flat Faced). Please ask for certified drawings when required.